Your search keyword '"Yuhe Sun"' showing total 29 results

1. Exploring the potential role of EPSPS mutations for enhanced glyphosate resistance in Nicotiana tabacum

Author

Bingjie Li, Chen Chen, Mengmeng Cui, Yuhe Sun, Jing Lv, and Changbo Dai

Subjects

glyphosate, herbicide resistance, EPSP synthase, tobacco, gene editing, Plant culture, SB1-1110

Abstract

Glyphosate is a widely used non-selective, broad-spectrum, systemic herbicide by interfering with the biosynthesis of aromatic amino acids. However, the emergence of glyphosate-resistant weeds has driven the need for enhanced herbicide resistance in crops. In this study, we engineered two mutant variants of the tobacco EPSPS gene through amino acid substitution (TIPS-NtEPSPS and P180S-NtEPSPS). These mutated EPSPS genes were overexpressed in tobacco under the control of CaMV35S promoters. Our results demonstrate that overexpression of TIPS-NtEPSPS significantly enhances glyphosate tolerance, allowing plants to withstand up to four times the recommended dose without compromising their fitness. This research highlights the potential of the TIPS-NtEPSPS mutant to improve herbicide resistance in tobacco, offering a viable approach for effective weed management.

Published

2025

2. The fate of immune complexes in membranous nephropathy

Author

Jie Xu, Haikun Hu, Yuhe Sun, Zihan Zhao, Danyuan Zhang, Lei Yang, and Qingyi Lu

Subjects

membranous nephropathy, PLA2R1, THSD7A, immune complexes, autoantibody, complement, Immunologic diseases. Allergy, RC581-607

Abstract

The most characteristic feature of membranous nephropathy (MN) is the presence of subepithelial electron dense deposits and the consequential thickening of the glomerular basement membrane. There have been great advances in the understanding of the destiny of immune complexes in MN by the benefit of experimental models represented by Heymann nephritis. Subepithelial immune complexes are formed in situ by autoantibodies targeting native autoantigens or exogenous planted antigens such as the phospholipase A2 receptor (PLA2R) and cationic BSA respectively. The nascent immune complexes would not be pathogenic until they develop into immune deposits. Podocytes are the major source of autoantigens in idiopathic membranous nephropathy. They also participate in the modulation and removal of the immune complexes to a large extent. The balance between deposition and clearance is regulated by a wide range of factors such as the composition and physicochemical properties of the immune complexes and the complement system. Complement components such as C3 and C1q have been reported to be precipitated with the deposits whereas a complement regulatory protein CR1 expressed by podocytes is involved in the phagocytosis of immune complexes by podocytes. Podocytes regulate the dynamic change of immune complexes which is disturbed in membranous nephropathy. To elucidate the precise fate of the immune complexes is essential for developing more rational and novel therapies for membranous nephropathy.

Published

2024

3. Transcriptomic Change in the Effects of Dichloroquinolinic Acid on the Development and Growth of Nicotiana tabacum

Author

Bingjie Li, Anming Ding, Weifeng Wang, Mengmeng Cui, Yuhe Sun, Jing Lv, and Changbo Dai

Subjects

dichloroquinolinic acid, transcriptome, hormone-type herbicide, herbicide resistance, gene editing, Agriculture

Abstract

Dichloroquinolinic acid is a hormone-type herbicide widely used to control barnyard grass during crop cultivation. However, it can seriously inhibit the growth of susceptible crops, including tobacco, because it degrades slowly under field conditions. Additionally, the mechanism by which it damages crops is unclear. More specifically, the transcriptional changes in plants induced by dichloroquinolinic acid remain unknown. In this study, differentially expressed genes (DEGs) in tobacco treated with dichloroquinolinic acid (varying concentrations and durations) were analyzed and validated to explore the global transcriptome changes. The number of DEGs, which were determined according to the FPKM, varied from 758 to 21,340. The KEGG analysis revealed that many DEGs were involved in starch and sucrose metabolism, phenylpropanoid biosynthesis, photosynthesis, porphyrin and chlorophyll metabolism, and glutathione metabolism. Transcriptomic analyses indicated that dichloroquinolinic acid can inhibit tobacco growth by inhibiting photosynthesis and storage of energy. We discovered that the toxicity mechanism of the hormone herbicide dichloroquinolinic acid differs from that of high concentrations of IAA (Indoleacetic acid), despite studies confirming that the effects of hormone herbicides are consistent with the physiological disturbances and growth inhibition exhