Your search keyword '"transgenic"' showing total 238 results

1. Genome-wide analysis of wheat xyloglucan endotransglucosylase/hydrolase (XTH) gene family revealed TaXTH17 involved in abiotic stress responses.

Author

Bi, Huihui, Liu, Zeliang, Liu, Shanshan, Qiao, Wenchen, Zhang, Kunpu, Zhao, Minghui, and Wang, Daowen

Subjects

*GENE families, *ABIOTIC stress, *DROUGHT tolerance, *CHROMOSOME duplication, *GENE expression, *PLANT growth

Abstract

Background: Environmental stresses, including high salinity and drought, severely diminish wheat yield and quality globally. The xyloglucan endotransglucosylase/hydrolase (XTH) family represents a class of cell wall-modifying enzymes and plays important roles in plants growth, development and stress adaptation. However, systematic analyses of XTH family genes and their functions under salt and drought stresses have not been undertaken in wheat. Results: In this study, we identified a total of 135 XTH genes in wheat, which were clustered into three evolutionary groups. These TaXTHs were unevenly distributed on 21 chromosomes of wheat with a majority of TaXTHs located on homelogous groups 2, 3 and 7. Gene duplication analysis revealed that segmental and tandem duplication were the main reasons for the expansion of XTH family in wheat. Interaction network predictions indicated that TaXTHs could interact with multiple proteins, including three kinases, one methyltransferase and one gibberellin-regulated protein. The promoters of the TaXTH genes harbored various cis-acting elements related to stress and hormone responses. RNA-seq data analyses showed that some TaXTH genes were induced by salt and drought stresses. Furthermore, we verified that TaXTH17 was induced by abiotic stresses and phytohormone treatments, and demonstrated that TaXTH17 was localized in the secretory pathway and cell wall. Functional analyses conducted in heterologous expression systems and in wheat established that TaXTH17 plays a negative role in plant resistance to salt and drought. Conclusions: We identified 135 XTH genes in wheat and conducted comprehensive analyses of their phylogenetic relationships, gene structures, conserved motifs, gene duplication events, chromosome locations, interaction networks, cis-acting elements and gene expression patterns. Furthermore, we provided solid evidence supporting the notion that TaXTH17 plays a negative role in plant resistance to salt and drought stresses. Collectively, our results provide valuable insights into understanding wheat XTHs, particularly their involvement in plant stress responses, and establish a foundation for further functional and mechanistic studies of TaXTHs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Conserved genes regulating human sex differentiation, gametogenesis and fertilization.

Author

Fakhro, Khalid A., Awwad, Johnny, Garibova, Suma, Saraiva, Luis R., and Avella, Matteo

Subjects

*HUMAN biology, *SEX differentiation (Embryology), *SEX determination, *GAMETOGENESIS, *HUMAN genes, *INFERTILITY, *MALE infertility, *Y chromosome

Abstract

The study of the functional genome in mice and humans has been instrumental for describing the conserved molecular mechanisms regulating human reproductive biology, and for defining the etiologies of monogenic fertility disorders. Infertility is a reproductive disorder that includes various conditions affecting a couple's ability to achieve a healthy pregnancy. Recent advances in next-generation sequencing and CRISPR/Cas-mediated genome editing technologies have facilitated the identification and characterization of genes and mechanisms that, if affected, lead to infertility. We report established genes that regulate conserved functions in fundamental reproductive processes (e.g., sex determination, gametogenesis, and fertilization). We only cover genes the deletion of which yields comparable fertility phenotypes in both rodents and humans. In the case of newly-discovered genes, we report the studies demonstrating shared cellular and fertility phenotypes resulting from loss-of-function mutations in both species. Finally, we introduce new model systems for the study of human reproductive biology and highlight the importance of studying human consanguineous populations to discover novel monogenic causes of infertility. The rapid and continuous screening and identification of putative genetic defects coupled with an efficient functional characterization in animal models can reveal novel mechanisms of gene function in human reproductive tissues. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparative analyses of functional antibody-mediated inhibition with anti-circumsporozoite monoclonal antibodies against transgenic Plasmodium berghei.

Author

Nicholas, Justin, Kolli, Surendra Kumar, Subramani, Pradeep Annamalai, De, Sai Lata, Ogbondah, Madison M., Barnes, Samantha J., Ntumngia, Francis Babila, and Adams, John H.

Subjects

*MONOCLONAL antibodies, *PLASMODIUM berghei, *CIRCUMSPOROZOITE protein, *FUNCTIONAL analysis, *PLASMODIUM falciparum

Abstract

Background: Acquired functional inhibitory antibodies are one of several humoral immune mechanisms used to neutralize foreign pathogens. In vitro bioassays are useful tools for quantifying antibody-mediated inhibition and evaluating anti-parasite immune antibodies. However, a gap remains in understanding of how antibody-mediated inhibition in vitro translates to inhibition in vivo. In this study, two well-characterized transgenic Plasmodium berghei parasite lines, PbmCh-luc and Pb-PfCSP(r), and murine monoclonal antibodies (mAbs) specific to P. berghei and Plasmodium falciparum circumsporozoite protein (CSP), 3D11 and 2A10, respectively, were used to evaluate antibody-mediated inhibition of parasite development in both in vitro and in vivo functional assays. Methods: IC50 values of mAbs were determined using an established inhibition of liver-stage development assay (ILSDA). For the in vivo inhibition assay, mice were passively immunized by transfer of the mAbs and subsequently challenged with 5.0 × 103 sporozoites via tail vein injection. The infection burden in both assays was quantified by luminescence and qRT-PCR of P. berghei 18S rRNA normalized to host GAPDH. Results: The IC50 values quantified by relative luminescence of mAbs 3D11 and 2A10 were 0.396 µg/ml and 0.093 µg/ml, respectively, against transgenic lines in vitro. Using the highest (> 90%) inhibitory antibody concentrations in a passive transfer, an IC50 of 233.8 µg/ml and 181.5 µg/ml for mAbs 3D11 and 2A10, respectively, was observed in vivo. At 25 µg (250 µg/ml), the 2A10 antibody significantly inhibited liver burden in mice compared to control. Additionally, qRT-PCR of P. berghei 18S rRNA served as a secondary validation of liver burden quantification. Conclusions: Results from both experimental models, ILSDA and in vivo challenge, demonstrated that increased concentrations of the homologous anti-CSP repeat mAbs increased parasite inhibition. However, differences in antibody IC50 values between parasite lines did not allow a direct correlation between the inhibition of sporozoite invasion in vitro by ILSDA and the inhibition of mouse liver stage burden. Further studies are needed to establish the conditions for confident predictions for the in vitro ILSDA to be a predictor of in vivo outcomes using this model system. [ABSTRACT FROM AUTHOR]

Published

2023

4. Identification of CDK gene family and functional analysis of CqCDK15 under drought and salt stress in quinoa.

Author

Wang, Wangtian, Liu, Wenyu, and Wang, Baoqiang

Subjects

*QUINOA, *GENE families, *DROUGHTS, *FUNCTIONAL analysis, *CYCLIN-dependent kinases, *GENE expression, *TRANSGENIC plants

Abstract

as one of the oldest cultivated crops in the world, quinoa has been widely valued for its rich nutritional value and green health. In this study, 22 CDK genes (CqCDK01-CqCDK22) were identified from quinoa genome using bioinformatics method. The number of amino acids was 173–811, the molecular weight was 19,554.89 Da-91,375.70 Da, and the isoelectric point was 4.57–9.77. The phylogenetic tree divided 21 CqCDK genes into six subfamilies, the gene structure showed that 12 (54.5%) CqCDK genes (CqCDK03, CqCDK04, CqCDK05, CqCDK06, CqCDK07, CqCDK11, CqCDK14, CqCDK16, CqCDK18, CqCDK19, CqCDK20 and CqCDK21) had UTR regions at 5' and 3' ends. Each CDK protein had different motifs (3–9 motifs), but the genes with the same motifs were located in the same branch. Promoter analysis revealed 41 cis-regulatory elements related to plant hormones, abiotic stresses, tissue-specific expression and photoresponse. The results of real-time fluorescence quantitative analysis showed that the expression level of some CDK genes was higher under drought and salt stress, which indicated that CDK genes could help plants to resist adverse environmental effects. Subcellular localization showed that CqCDK15 gene was localized to the nucleus and cytoplasm, and transgenic plants overexpressing CqCDK15 gene showed higher drought and salt tolerance compared to the controls. Therefore, CDK genes are closely related to quinoa stress resistance. In this study, the main functions of quinoa CDK gene family and its expression level in different tissues and organs were analyzed in detail, which provided some theoretical support for quinoa stress-resistant breeding. Meanwhile, this study has important implications for further understanding the function of the CDK gene family in quinoa and our understanding of the CDK family in vascular plant. [ABSTRACT FROM AUTHOR]

Published

2023

5. Overexpression of the elongation factor MtEF1A1 promotes salt stress tolerance in Arabidopsis thaliana and Medicago truncatula.

Author

Xu, Lei, Zhang, Lixia, Liu, Yajiao, Sod, Bilig, Li, Mingna, Yang, Tianhui, Gao, Ting, Yang, Qingchuan, and Long, Ruicai

Subjects

*MEDICAGO, *MEDICAGO truncatula, *ARABIDOPSIS thaliana, *HALOPHYTES, *PLANT breeding, *ROOT-tubercles

Abstract

Background: Elongation factor 1 A (EF1A), an essential regulator for protein synthesis, has been reported to participate in abiotic stress responses and environmental adaption in plants. However, the role of EF1A in abiotic stress response was barely studied in Medicago truncatula. Here, we identified elongation factor (EF) genes of M. truncatula and studied the salt stress response function of MtEF1A1 (MTR_6g021805). Results: A total of 34 EF genes were identified in the M. truncatula genome. Protein domains and motifs of EFs were highly conserved in plants. MtEF1A1 has the highest expression levels in root nodules and roots, followed by the leaves and stems. Transgenic Arabidopsis thaliana overexpressing MtEF1A1 was more resistant to salt stress treatment, with higher germination rate, longer roots, and more lateral roots than wild type plant. In addition, lower levels of H2O2 and malondialdehyde (MDA) were also detected in transgenic Arabidopsis. Similarly, MtEF1A1 overexpressing M. truncatula was more resistant to salt stress and had lower levels of reactive oxygen species (ROS) in leaves. Furthermore, the expression levels of abiotic stress-responsive genes (MtRD22A and MtCOR15A) and calcium-binding genes (MtCaM and MtCBL4) were upregulated in MtEF1A1 overexpressing lines of M. truncatula. Conclusion: These results suggested that MtEF1A1 play a positive role in salt stress regulation. MtEF1A1 may realize its function by binding to calmodulin (CaM) or by participating in Ca2+-dependent signaling pathway. This study revealed that MtEF1A1 is an important regulator for salt stress response in M. truncatula, and provided potential strategy for salt-tolerant plant breeding. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Kandelia obovata transcription factor KoWRKY40 enhances cold tolerance in transgenic Arabidopsis.

Author

Fei, Jiao, Wang, You-Shao, Cheng, Hao, Su, Yu-Bin, Zhong, Yong-Jia, and Zheng, Lei

Subjects

*MANGROVE plants, *TRANSCRIPTION factors, *PHYSIOLOGICAL effects of cold temperatures, *ARABIDOPSIS, *GENE expression, *PLANT development, *PLANT growth

Abstract

Background: WRKY transcription factors play key roles in plant development processes and stress response. Kandelia obovata is the most cold-resistant species of mangrove plants, which are the important contributors to coastal marine environment. However, there is little known about the WRKY genes in K. obovata. Results: In this study, a WRKY transcription factor gene, named KoWRKY40, was identified from mangrove plant K. obovata. The full-length cDNA of KoWRKY40 gene was 1420 nucleotide bases, which encoded 318 amino acids. The KoWRKY40 protein contained a typical WRKY domain and a C2H2 zinc-finger motif, which were common signatures to group II of WRKY family. The three-dimensional (3D) model of KoWRKY40 was formed by one α-helix and five β-strands. Evolutionary analysis revealed that KoWRKY40 has the closest homology with a WRKY protein from another mangrove plant Bruguiera gymnorhiza. The KoWRKY40 protein was verified to be exclusively located in nucleus of tobacco epidermis cells. Gene expression analysis demonstrated that KoWRKY40 was induced highly in the roots and leaves, but lowly in stems in K. obovata under cold stress. Overexpression of KoWRKY40 in Arabidopsis significantly enhanced the fresh weight, root length, and lateral root number of the transgenic lines under cold stress. KoWRKY40 transgenic Arabidopsis exhibited higher proline content, SOD, POD, and CAT activities, and lower MDA content, and H2O2 content than wild-type Arabidopsis under cold stress condition. Cold stress affected the expression of genes related to proline biosynthesis, antioxidant system, and the ICE-CBF-COR signaling pathway, including AtP5CS1, AtPRODH1, AtMnSOD, AtPOD, AtCAT1, AtCBF1, AtCBF2, AtICE1, AtCOR47 in KoWRKY40 transgenic Arabidopsis plants. Conclusion: These results demonstrated that KoWRKY40 conferred cold tolerance in transgenic Arabidopsis by regulating plant growth, osmotic balance, the antioxidant system, and ICE-CBF-COR signaling pathway. The study indicates that KoWRKY40 is an important regulator involved in the cold stress response in plants. [ABSTRACT FROM AUTHOR]

Published

2022

7. Mutagenicity of carcinogenic heterocyclic amines in Salmonella typhimurium YG strains and transgenic rodents including gpt delta.

Author

Nohmi, Takehiko and Watanabe, Masahiko

Subjects

*AMES test, *LABORATORY rats, *AMINES, *REPORTER genes, *BIOTRANSFORMATION (Metabolism), *SALMONELLA typhimurium, *MURIDAE

Abstract

Chemical carcinogens to humans have been usually identified by epidemiological studies on the relationships between occupational or environmental exposure to the agents and specific cancer induction. In contrast, carcinogenic heterocyclic amines were identified under the principle that mutagens in bacterial in the Ames test are possible human carcinogens. In the 1970s to 1990s, more than 10 heterocyclic amines were isolated from pyrolysates of amino acids, proteins, meat or fish as mutagens in the Ames test, and they were demonstrated as carcinogens in rodents. In the 1980s and 1990s, we have developed derivatives of the Ames tester strains that overexpressed acetyltransferase of Salmonella typhimurium. These strains such as Salmonella typhimurium YG1024 exhibited a high sensitivity to the mutagenicity of the carcinogenic heterocyclic amines. Because of the high sensitivity, YG1024 and other YG strains were used for various purposes, e.g., identification of novel heterocyclic amines, mechanisms of metabolic activation, comparison of mutagenic potencies of various heterocyclic amines, and the co-mutagenic effects. In the 1990s and 2000s, we developed transgenic mice and rats for the detection of mutagenicity of chemicals in vivo. The transgenics were generated by the introduction of reporter genes for mutations into fertilized eggs of mice and rats. We named the transgenics as gpt delta because the gpt gene of Escherichia coli was used for detection of point mutations such as base substitutions and frameshifts and the red/gam genes of λ phage were employed to detect deletion mutations. The transgenic rodents gpt delta and other transgenics with lacI or lacZ as reporter genes have been utilized for characterization of mutagenicity of heterocyclic amines in vivo. In this review, we summarized the in vitro mutagenicity of heterocyclic amines in Salmonella typhimurium YG strains and the in vivo mutagenicity in transgenic rodents. We discussed the relationships between in vitro and in vivo mutagenicity of the heterocyclic amines and their relations to the carcinogenicity. [ABSTRACT FROM AUTHOR]

Published

2021

8. Systematic identification of plausible pathways to potential harm via problem formulation for investigational releases of a population suppression gene drive to control the human malaria vector Anopheles gambiae in West Africa.

Author

Connolly, John B., Mumford, John D., Fuchs, Silke, Turner, Geoff, Beech, Camilla, North, Ace R., and Burt, Austin

Subjects

*GENE silencing, *ANOPHELES gambiae, *ENVIRONMENTAL risk assessment, *MALARIA, *MOSQUITO vectors, *VECTOR control, *COMMUNICATIVE disorders

Abstract

Background: Population suppression gene drive has been proposed as a strategy for malaria vector control. A CRISPR-Cas9-based transgene homing at the doublesex locus (dsxFCRISPRh) has recently been shown to increase rapidly in frequency in, and suppress, caged laboratory populations of the malaria mosquito vector Anopheles gambiae. Here, problem formulation, an initial step in environmental risk assessment (ERA), was performed for simulated field releases of the dsxFCRISPRh transgene in West Africa. Methods: Building on consultative workshops in Africa that previously identified relevant environmental and health protection goals for ERA of gene drive in malaria vector control, 8 potentially harmful effects from these simulated releases were identified. These were stratified into 46 plausible pathways describing the causal chain of events that would be required for potential harms to occur. Risk hypotheses to interrogate critical steps in each pathway, and an analysis plan involving experiments, modelling and literature review to test each of those risk hypotheses, were developed. Results: Most potential harms involved increased human (n = 13) or animal (n = 13) disease transmission, emphasizing the importance to subsequent stages of ERA of data on vectorial capacity comparing transgenics to non-transgenics. Although some of the pathways (n = 14) were based on known anatomical alterations in dsxFCRISPRh homozygotes, many could also be applicable to field releases of a range of other transgenic strains of mosquito (n = 18). In addition to population suppression of target organisms being an accepted outcome for existing vector control programmes, these investigations also revealed that the efficacy of population suppression caused by the dsxFCRISPRh transgene should itself directly affect most pathways (n = 35). Conclusions: Modelling will play an essential role in subsequent stages of ERA by clarifying the dynamics of this relationship between population suppression and reduction in exposure to specific potential harms. This analysis represents a comprehensive identification of plausible pathways to potential harm using problem formulation for a specific gene drive transgene and organism, and a transparent communication tool that could inform future regulatory studies, guide subsequent stages of ERA, and stimulate further, broader engagement on the use of population suppression gene drive to control malaria vectors in West Africa. [ABSTRACT FROM AUTHOR]

Published

2021

9. A heat-shock inducible system for flexible gene expression in cereals.

Author

Harrington, Sophie A., Backhaus, Anna E., Fox, Samantha, Rogers, Christian, Borrill, Philippa, Uauy, Cristobal, and Richardson, Annis

Subjects

*GENE expression, *SHOCK therapy, *HEATING control, *ARABIDOPSIS thaliana, *BARLEY, *GENETIC vectors, *RECOMBINASES

Abstract

Background: Functional characterisation of genes using transgenic methods is increasingly common in cereal crops. Yet standard methods of gene over-expression can lead to undesirable developmental phenotypes, or even embryo lethality, due to ectopic gene expression. Inducible expression systems allow the study of such genes by preventing their expression until treatment with the specific inducer. When combined with the Cre-Lox recombination system, inducible promoters can be used to initiate constitutive expression of a gene of interest. Yet while these systems are well established in dicot model plants, like Arabidopsis thaliana, they have not yet been implemented in grasses. Results: Here we present an irreversible heat-shock inducible system developed using Golden Gate-compatible components which utilises Cre recombinase to drive constitutive gene expression in barley and wheat. We show that a heat shock treatment of 38 °C is sufficient to activate the construct and drive expression of the gene of interest. Modulating the duration of heat shock controls the density of induced cells. Short durations of heat shock cause activation of the construct in isolated single cells, while longer durations lead to global construct activation. The system can be successfully activated in multiple tissues and at multiple developmental stages and shows no activation at standard growth temperatures (~ 20 °C). Conclusions: This system provides an adaptable framework for use in gene functional characterisation in cereal crops. The developed vectors can be easily adapted for specific genes of interest within the Golden Gate cloning system. By using an environmental signal to induce activation of the construct, the system avoids pitfalls associated with consistent and complete application of chemical inducers. As with any inducible system, care must be taken to ensure that the expected construct activation has indeed taken place. [ABSTRACT FROM AUTHOR]

Published

2020

10. The 3D8 single chain variable fragment protein suppresses Newcastle disease virus transmission in transgenic chickens.

Author

Byun, Sung June, Choi, Hoonsung, Sureshkumar, Shanmugam, Yuk, Seong-Su, Kwon, Jung-Hoon, Noh, Jin-Yong, Jung, Sun Keun, Kim, Jeom Sun, Oh, Keon Bong, Yang, Hyeon, Lee, Gunsup, Lee, Hwi-Cheul, Woo, Jae-Seok, and Song, Chang-Seon

Subjects

*NEWCASTLE disease virus, *INFECTIOUS disease transmission, *CHICKENS, *APOPTIN, *VIRAL transmission

Abstract

Background: The 3D8 single chain variable fragment (scFv) is a mini-antibody sequence that exhibits independent nuclease activity against all types of nucleic acids. In this research, crossing a 3D8 scFv G1 transgenic rooster with wild-type hens produced 3D8 scFv G2 transgenic chickens to evaluate suppression of viral transmission. Result: The transgenic chickens were identified using genomic PCR and immunohistochemistry. To evaluate Newcastle disease virus (NDV) protection conferred by 3D8 scFv expression, transgenic, non-transgenic, and specific pathogen-free (SPF) chickens were challenged with virulent NDV by direct injection or aerosol exposure. The three groups of chickens showed no significant differences (p < 0.05) in mean death time after being directly challenged with NDV; however, in contrast to chickens in the non-transgenic and SPF groups, chickens in the transgenic group survived after aerosol exposure. Although the transgenic chickens did not survive after direct challenge, we found that the chickens expressing the 3D8 scFv survived aerosol exposure to NDV. Conclusions: Our finding suggest that the 3D8 scFv could be a useful tool to prevent chickens from spreading NDV and control virus transmission. [ABSTRACT FROM AUTHOR]

Published

2020

11. Various effects of the expression of the xyloglucanase gene from Penicillium canescens in transgenic aspen under semi-natural conditions.

Author

Vidyagina, Elena O., Subbotina, Natalia M., Belyi, Vladimir A., Lebedev, Vadim G., Krutovsky, Konstantin V., and Shestibratov, Konstantin A.

Subjects

*GENE expression, *PENICILLIUM, *EUROPEAN aspen, *WOOD chemistry, *WOODY plants, *TRANSGENIC plants

Abstract

Background: Recombinant carbohydrases genes are used to produce transgenic woody plants with improved phenotypic traits. However, cultivation of such plants in open field is challenging due to a number of problems. Therefore, additional research is needed to alleviate them. Results: Results of successful cultivation of the transgenic aspens (Populus tremula) carrying the recombinant xyloglucanase gene (sp-Xeg) from Penicillium canescens in semi-natural conditions are reported in this paper for the first time. Change of carbohydrate composition of wood was observed in transgenic aspens carrying the sp-Xeg gene. The transformed transgenic line Xeg-2-1b demonstrated accelerated growth and increased content of cellulose in wood of trees growing in both greenhouse and outside in comparison with the control untransformed line Pt. The accelerated growth was observed also in the transgenic line Xeg-1-1c. Thicker cell-wall and longer xylem fiber were also observed in both these transgenic lines. Undescribed earlier considerable reduction in the wood decomposition rate of the transgenic aspen stems was also revealed for the transformed transgenic lines. The decomposition rate was approximately twice as lower for the transgenic line Xeg-2-3b in comparison with the control untransformed line Pt. Conclusion: A direct dependence of the phenotypic and biochemical traits on the expression of the recombinant gene sp-Xeg was demonstrated. The higher was the level of the sp-Xeg gene expression, the more pronounced were changes in the phenotypic and biochemical traits. All lines showed phenotypic changes in the leave traits. Our results showed that the plants carrying the recombinant sp-Xeg gene do not demonstrate a decrease in growth parameters in semi-natural conditions. In some transgenic lines, a change in the carbohydrate composition of the wood, an increase in the cell wall thickness, and a decrease in the rate of decomposition of wood were observed. [ABSTRACT FROM AUTHOR]

Published

2020

12. LcMYB4, an unknown function transcription factor gene from sheepgrass, as a positive regulator of chilling and freezing tolerance in transgenic Arabidopsis.

Author

Li, Xiaoxia, Jia, Junting, Zhao, Pincang, Guo, Xiufang, Chen, Shuangyan, Qi, Dongmei, Cheng, Liqin, and Liu, Gongshe

Subjects

*TRANSCRIPTION factors, *FROST resistance of plants, *IMMOBILIZED proteins, *PHYSIOLOGICAL effects of cold temperatures, *CHIMERIC proteins, *GENE expression

Abstract

Background: Sheepgrass (Leymus chinensis (Trin.) Tzvel) is a perennial forage grass that can survive extreme freezing winters (− 47.5 °C) in China. In this study, we isolated an unknown function MYB transcription factor gene, LcMYB4, from sheepgrass. However, the function of LcMYB4 and its homologous genes has not been studied in other plants. Results: The expression of the LcMYB4 gene was upregulated in response to cold induction, and the LcMYB4 fusion protein was localized in the nucleus, with transcriptional activation activity. Biological function analysis showed that compared with WT plants, LcMYB4-overexpressing Arabidopsis presented significantly increased chilling and freezing tolerance as evidenced by increased germination rate, survival rate, and seed setting rate under conditions of low temperature stress. Furthermore, LcMYB4-overexpressing plants showed increased soluble sugar content, leaf chlorophyll content and superoxide dismutase activity but decreased malondialdehyde (MDA) under chilling stress. Moreover, the expression of the CBF1, KIN1, KIN2 and RCI2A genes were significantly upregulated in transgenic plants with chilling treatment. These results suggest that LcMYB4 overexpression increased the soluble sugar content and cold-inducible gene expression and alleviated oxidative damage and membrane damage, resulting in enhanced cold resistance in transgenic plants. Interestingly, our results showed that the LcMYB4 protein interacts with fructose-1,6-bisphosphate aldolase protein1 (LcFBA1) and that the expression of the LcFBA1 gene was also upregulated during cold induction in sheepgrass, similar to LcMYB4. Conclusion: Our findings suggest that LcMYB4 encodes MYB transcription factor that plays a positive regulatory role in cold stress. [ABSTRACT FROM AUTHOR]

Published

2020

13. Integration, abundance, and transmission of mutations and transgenes in a series of CRISPR/Cas9 soybean lines.

Author

Michno, Jean-Michel, Virdi, Kamaldeep, Stec, Adrian O., Liu, Junqi, Wang, Xiaobo, Xiong, Yer, and Stupar, Robert M.

Subjects

*TRANSGENES, *CHIMERAS (Botany), *TRANSGENE expression, *GENOME editing, *PLANT species, *SOYBEAN, *SOYBEAN farming

Abstract

Background: As with many plant species, current genome editing strategies in soybean are initiated by stably transforming a gene that encodes an engineered nuclease into the genome. Expression of the transgene results in a double-stranded break and repair at the targeted locus, oftentimes resulting in mutation(s) at the intended site. As soybean is a self-pollinating species with 20 chromosome pairs, the transgene(s) in the T0 plant are generally expected to be unlinked to the targeted mutation(s), and the transgene(s)/mutation(s) should independently assort into the T1 generation, resulting in Mendellian combinations of transgene presence/absence and allelic states within the segregating family. This prediction, however, is not always consistent with observed results. Results: In this study, we investigated inheritance patterns among three different CRISPR/Cas9 transgenes and their respective induced mutations in segregating soybean families. Next-generation resequencing of four T0 plants and four T1 progeny plants, followed by broader assessments of the segregating families, revealed both expected and unexpected patterns of inheritance among the different lineages. These unexpected patterns included: (1) A family in which T0 transgenes and mutations were not transmitted to progeny; (2) A family with four unlinked transgene insertions, including two respectively located at paralogous CRISPR target break sites; (3) A family in which mutations were observed and transmitted, but without evidence of transgene integration nor transmission. Conclusions: Genome resequencing provides high-resolution of transgene integration structures and gene editing events. Segregation patterns of these events can be complicated by several potential mechanisms. This includes, but is not limited to, plant chimeras, multiple unlinked transgene integrations, editing of intended and paralogous targets, linkage between the transgene integration and target site, and transient expression of the editing reagents without transgene integration into the host genome. [ABSTRACT FROM AUTHOR]

Published

2020

14. CRISPR/Cas9-mediated gene knockin in the hydroid Hydractinia symbiolongicarpus.

Author

Sanders, Steven M., Ma, Zhiwei, Hughes, Julia M., Riscoe, Brooke M., Gibson, Gregory A., Watson, Alan M., Flici, Hakima, Frank, Uri, Schnitzler, Christine E., Baxevanis, Andreas D., and Nicotra, Matthew L.

Subjects

*CRISPRS, *HYDROZOA, *HYDRACTINIA, *CNIDARIA, *TRANSGENES

Abstract

Background: Hydractinia symbiolongicarpus, a colonial cnidarian, is a tractable model system for many cnidarian-specific and general biological questions. Until recently, tests of gene function in Hydractinia have relied on laborious forward genetic approaches, randomly integrated transgenes, or transient knockdown of mRNAs. Results: Here, we report the use of CRISPR/Cas9 genome editing to generate targeted genomic insertions in H. symbiolonigcarpus. We used CRISPR/Cas9 to promote homologous recombination of two fluorescent reporters, eGFP and tdTomato, into the Eukaryotic elongation factor 1 alpha (Eef1a) locus. We demonstrate that the transgenes are expressed ubiquitously and are stable over two generations of breeding. We further demonstrate that CRISPR/Cas9 genome editing can be used to mark endogenous proteins with FLAG or StrepII-FLAG affinity tags to enable in vivo and ex vivo protein studies. Conclusions: This is the first account of CRISPR/Cas9 mediated knockins in Hydractinia and the first example of the germline transmission of a CRISPR/Cas9 inserted transgene in a cnidarian. The ability to precisely insert exogenous DNA into the Hydractinia genome will enable sophisticated genetic studies and further development of functional genomics tools in this understudied cnidarian model. [ABSTRACT FROM AUTHOR]

Published

2018

15. Rheology of transgenic switchgrass reveals practical aspects of biomass processing.

Author

Guigui Wan, Frazier, Taylor, Jorgensen, Julianne, Bingyu Zhao, and Frazier, Charles E.

Subjects

*SWITCHGRASS, *ENERGY crops, *BIOMASS, *RHEOLOGY, *GENES

Abstract

Background: Mechanical properties of transgenic switchgrass have practical implications for biorefinery technologies. Presented are fundamentals for simple (thermo)mechanical measurements of genetically transformed switchgrass. Experimental basics are provided for the novice, where the intention is to promote collaboration between plant biologists and materials scientists. Results: Stem sections were subjected to two stress modes: (1) torsional oscillation in the linear response region, and (2) unidirectional torsion to failure. Specimens were analyzed while submerged/saturated in ethylene glycol, simulating natural hydration and allowing experimental temperatures above 100 °C for an improved view of the lignin glass transition. Down-regulation of the 4-Coumarate:coenzyme A ligase gene (reduced lignin content and altered monomer composition) generally resulted in less stiff and weaker stems. These observations were associated with a reduction in the temperature and activation energy of the lignin glass transition, but surprisingly with no difference in the breadth and intensity of the tan δ signal. The results showed promise in further investigations of how rheological methods relate to stem lignin content, composition, and functional properties in the field and in bioprocessing. Conclusions: Measurements such as these are complicated by small specimen size; however, torsional rheometers (relatively common in polymer laboratories) are well suited for this task. As opposed to the expense and complication of relative humidity control, solvent-submersion rheological methods effectively reveal fundamental structure/property relationships in plant tissues. Demonstrated are low-strain linear methods, and also nonlinear yield and failure analysis; the latter is very uncommon for typical rheological equipment. [ABSTRACT FROM AUTHOR]

Published

2018

16. Early brain connectivity alterations and cognitive impairment in a rat model of Alzheimer's disease.

Author

Muñoz-Moreno, Emma, Tudela, Raúl, López-Gil, Xavier, and Soria, Guadalupe

Subjects

*ALZHEIMER'S disease, *COGNITION disorders, *MAGNETIC resonance imaging of the brain, *BRAIN mapping, *BIOLOGICAL tags

Abstract

Background: Animal models of Alzheimer's disease (AD) are essential to understanding the disease progression and to development of early biomarkers. Because AD has been described as a disconnection syndrome, magnetic resonance imaging (MRI)-based connectomics provides a highly translational approach to characterizing the disruption in connectivity associated with the disease. In this study, a transgenic rat model of AD (TgF344-AD) was analyzed to describe both cognitive performance and brain connectivity at an early stage (5 months of age) before a significant concentration of β-amyloid plaques is present. Methods: Cognitive abilities were assessed by a delayed nonmatch-to-sample (DNMS) task preceded by a training phase where the animals learned the task. The number of training sessions required to achieve a learning criterion was recorded and evaluated. After DNMS, MRI acquisition was performed, including diffusion-weighted MRI and resting-state functional MRI, which were processed to obtain the structural and functional connectomes, respectively. Global and regional graph metrics were computed to evaluate network organization in both transgenic and control rats. Results: The results pointed to a delay in learning the working memory-related task in the AD rats, which also completed a lower number of trials in the DNMS task. Regarding connectivity properties, less efficient organization of the structural brain networks of the transgenic rats with respect to controls was observed. Specific regional differences in connectivity were identified in both structural and functional networks. In addition, a strong correlation was observed between cognitive performance and brain networks, including whole-brain structural connectivity as well as functional and structural network metrics of regions related to memory and reward processes. Conclusions: In this study, connectivity and neurocognitive impairments were identified in TgF344-AD rats at a very early stage of the disease when most of the pathological hallmarks have not yet been detected. Structural and functional network metrics of regions related to reward, memory and sensory performance were strongly correlated with the cognitive outcome. The use of animal models is essential for the early identification of these alterations and can contribute to the development of early biomarkers of the disease based on MRI connectomics. [ABSTRACT FROM AUTHOR]

Published

2018

17. Soybean MADS-box gene GmAGL1 promotes flowering via the photoperiod pathway.

Author

Zeng, Xuanrui, Liu, Hailun, Du, Hongyang, Wang, Sujing, Yang, Wenming, Chi, Yingjun, Wang, Jiao, Huang, Fang, and Yu, Deyue

Subjects

*CROP genetics, *SOYBEAN, *FLOWERING of plants, *FLORIGEN & anti-florigen, *PHOTOPERIODISM, *PLANTS, *TRANSGENIC plants

Abstract

Background: The MADS-box transcription factors are an ancient family of genes that regulate numerous physiological and biochemical processes in plants and facilitate the development of floral organs. However, the functions of most of these transcription factors in soybean remain unknown. Results: In this work, a MADS-box gene, GmAGL1, was overexpressed in soybean. Phenotypic analysis showed that GmAGL1 overexpression not only resulted in early maturation but also promoted flowering and affected petal development. Furthermore, the GmAGL1 was much more effective at promoting flowering under long-day conditions than under short-day conditions. Transcriptome sequencing analysis showed that before flowering, the photoperiod pathway photoreceptor CRY2 and several circadian rhythm genes, such as SPA1, were significantly down-regulated, while some other flowering-promoting circadian genes, such as GI and LHY, and downstream genes related to flower development, such as FT, LEAFY, SEP1, SEP3, FUL, and AP1, were up-regulated compared with the control. Other genes related to the flowering pathway were not noticeably affected. Conclusions: The findings reported herein indicate that GmAGL1 may promote flowering mainly through the photoperiod pathway. Interestingly, while overexpression of GmAGL1 promoted plant maturity, no reduction in seed production or oil and protein contents was observed. [ABSTRACT FROM AUTHOR]

Published

2018

18. Transgenic fluorescent zebrafish lines that have revolutionized biomedical research

Author

Choe, Chong Pyo, Choi, Seok-Yong, Kee, Yun, Kim, Min Jung, Kim, Seok-Hyung, Lee, Yoonsung, Park, Hae-Chul, and Ro, Hyunju

Published

2021

19. Agronomic performance of Populus deltoides trees engineered for biofuel production.

Author

Macaya-Sanz, David, Jin-Gui Chen, Kalluri, Udaya C., Muchero, Wellington, Tschaplinski, Timothy J., Gunter, Lee E., Simon, Sandra J., Biswal, Ajaya K., Bryan, Anthony C., Payyavula, Raja, Meng Xie, Yongil Yang, Jin Zhang, Mohnen, Debra, Tuskan, Gerald A., and DiFazio, Stephen P.

Subjects

*POPLARS, *TRANSGENIC plants, *COTTONWOOD, *BIOMASS energy, *PLANT cell walls, *LIGNOCELLULOSE, *AGRONOMY, *PLANT phenology

Abstract

Background: One of the major barriers to the development of lignocellulosic feedstocks is the recalcitrance of plant cell walls to deconstruction and saccharification. Recalcitrance can be reduced by targeting genes involved in cell wall biosynthesis, but this can have unintended consequences that compromise the agronomic performance of the trees under field conditions. Here we report the results of a field trial of fourteen distinct transgenic Populus deltoides lines that had previously demonstrated reduced recalcitrance without yield penalties under greenhouse conditions. Results: Survival and productivity of the trial were excellent in the first year, and there was little evidence for reduced performance of the transgenic lines with modified target gene expression. Surprisingly, the most striking phenotypic effects in this trial were for two empty-vector control lines that had modified bud set and bud flush. This is most likely due to somaclonal variation or insertional mutagenesis. Traits related to yield, crown architecture, herbivory, pathogen response, and frost damage showed few significant differences between target gene transgenics and empty vector controls. However, there were a few interesting exceptions. Lines overexpressing the DUF231 gene, a putative O-acetyltransferase, showed early bud flush and marginally increased height growth. Lines overexpressing the DUF266 gene, a putative glycosyltransferase, had significantly decreased stem internode length and slightly higher volume index. Finally, lines overexpressing the PFD2 gene, a putative member of the prefoldin complex, had a slightly reduced volume index. Conclusions: This field trial demonstrates that these cell wall modifications, which decreased cell wall recalcitrance under laboratory conditions, did not seriously compromise first-year performance in the field, despite substantial challenges, including an outbreak of a stem boring insect (Gypsonoma haimbachiana), attack by a leaf rust pathogen (Melampsora spp.), and a late frost event. This bodes well for the potential utility of these lines as advanced biofuels feedstocks. [ABSTRACT FROM AUTHOR]

Published

2017

20. Pollen-mediated gene flow from transgenic to non-transgenic switchgrass (Panicum virgatum L.) in the field.

Author

Millwood, Reginald, Nageswara-Rao, Madhugiri, Rongjian Ye, Terry-Emert, Ellie, Johnson, Chelsea R., Hanson, Micaha, Burris, Jason N., Kwit, Charles, and Stewart Jr, C. Neal

Subjects

*SWITCHGRASS, *FEEDSTOCK, *PERENNIALS, *PLANT genes, *TRANSGENIC plants

Abstract

Background: Switchgrass is C4 perennial grass species that is being developed as a cellulosic bioenergy feedstock. It is wind-pollinated and considered to be an obligate outcrosser. Genetic engineering has been used to alter cell walls for more facile bioprocessing and biofuel yield. Gene flow from transgenic cultivars would likely be of regulatory concern. In this study we investigated pollen-mediated gene flow from transgenic to nontransgenic switchgrass in a 3-year field experiment performed in Oliver Springs, Tennessee, U.S.A. using a modified Nelder wheel design. The planted area (0.6 ha) contained sexually compatible pollen source and pollen receptor switchgrass plants. One hundred clonal switchgrass 'Alamo' plants transgenic for an orange-fluorescent protein (OFP) and hygromycin resistance were used as the pollen source; whole plants, including pollen, were orange-fluorescent. To assess pollen movement, pollen traps were placed at 10 m intervals from the pollen-source plot in the four cardinal directions extending to 20 m, 30 m, 30 m, and 100 m to the north, south, west, and east, respectively. To assess pollination rates, nontransgenic 'Alamo 2' switchgrass clones were planted in pairs adjacent to pollen traps. Results: In the eastward direction there was a 98% decrease in OFP pollen grains from 10 to 100 m from the pollen-source plot (Poisson regression, F1,8 = 288.38, P < 0.0001). At the end of the second and third year, 1,820 F1 seeds were collected from pollen recipient-plots of which 962 (52.9%) germinated and analyzed for their transgenic status. Transgenic progeny production detected in each pollen-recipient plot decreased with increased distance from the edge of the transgenic plot (Poisson regression, F1,15 = 12.98, P < 0.003). The frequency of transgenic progeny detected in the eastward plots (the direction of the prevailing wind) ranged from 79.2% at 10 m to 9.3% at 100 m. Conclusions: In these experiments we found transgenic pollen movement and hybridization rates to be inversely associated with distance. However, these data suggest pollen-mediated gene flow is likely to occur up to, at least, 100 m. This study gives baseline data useful to determine isolation distances and other management practices should transgenic switchgrass be grown commercially in relevant environments. [ABSTRACT FROM AUTHOR]

Published

2017

21. Event-specific detection of transgenic potato AV43-6-G7 using real-time and digital PCR methods.

Author

Hongwei Gao, Xiaofan Yu, Tingting Deng, Min Sun, Xizhi Xiao, Xin Huang, Ying Chen, and Ronggui Li

Subjects

*TRANSGENIC plants, *POTATOES, *CULTIVATED plants, *POLYMERASE chain reaction, *PLANT DNA

Abstract

Background: The isolation of unknown DNA sequences flanked by known sequences is an important task in the event-specific detection of GMOs. None of event-specific detection method was developed based on the junction sequence of an exogenous integrant in the transgenic potato AV43-6-G7. Results: The flanking sequence between the exogenous fragment and recombinant chromosome of this potato was successfully acquired through exogenous gene 5'-RACE. The event-specific primers and Taqman probe were designed to amplify fragments spanning the exogenous DNA and potato genomic DNA. The specific real-time PCR and digital PCR detection methods for AV43-6-G7 potato were established based on primers designed according to the flanking sequences. The detection limit of the qualitative PCR assay was 0.01 % for AV43-6-G7 potato in 100 ng of potato genomic DNA, corresponding to approximately 11.6 copies of the potato haploid genome. The ddPCR assays for Potato AV43-6-G7 achieved a limit of quantification of approximately 58 target copies, with RSD ≤ 25 %. The aLOQ of this system was approximately 1.2 copies. Conclusions: These results indicated that these event-specific methods would be useful for the identification of potato AV43-6-G7. [ABSTRACT FROM AUTHOR]

Published

2016

22. Ectopic expression of AtDGAT1, encoding diacylglycerol O-acyltransferase exclusively committed to TAG biosynthesis, enhances oil accumulation in seeds and leaves of Jatropha.

Author

Maravi, Devendra Kumar, Kumar, Sanjeev, Sharma, Prabin Kumar, Yasufumi Kobayashi, Goud, Vaibhav V., Nozomu Sakurai, Hiroyuki Koyama, and Sahoo, Lingaraj

Subjects

*DIGLYCERIDES, *ACYLTRANSFERASES, *BIOSYNTHESIS, *TRIGLYCERIDES, *BIOMASS, *AGROBACTERIUM

Abstract

Background: Jatropha curcas is an important biofuel crop due to the presence of high amount of oil in its seeds suitable for biodiesel production. Triacylglycerols (TAGs) are the most abundant form of storage oil in plants. Diacylglycerol O-acyltransferase (DGAT1) enzyme is responsible for the last and only committed step in seed TAG biosynthesis. Direct upregulation of TAG biosynthesis in seeds and vegetative tissues through overexpression of the DGAT1 could enhance the energy density of the biomass, making significant impact on biofuel production. Results: The enzyme diacylglycerol O-acyltransferase is the rate-limiting enzyme responsible for the TAG biosynthesis in seeds. We generated transgenic Jatropha ectopically expressing an Arabidopsis DGAT1 gene through Agrobacterium-mediated transformation. The resulting AtDGAT1 transgenic plants showed a dramatic increase in lipid content by 1.5- to 2 fold in leaves and 20-30 % in seeds, and an overall increase in TAG and DAG, and lower free fatty acid (FFA) levels compared to the wild-type plants. The increase in oil content in transgenic plants is accompanied with increase in average plant height, seeds per tree, average 100-seed weight, and seed length and breadth. The enhanced TAG accumulation in transgenic plants had no penalty on the growth rates, growth patterns, leaf number, and leaf size of plants. Conclusions: In this study, we produced transgenic Jatropha ectopically expressing AtDGAT1. We successfully increased the oil content by 20-30 % in seeds and 1.5- to 2.0-fold in leaves of Jatropha through genetic engineering. Transgenic plants had reduced FFA content compared with control plants. Our strategy of increasing energy density by enhancing oil accumulation in both seeds and leaves in Jatropha would make it economically more sustainable for biofuel production. [ABSTRACT FROM AUTHOR]

Published

2016

23. Evaluation of the brain-penetrant microtubule-stabilizing agent, dictyostatin, in the PS19 tau transgenic mouse model of tauopathy.

Author

Makani, Vishruti, Bin Zhang, Yuemang Yao, Lee, Virginia M. Y., Trojanowski, John Q., Brunden, Kurt R., Lassalas, Pierrik, Ballatore, Carlo, Heeoon Han, Lou, Kevin, Smith III, Amos B., and Paterson, Ian

Subjects

*ALZHEIMER'S disease treatment, *TAU proteins, *MICROTUBULES

Abstract

Neurodegenerative disorders referred to as tauopathies, which includes Alzheimer’s disease (AD), are characterized by insoluble deposits of the tau protein within neuron cell bodies and dendritic processes in the brain. Tau is normally associated with microtubules (MTs) in axons, where it provides MT stabilization and may modulate axonal transport. However, tau becomes hyperphosphorylated and dissociates from MTs in tauopathies, with evidence of reduced MT stability and defective axonal transport. This has led to the hypothesis that MT-stabilizing drugs may have potential for the treatment of tauopathies. Prior studies demonstrated that the brain-penetrant MT-stabilizing drug, epothilone D, had salutary effects in transgenic (Tg) mouse models of tauopathy, improving MT density and axonal transport, while reducing axonal dystrophy. Moreover, epothilone D enhanced cognitive performance and decreased hippocampal neuron loss, with evidence of reduced tau pathology. To date, epothilone D has been the only non-peptide small molecule MT-stabilizing agent to be evaluated in Tg tau mice. Herein, we demonstrate the efficacy of another small molecule brain-penetrant MT-stabilizing agent, dictyostatin, in the PS19 tau Tg mouse model. Although dictyostatin was poorly tolerated at once-weekly doses of 1 mg/kg or 0.3 mg/kg, likely due to gastrointestinal (GI) complications, a dictyostatin dose of 0.1 mg/kg was better tolerated, such that the majority of 6-month old PS19 mice, which harbor a moderate level of brain tau pathology, completed a 3-month dosing study without evidence of significant body weight loss. Importantly, as previously observed with epothilone D, the dictyostatin-treated PS19 mice displayed improved MT density and reduced axonal dystrophy, with a reduction of tau pathology and a trend toward increased hippocampal neuron survival relative to vehicle-treated PS19 mice. Thus, despite evidence of dose-limiting peripheral side effects, the observed positive brain outcomes in dictyostatin-treated aged PS19 mice reinforces the concept that MT-stabilizing compounds have significant potential for the treatment of tauopathies. [ABSTRACT FROM AUTHOR]

Published

2016

24. Viral proteins expressed in the protozoan parasite Eimeria tenella are detected by the chicken immune system.

Author

Marugan-Hernandez, Virginia, Cockle, Charlotte, Macdonald, Sarah, Pegg, Elaine, Crouch, Colin, Blake, Damer P., and Tomley, Fiona M.

Subjects

*EIMERIA, *PARASITIC protozoa, *COCCIDIOSIS, *DISEASE vectors, *RESPIRATORY diseases

Abstract

Background: Eimeria species are parasitic protozoa that cause coccidiosis, an intestinal disease commonly characterised by malabsorption, diarrhoea and haemorrhage that is particularly important in chickens. Vaccination against chicken coccidiosis is effective using wild-type or attenuated live parasite lines. The development of protocols to express foreign proteins in Eimeria species has opened up the possibility of using Eimeria live vaccines to deliver heterologous antigens and function as multivalent vaccine vectors that could protect chickens against a range of pathogens. Results: In this study, genetic complementation was used to express immunoprotective virus antigens in Eimeria tenella. Infectious bursal disease virus (IBDV) causes Gumboro, an immunosuppressive disease that affects productivity and can interfere with the efficacy of poultry vaccination programmes. Infectious laryngotracheitis virus (ILTV) causes a highly transmissible respiratory disease for which strong cellular immunity and antibody responses are required for effective vaccination. Genes encoding the VP2 protein from a very virulent strain of IBDV (vvVP2) and glycoprotein I from ILTV (gI) were cloned downstream of 5'Et-Actin or 5'Et-TIF promoter regions in plasmids that also contained a mCitrine fluorescent reporter cassette under control of the 5'Et-MIC1 promoter. The plasmids were introduced by nucleofection into E. tenella sporozoites, which were then used to infect chickens. Progeny oocysts were sorted by FACS and passaged several times in vivo until the proportion of fluorescent parasites in each transgenic population reached ~20 % and the number of transgene copies per parasite genome decreased to < 10. All populations were found to transcribe and express the transgene and induced the generation of low titre, transgene-specific antibodies when used to immunise chickens. Conclusions: E. tenella can express antigens of other poultry pathogens that are successfully recognised by the chicken immune system. Nonetheless, further work has to be done in order to improve the levels of expression for its future use as a multivalent vaccine vector. [ABSTRACT FROM AUTHOR]

Published

2016

25. Nucleic acids delivery methods for genome editing in zygotes and embryos: the old, the new, and the old-new.

Author

Sato, Masahiro, Ohtsuka, Masato, Watanabe, Satoshi, and Gurumurthy, Channabasavaiah B.

Subjects

*GENOME editing, *NUCLEIC acids, *CRISPRS, *EMBRYONIC stem cells, *MICROINJECTIONS

Abstract

In the recent years, sequence-specific nucleases such as ZFNs, TALENs, and CRISPR/Cas9 have revolutionzed the fields of animal genome editing and transgenesis. However, these new techniques require microinjection to deliver nucleic acids into embryos to generate gene-modified animals. Microinjection is a delicate procedure that requires sophisticated equipment and highly trained and experienced technicians. Though over a dozen alternate approaches for nucleic acid delivery into embryos were attempted during the pre-CRISPR era, none of them became routinely used as microinjection. The addition of CRISPR/Cas9 to the genome editing toolbox has propelled the search for novel delivery approaches that can obviate the need for microinjection. Indeed, some groups have recently developed electroporation-based methods that have the potential to radically change animal transgenesis. This review provides an overview of the old and new delivery methods, and discusses various strategies that were attempted during the last three decades. In addition, several of the methods are re-evaluated with respect to their suitability to deliver genome editing components, particularly CRISPR/Cas9, to embryos. [ABSTRACT FROM AUTHOR]

Published

2016

26. Gene expression profiling of reactive oxygen species (ROS) and antioxidant defense system following Sugarcane mosaic virus (SCMV) infection

Author

Akbar, Sehrish, Wei, Yao, Yuan, Yuan, Khan, Muhammad Tahir, Qin, Lifang, Powell, Charles A., Chen, Baoshan, and Zhang, Muqing

Published

2020

27. Pharmacological inhibition of nSMase2 reduces brain exosome release and α-synuclein pathology in a Parkinson’s disease model

Author

Michael Jun, Chris Jean Elias, Patricia Spilman, Jesus Campagna, Sujyoti Chandra, Chunni Zhu, Whitaker Cohn, Varghese John, Mikhail Melnik, Karen H. Gylys, Samantha Focht, Tina Bilousova, and Asa Hatami

Subjects

0301 basic medicine, Aging, Parkinson's disease, Neurodegenerative, Protein aggregation, Exosomes, Medical and Health Sciences, Transgenic, Micro Report, Mice, chemistry.chemical_compound, 0302 clinical medicine, Sirtuins, 2.1 Biological and endogenous factors, Parkinson&#8217, Enzyme Inhibitors, Aetiology, Parkinson's Disease, Chemistry, Brain, Parkinson Disease, Extracellular vesicle, Extracellular vesicles, Cell biology, Sphingomyelin Phosphodiesterase, Neutral sphingomyelinase-2, 5.1 Pharmaceuticals, Neurological, Development of treatments and therapeutic interventions, Substantia nigra, Pyrimidinones, Naphthalenes, Exosome, s disease, Alpha-synuclein, Protein Aggregates, 03 medical and health sciences, Cellular and Molecular Neuroscience, In vivo, medicine, Animals, RC346-429, Molecular Biology, Neurology & Neurosurgery, Animal, Neurosciences, medicine.disease, Microvesicles, Brain Disorders, 030104 developmental biology, Disease Models, Parkinson’s disease, Neurology. Diseases of the nervous system, 030217 neurology & neurosurgery

Abstract

Aim We have previously reported that cambinol (DDL-112), a known inhibitor of neutral sphingomyelinase-2 (nSMase2), suppressed extracellular vesicle (EV)/exosome production in vitro in a cell model and reduced tau seed propagation. The enzyme nSMase2 is involved in the production of exosomes carrying proteopathic seeds and could contribute to cell-to-cell transmission of pathological protein aggregates implicated in neurodegenerative diseases such as Parkinson’s disease (PD). Here, we performed in vivo studies to determine if DDL-112 can reduce brain EV/exosome production and proteopathic alpha synuclein (αSyn) spread in a PD mouse model. Methods The acute effects of single-dose treatment with DDL-112 on interleukin-1β-induced extracellular vesicle (EV) release in brain tissue of Thy1-αSyn PD model mice and chronic effects of 5 week DDL-112 treatment on behavioral/motor function and proteinase K-resistant αSyn aggregates in the PD model were determined. Results/discussion In the acute study, pre-treatment with DDL-112 reduced EV/exosome biogenesis and in the chronic study, treatment with DDL-112 was associated with a reduction in αSyn aggregates in the substantia nigra and improvement in motor function. Inhibition of nSMase2 thus offers a new approach to therapeutic development for neurodegenerative diseases with the potential to reduce the spread of disease-specific proteopathic proteins.

Published

2021

28. Isolation of novel citrus and plum fruit promoters and their functional characterization for fruit biotechnology

Author

Dasgupta, Kasturi, Hotton, Sara, Belknap, William, Syed, Yasra, Dardick, Christopher, Thilmony, Roger, and Thomson, James G.

Published

2020

29. Neuroprotective effects of Cerebrolysin in triple repeat Tau transgenic model of Pick's disease and fronto-temporal tauopathies.

Author

Rockenstein, Edward, Ubhi, Kiren, Mante, Michael, Florio, Jazmin, Adame, Anthony, Winter, Stefan, Brandstaetter, Hemma, Meier, Dieter, and Masliah, Eliezer

Subjects

*NEUROPROTECTIVE agents, *TAU proteins, *PICK'S disease of the brain, *PROGRESSIVE supranuclear palsy, *NEUROPEPTIDES, *NEUROLOGICAL disorders, *LABORATORY mice, *NEOCORTEX, *AGING, *AMINO acids, *ANIMAL experimentation, *ANIMALS, *BIOLOGICAL models, *CEREBRAL cortex, *HIPPOCAMPUS (Brain), *MICE, *GENETIC mutation, *NERVE tissue proteins, *NEURODEGENERATION, *PHOSPHORYLATION, *TRANSFERASES, *PHARMACODYNAMICS

Abstract

Background: Tauopathies are a group of neurodegenerative disorders with accumulation of three-repeat (3R) or four-repeat (4R) Tau. While 3R tau is found in Pick's disease and Alzheimer's disease (AD), 4R tau is more abundant in corticobasal degeneration, progressive supranuclear palsy, and AD. We have previously shown that Cerebrolysin™ (CBL), a neuropeptide mixture with neurotrophic effects, ameliorates the pathology in amyloid precursor protein transgenic (tg) mouse model of AD and 4R tau, however it is unclear if CBL ameliorates the deficits and neuropathology in the mouse model of Pick's disease over expressing 3R tau. Results: Mice expressing 3R tau (L266V and G272V mutations) under the mThy-1 promoter were treated with CBL in two separate groups, the first was 3 months old (treated for 3 months, IP) and the second was 6 months old (treated for 3 months, IP) at the start of the treatment. We found that although the levels of total 3R tau were unchanged, CBL reduced the levels of hyper-phosphorylated tau in both groups of mice. This was accompanied by reduced neurodegenerative pathology in the neocortex and hippocampus in both groups and by improvements in the behavioral deficits in the nest-building test and water maze in the 3-6 month group. Conclusion: Taken together these results support the notion that CBL may be beneficial in other taupathy models by reducing the levels of aberrantly phosphorylated tau. [ABSTRACT FROM AUTHOR]

Published

2015

30. Optimized production of transgenic buffalo embryos and offspring by cytoplasmic zygote injection.

Author

Fanli Meng, Hui Li, Xiaoli Wang, Guangsheng Qin, Oback, Björn, and Deshun Shi

Subjects

*WATER buffalo, *CYTOPLASM, *ZYGOTES, *TRANSGENIC animals, *BLASTOCYST, *GREEN fluorescent protein, *REPRODUCTION

Abstract

Background: Cytoplasmic injection of exogenous DNA into zygotes is a promising technique to generate transgenic livestock. However, it is still relatively inefficient and has not yet been demonstrated to work in buffalo. We sought to improve two key technical parameters of the procedure, namely i) how much linear DNA to inject and ii) when to inject it. For this, we introduced a constitutively expressed enhanced green fluorescent protein (EGFP) plasmid into buffalo zygotes. Results: First, we found that the proportion of EGFP-expressing blastocysts derived from zygotes injected with 20 or 50 ng/µL DNA was significantly higher than from those injected with 5 µg/mL. However, 50 ng/µL exogenous DNA compromised blastocyst development compared to non-injected IVF controls. Therefore the highest net yield of EGFP-positive blastocysts was achieved at 20 ng/µL DNA. Second, zygotes injected early (7-8 h post-insemination [hpi]) developed better than those injected at mid (12-13 hpi) or late (18-19 hpi) time points. Blastocysts derived from early injections were also more frequently EGFP-positive. As a consequence, the net yield of EGFP-expressing blastocysts was more than doubled using early vs late injections (16.4% vs 7.7%). With respect to blastocyst quality, we found no significant difference in cell numbers of EGFP-positive blastocysts vs non-injected blastocysts. Following embryo transfer of six EGFP-positive blastocysts into four recipient animals, two viable buffalo calves were born. Biopsied ear tissues from both buffalo calves were analyzed for transgene presence and expression by Southern blot, PCR and confocal laser scanning microscopy, respectively. This confirmed that both calves were transgenic. Conclusions: Our cytoplasmic injection protocol improved generation of transgenic embryos and resulted in the first transgenic buffalo calves produced by this method. [ABSTRACT FROM AUTHOR]

Published

2015

31. Handmade cloning: recent advances, potential and pitfalls.

Author

Verma, Geetika, Arora, J. S., Sethi, R. S., Mukhopadhyay, C. S., and Verma, Ramneek

Subjects

*CLONING, *SOMATIC cell nuclear transfer, *EMBRYOLOGY, *CRYOPRESERVATION of organs, tissues, etc., *ENDANGERED species, *TRANSGENIC animals

Abstract

Handmade cloning (HMC) is the most awaited, simple and micromanipulator-free version of somatic cell nuclear transfer (SCNT). The requirement of expensive micromanipulators and skilled expertise is eliminated in this technique, proving it as a major revolution in the field of embryology. During the past years, many modifications have been incorporated in this technique to boost its efficiency. This alternative approach to micromanipulator based traditional cloning (TC) works wonder in generating comparable or even higher birth rates in addition to declining costs drastically and enabling cryopreservation. This technique is not only applicable to intraspecies nuclear transfer but also to interspecies nuclear transfer (iSCNT) thus permitting conservation of endangered species. It also offers unique possibilities for automation of SCNT which aims at production of transgenic animals that can cure certain human diseases by producing therapeutics hence, providing a healthier future for the wellbeing of humans. The present review aims at highlighting certain aspects of HMC including recent advancements in procedure and factors involved in elevating its efficiency besides covering the potentials and pitfalls of this technique. [ABSTRACT FROM AUTHOR]

Published

2015

32. Engineering improved bio-jet fuel tolerance in Escherichia coli using a transgenic library from the hydrocarbon-degrader Marinobacter aquaeolei.

Author

Tomko, Timothy A. and Dunlop, Mary J.

Subjects

*ESCHERICHIA coli physiology, *JET fuel, *BIOMASS energy, *MARINE bacteria, *FOSSIL fuels

Abstract

Background: Recent metabolic engineering efforts have generated microorganisms that can produce biofuels, including bio-jet fuels, however these fuels are often toxic to cells, limiting production yields. There are natural examples of microorganisms that have evolved mechanisms for tolerating hydrocarbon-rich environments, such as those that thrive near natural oil seeps and in oil-polluted waters. Results: Using genomic DNA from the hydrocarbon-degrading microbe Marinobacter aquaeolei, we constructed a transgenic library that we expressed in Escherichia coli. We exposed cells to inhibitory levels of pinene, a monoterpene that can serve as a jet fuel precursor with chemical properties similar to existing tactical fuels. Using a sequential strategy with a fosmid library followed by a plasmid library, we were able to isolate a region of DNA from the M. aquaeolei genome that conferred pinene tolerance when expressed in E. coli. We determined that a single gene, yceI, was responsible for the tolerance improvements. Overexpression of this gene placed no additional burden on the host. We also tested tolerance to other monoterpenes and showed that yceI selectively improves tolerance. Conclusions: The genomes of hydrocarbon-tolerant microbes represent a rich resource for tolerance engineering. Using a transgenic library, we were able to identify a single gene that improves E. coli's tolerance to the bio-jet fuel precursor pinene. [ABSTRACT FROM AUTHOR]

Published

2015

33. Engaging scientists: An online survey exploring the experience of innovative biotechnological approaches to controlling vector-borne diseases.

Author

Boëte, Christophe, Beisel, Uli, Castro, Luísa Reis, Césard, Nicolas, and Reeves, R. Guy

Subjects

*DISEASE vectors, *ARTHROPODA, *BIOTECHNOLOGY, *INTERNET surveys, *PUBLIC health

Abstract

Background: Pioneering technologies (e.g., nanotechnology, synthetic biology or climate engineering) are often associated with potential new risks and uncertainties that can become sources of controversy. The communication of information during their development and open exchanges between stakeholders is generally considered a key issue in their acceptance. While the attitudes of the public to novel technologies have been widely considered there has been relatively little investigation of the perceptions and awareness of scientists working on human or animal diseases transmitted by arthropods. Methods: Consequently, we conducted a global survey on 1889 scientists working on aspects of vector-borne diseases, exploring, under the light of a variety of demographic and professional factors, their knowledge and awareness of an emerging biotechnology that has the potential to revolutionize the control of pest insect populations. Results: Despite extensive media coverage of key developments (including releases of manipulated mosquitoes into human communities) this has in only one instance resulted in scientist awareness exceeding 50 % on a national or regional scale. We document that awareness of pioneering releases significantly relied on private communication sources that were not equally accessible to scientists from countries with endemic vector-borne diseases (dengue and malaria). In addition, we provide quantitative analysis of the perceptions and knowledge of specific biotechnological approaches to controlling vector-borne disease, which are likely to impact the way in which scientists around the world engage in the debate about their value. Conclusions: Our results indicate that there is scope to strengthen already effective methods of communication, in addition to a strong demand by scientists (expressed by 79.9 % of respondents) to develop new, creative modes of public engagement. [ABSTRACT FROM AUTHOR]

Published

2015

34. Pest control and resistance management through release of insects carrying a male-selecting transgene.

Author

Harvey-Samuel, Tim, Morrison, Neil I., Walker, Adam S., Marubbi, Thea, Ju Yao, Collins, Hilda L., Gorman, Kevin, Emyr Davies, T. G., Alphey, Nina, Warner, Simon, Shelton, Anthony M., and Alphey, Luke

Subjects

*INSECT pest control, *BACILLUS thuringiensis, *TRANSGENE expression, *DIAMONDBACK moth, *INSECTICIDE resistance, *FRUIT fly control

Abstract

Background: Development and evaluation of new insect pest management tools is critical for overcoming over-reliance upon, and growing resistance to, synthetic, biological and plant-expressed insecticides. For transgenic crops expressing insecticidal proteins from the bacterium Bacillus thuringiensis ('Bt crops') emergence of resistance is slowed by maintaining a proportion of the crop as non-Bt varieties, which produce pest insects unselected for resistance. While this strategy has been largely successful, multiple cases of Bt resistance have now been reported. One new approach to pest management is the use of genetically engineered insects to suppress populations of their own species. Models suggest that released insects carrying male-selecting (MS) transgenes would be effective agents of direct, species-specific pest management by preventing survival of female progeny, and simultaneously provide an alternative insecticide resistance management strategy by introgression of susceptibility alleles into target populations. We developed a MS strain of the diamondback moth, Plutella xylostella, a serious global pest of crucifers. MS-strain larvae are reared as normal with dietary tetracycline, but, when reared without tetracycline or on host plants, only males will survive to adulthood. We used this strain in glasshouse-cages to study the effect of MS male P. xylostella releases on target pest population size and spread of Bt resistance in these populations. Results: Introductions of MS-engineered P. xylostella males into wild-type populations led to rapid pest population decline, and then elimination. In separate experiments on broccoli plants, relatively low-level releases of MS males in combination with broccoli expressing Cry1Ac (Bt broccoli) suppressed population growth and delayed the spread of Bt resistance. Higher rates of MS male releases in the absence of Bt broccoli were also able to suppress P. xylostella populations, whereas either low-level MS male releases or Bt broccoli alone did not. Conclusions: These results support theoretical modeling, indicating that MS-engineered insects can provide a powerful pest population suppressing effect, and could effectively augment current Bt resistance management strategies. We conclude that, subject to field confirmation, MS insects offer an effective and versatile control option against P. xylostella and potentially other pests, and may reduce reliance on and protect insecticide-based approaches, including Bt crops. [ABSTRACT FROM AUTHOR]

Published

2015

35. Protocol: genetic transformation of the fern Ceratopteris richardii through microparticle bombardment.

Author

Plackett, Andrew R. G., Rabbinowitsch, Ester H., and Langdale, Jane A.

Subjects

*GENETIC transformation, *GENETIC recombination, *FERNS, *CERATOPTERIS richardii, *CERATOPTERIS

Abstract

Background: The inability to genetically transform any fern species has been a major technical barrier to unlocking fern biology. Initial attempts to overcome this limitation were based on transient transformation approaches or achieved very low efficiencies. A highly efficient method of stable transformation was recently reported using the fern Ceratopteris richardii, in which particle bombardment of callus tissue achieved transformation efficiencies of up to 72%. As such, this transformation method represents a highly desirable research tool for groups wishing to undertake fern genetic analysis. Results: We detail an updated and optimized protocol for transformation of C. richardii by particle bombardment, including all necessary ancillary protocols for successful growth and propagation of this species in a laboratory environment. The C. richardii lifecycle comprises separate, free-living gametophyte and sporophyte stages. Callus is induced from the sporophyte apex through growth on cytokinin-containing tissue culture medium and can be maintained indefinitely by sub-culturing. Transgene DNA is introduced into callus cells through particle bombardment, and stable genomic integration events are selected by regeneration and growth of T0 sporophytes for a period of 8 weeks on medium containing antibiotics. Selection of T1 transgenic progeny is accomplished through screening T1 gametophytes for antibiotic resistance. In many cases sexual reproduction and development of transgenic embryos requires growth and fertilization of gametophytes in the absence of antibiotics, followed by a separate screen for antibiotic resistance in the resultant sporophyte generation. Conclusions: Genetic transformation of C. richardii using this protocol was found to be robust under a broad range of bombardment and recovery conditions. The successful expansion of the selection toolkit to include a second antibiotic for resistance screening (G-418) and different resistance marker promoters increases the scope of transformations possible using this technique and offers the prospect of more complex analysis, for example the creation of lines carrying more than one transgene. The introduction of a robust and practicable transformation technique is a very important milestone in the field of fern biology, and its successful implementation in C. richardii paves the way for adoption of this species as the first fern genetic model. [ABSTRACT FROM AUTHOR]

Published

2015

36. The beta-actin gene promoter of rohu carp (Labeo rohita) drives reporter gene expressions in transgenic rohu and various cell lines, including spermatogonial stem cells.

Author

Barman, Hirak Kumar, Mohanta, Ramya, Patra, Swagat Kumar, Chakrapani, Vemulawada, Panda, Rudra Prasanna, Nayak, Swapnarani, Jena, Sasmita, Jayasankar, Pallipuram, and Nandanpawar, Priyanka

Abstract

We previously characterized the β-actin gene promoter of Indian domesticated rohu carp (Labeo rohita) and made a reporter construct via fusion to green fluorescence protein (GFP) cDNA. In this study, the same construct was used to breed transgenic rohu fish. About 20% of the transgenic offspring showed ubiquitous expression of the reporter GFP gene. In a few of the transgenic fish, we documented massive epithelial and/or muscular expression with visible green color under normal light. The expression of GFP mRNA was higher in the muscle tissue of transgenic fish than in that of non-transgenic fish. A highly efficient nucleofection protocol was optimized to transfect proliferating spermatogonial cells of rohu using this reporter construct. The β-actin promoter also drove expressions in HEK293 (derived from human embryonic kidney cells), K562 (human leukemic cells) and SF21 (insect ovarian cells) lines. These findings imply conserved regulatory mechanisms of β-actin gene expression across eukaryotes. Furthermore, the isolated β-actin promoter with consensus regulatory elements has the potential to be used in generating transgenic carp with genes of interest and in basic biology research. [ABSTRACT FROM AUTHOR]

Published

2015

37. The development and maintenance of the mononuclear phagocyte system of the chick is controlled by signals from the macrophage colony-stimulating factor receptor.

Author

Garceau, Valerie, Balic, Adam, Garcia-Morales, Carla, Sauter, Kristin A., McGrew, Mike J., Smith, Jacqueline, Vervelde, Lonneke, Sherman, Adrian, Fuller, Troy E., Oliphant, Theodore, Shelley, John A., Tiwari, Raksha, Wilson, Thomas L., Chintoan-Uta, Cosmin, Burt, Dave W., Stevens, Mark P., Sang, Helen M., and Hume, David A.

Subjects

*MACROPHAGE colony-stimulating factor, *MACROPHAGES, *COLONY-stimulating factors (Physiology), *CONNECTIVE tissue cells, *BLOOD cells

Abstract

Background: Macrophages have many functions in development and homeostasis as well as innate immunity. Recent studies in mammals suggest that cells arising in the yolk sac give rise to self-renewing macrophage populations that persist in adult tissues. Macrophage proliferation and differentiation is controlled by macrophage colony-stimulating factor (CSF1) and interleukin 34 (IL34), both agonists of the CSF1 receptor (CSF1R). In the current manuscript we describe the origin, function and regulation of macrophages, and the role of CSF1R signaling during embryonic development, using the chick as a model. Results: Based upon RNA-sequencing comparison to bone marrow-derived macrophages grown in CSF1, we show that embryonic macrophages contribute around 2% of the total embryo RNA in day 7 chick embryos, and have similar gene expression profiles to bone marrow-derived macrophages. To explore the origins of embryonic and adult macrophages, we injected Hamburger-Hamilton stage 16 to 17 chick embryos with either yolk sac-derived blood cells, or bone marrow cells from EGFP+ donors. In both cases, the transferred cells gave rise to large numbers of EGFP+ tissue macrophages in the embryo. In the case of the yolk sac, these cells were not retained in hatched birds. Conversely, bone marrow EGFP+ cells gave rise to tissue macrophages in all organs of adult birds, and regenerated CSF1-responsive marrow macrophage progenitors. Surprisingly, they did not contribute to any other hematopoietic lineage. To explore the role of CSF1 further, we injected embryonic or hatchling CSF1R-reporter transgenic birds with a novel chicken CSF1-Fc conjugate. In both cases, the treatment produced a large increase in macrophage numbers in all tissues examined. There were no apparent adverse effects of chicken CSF1-Fc on embryonic or post-hatch development, but there was an unexpected increase in bone density in the treated hatchlings. Conclusions: The data indicate that the yolk sac is not the major source of macrophages in adult birds, and that there is a macrophage-restricted, self-renewing progenitor cell in bone marrow. CSF1R is demonstrated to be limiting for macrophage development during development in ovo and post-hatch. The chicken provides a novel and tractable model to study the development of the mononuclear phagocyte system and CSF1R signaling. [ABSTRACT FROM AUTHOR]

Published

2015

38. Engineering geminivirus resistance in Jatropha curcus.

Author

Jian Ye, Jing Qu, Hui-Zhu Mao, Zhi-Gang Ma, Binte Rahman, Nur Estya, Chao Bai, Wen Chen, Shu-Ye Jiang, Ramachandran, Srinivasan, and Nam-Hai Chua

Subjects

*JATROPHA, *EUPHORBIACEAE, *NUCLEOTIDES, *BIODIESEL fuels, *HAIRPIN (Genetics), *TRANSGENIC plants

Abstract

Background Jatropha curcus is a good candidate plant for biodiesel production in tropical and subtropical regions. However, J. curcus is susceptible to the geminivirus Indian cassava mosaic virus (ICMV), and frequent viral disease outbreaks severely limit productivity. Therefore the development of J. curcus to carry on durable virus resistance remains crucial and poses a major biotechnological challenge. Results We generated transgenic J. curcus plants expressing a hairpin, double-stranded (ds) RNA with sequences homologous to five key genes of ICMV-Dha strain DNA-A, which silences sequence-related viral genes thereby conferring ICMV resistance. Two rounds of virus inoculation were conducted via vacuum infiltration of ICMV-Dha. The durability and heritability of resistance conferred by the dsRNA was further tested to ascertain that T1 progeny transgenic plants were resistant to the ICMV-SG strain, which shared 94.5% nucleotides identity with the ICMV-Dha strain. Quantitative PCR analysis showed that resistant transgenic lines had no detectable virus. Conclusions In this study we developed transgenic J. curcus plants to include a resistance to prevailing geminiviruses in Asia. These virus-resistant transgenic J. curcus plants can be used in various Jatropha breeding programs. [ABSTRACT FROM AUTHOR]

Published

2014

39. Conditionally induced RAGE expression by proximal airway epithelial cells in transgenic mice causes lung inflammation.

Author

Bodine, B. Garrett, Bennion, Brock G., Leatham, Emma, Jimenez, Felix R., Wright, Alex J., Jergensen, Zac R., Erickson, Connor J., Jones, Cameron M., Johnson, Jeff P., Knapp, Steven M., and Reynolds, Paul R.

Subjects

*ADVANCED glycation end-products, *EPITHELIAL cells, *AIRWAY (Anatomy), *TRANSGENIC mice, *INFLAMMATION, *BRONCHOALVEOLAR lavage, *TUMOR necrosis factors

Abstract

Background: Receptors for advanced glycation end-products (RAGE) are multiligand cell-surface receptors expressed abundantly by distal pulmonary epithelium. Our lab has discovered RAGE-mediated effects in the orchestration of lung inflammation induced by tobacco smoke and environmental pollutants; however, the specific contribution of RAGE to the progression of proximal airway inflammation is still inadequately characterized. Methods and results: We generated a Tet-inducible transgenic mouse that conditionally overexpressed RAGE using the club cell (Clara) secretory protein (CCSP) promoter expressed by club (Clara) cells localized to the proximal airway. RAGE was induced for 40 days from weaning (20 days of age) until sacrifice date at 60 days. Immunohistochemistry, immunoblotting, and qPCR revealed significant RAGE up-regulation when compared to non-transgenic controls; however, H&E staining revealed no detectible morphological abnormalities and apoptosis was not enhanced during the 40 days of augmentation. Freshly procured bronchoalveolar lavage fluid (BALF) from CCSP-RAGE TG mice had significantly more total leukocytes and PMNs compared to age-matched control littermates. Furthermore, CCSP-RAGE TG mice expressed significantly more tumor necrosis factor alpha (TNF-α), interleukin 7 (IL-7), and interleukin 14 (IL-14) in whole lung homogenates compared to controls. Conclusions: These data support the concept that RAGE up-regulation specifically in lung airways may function in the progression of proximal airway inflammation. [ABSTRACT FROM AUTHOR]

Published

2014

40. In vivo fate mapping of cryopreserved murine ovarian grafts.

Author

Chi-Huang Chen, Shun-Jen Tan, and Chii-Ruey Tzeng

Subjects

*OVARIAN cancer treatment, *OVARIAN cancer diagnosis, *CRYOPRESERVATION of organs, tissues, etc., *CANCER chemotherapy, OVARIAN cancer patients

Abstract

Background Cryopreservation of ovarian tissue has been suggested as an alternative to restore fertility for ovarian failure before chemotherapy. Methods Ovaries of donor FVB/N-Tg (PolII-Luc) Ltc transgenic mice (n = 5) were cryopreserved and transplanted to the back muscles of recipient FVB/NJNarl wild-type mice that had undergone bilateral oophorectomy. We evaluated the fate of cryopreserved murine ovarian grafts by in vivo bioluminescent imaging (BLI), AMH mRNA expression and follicle counts. Results There were significantly stronger BLI signals in the fresh ovaries than in the frozen-thawed ones. The number of primordial follicles was significantly lower in frozen-thawed ovaries at 10 days after transplantation (P < 0.001). The AMH mRNA expression was significantly lower in the frozen-thawed ovaries (P < 0.001), showing that unavoidable harm occurs after transplantation. Conclusions Ovarian cryopreservation by slow freezing compromises ovarian reserve by cryoinjury and ischemia, evident at an early stage after transplantation. [ABSTRACT FROM AUTHOR]

Published

2014

41. Early-flowering sweet orange mutant ‘x11’ as a model for functional genomic studies of Citrus.

Author

Tessutti Pinheiro, Thaísa, Figueira, Antonio, and Rocha Latado, Rodrigo

Abstract

Background: There had been many reports on genetic transformation of Citrus for functional genomic studies but few included genes associated with flower or fruit traits. A major reason for this might derive from the extensive juvenile stage of Citrus plants when regenerated from juvenile explants (epicotyls, cotyledon or calli), which delays the observation of the resulting phenotype. Alternatives include the use of explants from adult tissues, which sometimes may be recalcitrant to regeneration or transformation, or of early-flowering genotypes. However, there is no report about the use of early-flowering sweet orange mutants for functional genomic studies. Results: Here, we propose a sweet orange spontaneous early-flowering mutant, named ‘x11’, as a platform for Citrus functional genomic studies, particularly for genes associated with flower or fruit traits. We report a procedure for efficient regeneration and transformation using epicotyl segment explants of ‘x11’ and Agrobacterium tumefaciens as a proof-of-concept. The average transformation efficiency was 18.6%, but reached 29.6% in the best protocol tested. Among 270 positive shoots, five were in vitro micrografted and acclimatized, followed by evaluation of transgene expression by quantitative amplification of reversed transcripts (RT-qPCR) and determination of the number of copies inserted. Four of these plants, containing from one to four copies of the transgene, exhibited the first flowers within three months after ex vitro establishment, and the other, two months later, regardless of the period of the year. Flowers of transgenic plants displayed fertile pollen and gynoecium, with self-pollination inducing fruit development with seeds. Histochemical staining for β-glucuronidase activity using stem segments, flowers and fruits from 5 to 7 month-old acclimatized transgenic plants confirmed the constitutive transgene expression in these organs. Conclusion: The ‘x11’ sweet orange is suitable for functional genomics studies with a satisfactory transformation rate, and it can be considered a good model for functional genomic studies in commercial sweet oranges, for traits related to flower and fruit. [ABSTRACT FROM AUTHOR]

Published

2014

42. The Jatropha FT ortholog is a systemic signal regulating growth and flowering time.

Author

Jian Ye, Yunfeng Geng, Bipei Zhang, Huizhu Mao, Jing Qu, and Nam-Hai Chua

Subjects

*JATROPHA, *BIOMASS energy, *RENEWABLE energy sources, *ALTERNATIVE fuels, *ARABIDOPSIS

Abstract

Background Jatropha curcas is being promoted as a new bioenergy crop in tropical and subtropical regions due to its high amount of seed oil and its potential capacity to grow on marginal land for biofuel production. However, the productivity of the plant is constrained by the unfavorable flowering time and inflorescence architecture, which render harvesting of seeds time-consuming and labor-intensive. These flowering-related traits have limited further widespread cultivation of Jatropha. Results We identified a Jatropha curcas homolog of Flowering locus T (JcFT) and demonstrated its function by genetic complementation of the Arabidopsis ft mutant. The JcFT expression level was found to be remarkably correlated with leaf age. Overexpression of JcFT in Jatropha reduced flowering time and altered plant architecture by producing more branches. Grafting experiments suggested that the earlyflowering and alteration of plant architecture traits were graft-transmissible. We also showed that the FT-overexpressing transgenic Jatropha can be used as a root stock for grafting of scions derived from other Jatropha. Conclusion We generated early flowering transgenic Jatropha plants that accumulate higher levels of the florigen FT. Not only early flowering but also plant growth was affected in JcFT overexpression lines. More seeds can be produced in a shorter time frame by shortening the flowering time in Jatropha, suggesting the possibility to increase seed yield by manipulating the flowering time. [ABSTRACT FROM AUTHOR]

Published

2014

43. Consolidated bioprocessing of transgenic switchgrass by an engineered and evolved Clostridium thermocellum strain.

Author

Yee, Kelsey L., Rodriguez Jr., Miguel, Thompson, Olivia A., Chunxiang Fu, Zeng-Yu Wang, Davison, Brian H., and Mielenz, Jonathan R.

Subjects

*CLOSTRIDIUM thermocellum, *SWITCHGRASS, *BIOMASS energy, *CAFFEIC acid, *FERMENTATION, *METABOLITES, *FEEDSTOCK

Abstract

Background Switchgrass is an abundant and dedicated bioenergy feedstock, however its inherent recalcitrance is one of the economic hurdles for producing biofuels. The downregulation of the caffeic acid O-methyl transferase (COMT) gene in the lignin pathway of switchgrass reduced lignin content and S/G ratio, and the transgenic lines showed improved fermentation yield with Saccharomyces cerevisiae and wild-type Clostridium thermocellum (ATCC 27405) in comparison to the wild-type switchgrass. Results Here we examine the conversion and yield of the COMT transgenic and wild-type switchgrass lines with an engineered and evolved C. thermocellum (M1570) strain. The fermentation of the transgenic switchgrass by M1570 had superior conversion relative to the wild-type control switchgrass line with an increase in conversion of approximately 20% and ethanol being the primary product accounting for 90% of the total metabolites measured by HPLC analysis. Conclusions The engineered and evolved C. thermocellum M1570 was found to respond to the apparent reduced recalcitrance of the COMT switchgrass with no substrate inhibition, producing more ethanol on the transgenic feedstock than the wild-type substrate. Since ethanol was the main fermentation metabolite produced by an engineered and evolved C. thermocellum strain, its ethanol yield on a transgenic switchgrass substrate (gram/gram (g/g) glucan liberated) is the highest produced thus far. This result indicates that the advantages of a modified feedstock can be combined with a modified consolidated bioprocessing microorganism as anticipated. [ABSTRACT FROM AUTHOR]

Published

2014

44. Elongated TCR alpha chain CDR3 favors an altered CD4 cytokine profile.

Author

Reynolds, Catherine, Chong, Deborah, Raynsford, Eleanor, Quigley, Kathryn, Kelly, Deborah, Llewellyn-Hughes, Julia, Altmann, Daniel, and Boyton, Rosemary

Subjects

*LYMPHOCYTE transformation, *T cell receptors, *CYTOKINES, *IMMUNE response, *CLONAL selection theory, *AMINO acids

Abstract

Background CD4 T lymphocyte activation requires T cell receptor (TCR) engagement by peptide/MHC(pMHC). The TCR complementarity-determining regions 3 (CDR3) contain variable α and β loops critical for pMHC recognition. During any immune response, tuning of TCR usage through progressive clonal selection occurs. Th1 and Th2 cells operate at different avidities for activation and display distinct transcriptional programs, although polarization may be plastic, influenced by pathogens and cytokines. We therefore hypothesized that CDR3αβ sequence features may intrinsically influence CD4 phenotype during progression of a response. Results We show that CD4 polarization involves distinct CDR3α usage: Th1 and Th17 cells favored short TCR CDR3α sequences of 12 and 11 amino acids respectively, while Th2 cells favored elongated CDR3α loops of 14 amino acids, with lower predicted affinity. The dominant Th2 and Th1 derived TCRα sequences with14 amino acid CDR3 loop and 12 amino acid CDR3 loop respectively were expressed in TCR transgenics. The functional impact of these TCRα transgenes was assessed after in vivo priming with peptide/adjuvant. The short, Th1-derived receptor transgenic T cell lines, made IFNγ, but no IL-4, 5 or 13 while the elongated, Th2-derived receptor transgenic T cell lines made little or no IFNγ, but increasing IL-4, 5 and 13 with progressive restimulations, mirrored by GATA-3 up-regulation. T cells from primed Th2 TCRα transgenics selected dominant TCR Vβ expansions, allowing us to generate TCRαβ transgenics carrying the favored, Th2-derived receptor heterodimer. Primed T cells from TCRαβ transgenics made little or no IL-17 or IFNγ, but favored IL-9 after priming with Complete Freund's adjuvant and IL-4, 5, 9, 10 and 13 after priming with incomplete Freund's. In tetramer-binding studies, this transgenic receptor showed low binding avidity for pMHC and polarized T cell lines show TCR avidity of Th17 > Th1 > Th2. While transgenic expression of a Th2-derived, 'elongated' TCR-CDR3α and the TCRαβ pair, clearly generated a program shifted away from Th1 immunity and with low binding avidity, cytokine-skewing could be over-ridden by altering peptide challenge dose. Conclusion We propose that selection from responding clones with distinctive TCRs on the basis of functional avidity can direct a preference away from Th1 effector responses, favoring Th2 cytokines. [ABSTRACT FROM AUTHOR]

Published

2014

45. Novel transcripts from a distinct promoter that encode the full-length AKT1 in human breast cancer cells.

Author

Schmidt, Jeffrey W., Wehde, Barbara L., Kazuhito Sakamoto, Triplett, Aleata A., West, William W., and Wagner, Kay-Uwe

Subjects

*GENETIC transcription, *PROMOTERS (Genetics), *PROTEIN kinase B, *BREAST cancer, *CANCER invasiveness, *SERINE/THREONINE kinases, *GENE expression

Abstract

Background: The serine-threonine kinase AKT1 plays essential roles during normal mammary gland development as well as the initiation and progression of breast cancer. AKT1 is generally considered a ubiquitously expressed gene, and its persistent activation is transcriptionally controlled by regulatory elements characteristic of housekeeping gene promoters. We recently identified a novel Akt1 transcript in mice (Akt1m), which is induced by growth factors and their signal transducers of transcription from a previously unknown promoter. The purpose of this study was to examine whether normal and neoplastic human breast epithelial cells express an orthologous AKT1m transcript and whether its expression is deregulated in cancer cells. Methods: Initial sequence analyses were performed using the UCSC Genome Browser and GenBank to assess the potential occurrence of an AKT1m transcript variant in human cells and to identify conserved promoter sequences that are orthologous to the murine Akt1m. Quantitative RT-PCR was used to determine the transcriptional activation of AKT1m in mouse mammary tumors as well as 41 normal and neoplastic human breast epithelial cell lines and selected primary breast cancers. Results: We identified four new AKT1 transcript variants in human breast cancer cells that are orthologous to the murine Akt1m and that encode the full-length kinase. These transcripts originate from an alternative promoter that is conserved between humans and mice. Akt1m is upregulated in the majority of luminal-type and basal-type mammary cancers in four different genetically engineered mouse models. Similarly, a subset of human breast cancer cell lines and primary breast cancers exhibited a higher expression of orthologous AKT1m transcripts. Conclusions: The existence of an alternative promoter that drives the expression of the unique AKT1m transcript may provide a mechanism by which the levels of AKT1 can be temporally and spatially regulated at particular physiological states, such as cancer, where a heightened activity of this kinase is required. [ABSTRACT FROM AUTHOR]

Published

2014

46. Discovery of transgene insertion sites by high throughput sequencing of mate pair libraries.

Author

Srivastava, Anuj, Philip, Vivek M., Greenstein, Ian, Rowe, Lucy B., Barter, Mary, Lutz, Cathleen, and Reinholdt, Laura G.

Subjects

*TRANSGENE expression, *GENE expression, *GENETIC regulation, *NUCLEOTIDE sequence, *NUCLEOTIDE analysis

Abstract

Background Transgenesis by random integration of a transgene into the genome of a zygote has become a reliable and powerful method for the creation of new mouse strains that express exogenous genes, including human disease genes, tissue specific reporter genes or genes that allow for tissue specific recombination. Nearly 6,500 transgenic alleles have been created by random integration in embryos over the last 30 years, but for the vast majority of these strains, the transgene insertion sites remain uncharacterized. Results To obtain a complete understanding of how insertion sites might contribute to phenotypic outcomes, to more cost effectively manage transgenic strains, and to fully understand mechanisms of instability in transgene expression, we've developed methodology and a scoring scheme for transgene insertion site discovery using high throughput sequencing data. Conclusions Similar to other molecular approaches to transgene insertion site discovery, high-throughput sequencing of standard paired-end libraries is hindered by low signal to noise ratios. This problem is exacerbated when the transgene consists of sequences that are also present in the host genome. We've found that high throughput sequencing data from mate-pair libraries are more informative when compared to data from standard paired end libraries. We also show examples of the genomic regions that harbor transgenes, which have in common a preponderance of repetitive sequences. [ABSTRACT FROM AUTHOR]

Published

2014

47. Genetic control of Aedes aegypti: data-driven modelling to assess the effect of releasing different life stages and the potential for long-term suppression.

Author

Winskill, Peter, Harris, Angela F., Morgan, Siân A., Stevenson, Jessica, Raduan, Norzahira, Alphey, Luke, McKemey, Andrew R., and Donnelly, Christl A.

Subjects

*AEDES aegypti, *MOSQUITOES, *VACCINATION, *INSECT genetics, *PUBLIC health

Abstract

Background Control of the world's most important vector-borne viral disease, dengue, is a high priority. A lack of vaccines or effective vector control methods means that novel solutions to disease control are essential. The release of male insects carrying a dominant lethal (RIDL) is one such approach that could be employed to control Aedes aegypti. To maximise the potential of RIDL control, optimum release strategies for transgenic mosquitoes are needed. The use of field data to parameterise models allowing comparisons of the release of different life-stages is presented together with recommendations for effective long-term suppression of a wild Ae. aegypti population. Methods A compartmental, deterministic model was designed and fitted to data from large-scale pupal mark release recapture (MRR) field experiments to determine the dynamics of a pupal release. Pulsed releases of adults, pupae or a combination of the two were simulated. The relative ability of different release methods to suppress a simulated wild population was examined and methods to maintain long-term suppression of a population explored. Results The pupal model produced a good fit to field data from pupal MRR experiments. Simulations using this model indicated that adult-only releases outperform pupal-only or combined releases when releases are frequent. When releases were less frequent pupal-only or combined releases were a more effective method of distributing the insects. The rate at which pupae eclose and emerge from release devices had a large influence on the relative efficacy of pupal releases. The combined release approach allows long-term suppression to be maintained with smaller low-frequency releases than adult- or pupal-only release methods. Conclusions Maximising the public health benefits of RIDL-based vector control will involve optimising all stages of the control programme. The release strategy can profoundly affect the outcome of a control effort. Adult-only, pupal-only and combined releases all have relative advantages in certain situations. This study successfully integrates field data with mathematical models to provide insight into which release strategies are best suited to different scenarios. Recommendations on effective approaches to achieve long-term suppression of a wild population using combined releases of adults and pupae are provided. [ABSTRACT FROM AUTHOR]

Published

2014

48. Behavioral and neural network abnormalities in human APP transgenic mice resemble those of App knock-in mice and are modulated by familial Alzheimer’s disease mutations but not by inhibition of BACE1

Author

Jorge J. Palop, Biljana Djukic, Pascal E. Sanchez, Jeanne T. Paz, Kaitlyn Ho, Xinxing Yu, Lennart Mucke, Michael Gill, Weiping Zhang, Isabel Lopez, Erik C. B. Johnson, Gui-Qiu Yu, and Melanie Das

Subjects

0301 basic medicine, Aging, App NL-G-F, Knock-in, Neurodegenerative, lcsh:Geriatrics, Hippocampal formation, Inbred C57BL, Transgenic, lcsh:RC346-429, Pathogenesis, I5, Mice, Amyloid beta-Protein Precursor, 0302 clinical medicine, Amyloid precursor protein, Aspartic Acid Endopeptidases, 2.1 Biological and endogenous factors, Gene Knock-In Techniques, Aetiology, Behavior, Animal, biology, Brain, Alzheimer's disease, Cell biology, Neurological, Alzheimer’s disease, APP-KI, Research Article, Genetically modified mouse, Amyloid, Inhibitor, C-Fos, Transgene, Clinical Sciences, Mice, Transgenic, Learning and memory, 03 medical and health sciences, Cellular and Molecular Neuroscience, SWD, Alzheimer Disease, Gene knockin, mental disorders, Acquired Cognitive Impairment, Genetics, Animals, Humans, BACE, Molecular Biology, lcsh:Neurology. Diseases of the nervous system, Epileptiform, Behavior, Neurology & Neurosurgery, Calbindin, Epilepsy, Animal, AppNL-G-F, Wild type, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Molecular medicine, Brain Disorders, Mice, Inbred C57BL, Disease Models, Animal, lcsh:RC952-954.6, 030104 developmental biology, App(NL-G-F), Oligomers, Disease Models, Mutation, biology.protein, Dementia, Neurology (clinical), Nerve Net, Amyloid Precursor Protein Secretases, J20, APP, 030217 neurology & neurosurgery

Abstract

Background Alzheimer’s disease (AD) is the most frequent and costly neurodegenerative disorder. Although diverse lines of evidence suggest that the amyloid precursor protein (APP) is involved in its causation, the precise mechanisms remain unknown and no treatments are available to prevent or halt the disease. A favorite hypothesis has been that APP contributes to AD pathogenesis through the cerebral accumulation of the amyloid-β peptide (Aβ), which is derived from APP through sequential proteolytic cleavage by BACE1 and γ-secretase. However, inhibitors of these enzymes have failed in clinical trials despite clear evidence for target engagement. Methods To further elucidate the roles of APP and its metabolites in AD pathogenesis, we analyzed transgenic mice overexpressing wildtype human APP (hAPP) or hAPP carrying mutations that cause autosomal dominant familial AD (FAD), as well as App knock-in mice that do not overexpress hAPP but have two mouse App alleles with FAD mutations and a humanized Aβ sequence. Results Although these lines of mice had marked differences in cortical and hippocampal levels of APP, APP C-terminal fragments, soluble Aβ, Aβ oligomers and age-dependent amyloid deposition, they all developed cognitive deficits as well as non-convulsive epileptiform activity, a type of network dysfunction that also occurs in a substantive proportion of humans with AD. Pharmacological inhibition of BACE1 effectively reduced levels of amyloidogenic APP C-terminal fragments (C99), soluble Aβ, Aβ oligomers, and amyloid deposits in transgenic mice expressing FAD-mutant hAPP, but did not improve their network dysfunction and behavioral abnormalities, even when initiated at early stages before amyloid deposits were detectable. Conclusions hAPP transgenic and App knock-in mice develop similar pathophysiological alterations. APP and its metabolites contribute to AD-related functional alterations through complex combinatorial mechanisms that may be difficult to block with BACE inhibitors and, possibly, also with other anti-Aβ treatments.

Published

2020

49. LcMYB4, an unknown function transcription factor gene from sheepgrass, as a positive regulator of chilling and freezing tolerance in transgenic Arabidopsis

Author

Pincang Zhao, Dongmei Qi, Xiufang Guo, Gongshe Liu, Shuangyan Chen, Xiaoxia Li, Junting Jia, and Liqin Cheng

Subjects

Freezing tolerance, Transgene, Arabidopsis, Germination, Plant Science, Genetically modified crops, Genes, Plant, Poaceae, Transgenic, MYB transcriptional factor, Chilling stress, lcsh:Botany, Gene expression, Freezing, MYB, Cloning, Molecular, Gene, Transcription factor, Phylogeny, Plant Proteins, biology, Cold-Shock Response, fungi, Sheepgrass, food and beverages, biology.organism_classification, Plants, Genetically Modified, Cell biology, lcsh:QK1-989, Transcription Factor Gene, Sequence Alignment, Research Article, Transcription Factors

Abstract

Background Sheepgrass (Leymus chinensis (Trin.) Tzvel) is a perennial forage grass that can survive extreme freezing winters (− 47.5 °C) in China. In this study, we isolated an unknown function MYB transcription factor gene, LcMYB4, from sheepgrass. However, the function of LcMYB4 and its homologous genes has not been studied in other plants. Results The expression of the LcMYB4 gene was upregulated in response to cold induction, and the LcMYB4 fusion protein was localized in the nucleus, with transcriptional activation activity. Biological function analysis showed that compared with WT plants, LcMYB4-overexpressing Arabidopsis presented significantly increased chilling and freezing tolerance as evidenced by increased germination rate, survival rate, and seed setting rate under conditions of low temperature stress. Furthermore, LcMYB4-overexpressing plants showed increased soluble sugar content, leaf chlorophyll content and superoxide dismutase activity but decreased malondialdehyde (MDA) under chilling stress. Moreover, the expression of the CBF1, KIN1, KIN2 and RCI2A genes were significantly upregulated in transgenic plants with chilling treatment. These results suggest that LcMYB4 overexpression increased the soluble sugar content and cold-inducible gene expression and alleviated oxidative damage and membrane damage, resulting in enhanced cold resistance in transgenic plants. Interestingly, our results showed that the LcMYB4 protein interacts with fructose-1,6-bisphosphate aldolase protein1 (LcFBA1) and that the expression of the LcFBA1 gene was also upregulated during cold induction in sheepgrass, similar to LcMYB4. Conclusion Our findings suggest that LcMYB4 encodes MYB transcription factor that plays a positive regulatory role in cold stress.

Published

2020

50. Various effects of the expression of the xyloglucanase gene from Penicillium canescens in transgenic aspen under semi-natural conditions

Author

Elena O. Vidyagina, Natalia M. Subbotina, Vladimir A. Belyi, Vadim G. Lebedev, Konstantin V. Krutovsky, and Konstantin A. Shestibratov

Subjects

2. Zero hunger, lcsh:Botany, Aspen, Xyloglucanase, Penicillium canescens, Populus tremula, Transgenic, Gene expression level, lcsh:QK1-989

Abstract

Background: Recombinant carbohydrases genes are used to produce transgenic woody plants with improved phenotypic traits. However, cultivation of such plants in open field is challenging due to by a number of problems. Therefore, additional research is needed to alleviate them. Results: Results of successful cultivation of the transgenic aspens ( Populus tremula ) carrying the recombinant xyloglucanase gene ( sp-Xeg ) from Penicillium canescens in semi-natural conditions are reported in this paper for the first time. Change of carbohydrate composition of wood was observed in transgenic aspens carrying the sp-Xeg gene. The transformed transgenic line Xeg-2-1b demonstrated accelerated growth and increased content of cellulose in wood of trees growing in both greenhouse and outside in comparison with the control untransformed line Pt. The accelerated growth was observed also in the transgenic line Xeg-1-1c. Thicker cell-wall and longer xylem fiber were also observed in both these transgenic lines. Undescribed earlier considerable reduction in the wood decomposition rate of the transgenic aspen stems was also revealed for the transformed transgenic lines. The decomposition rate was approximately twice as lower for the transgenic line Xeg-2-3b in comparison with the control untransformed line Pt. Conclusion: A direct dependence of the phenotypic and biochemical traits on the expression of the recombinant gene sp-Xeg was demonstrated. The higher was the level of the sp-Xeg gene expression, the more markedly were changes in the phenotypic and biochemical traits. All lines showed phenotypic changes in the leave traits. Our results showed that the plants carrying the recombinant sp-Xeg gene do not demonstrate a decrease in growth parameters in semi-natural conditions. In some transgenic lines, a change in the carbohydrate composition of the wood, an increase in the cell wall thickness and a decrease in the rate of decomposition of wood were observed.

Published

2020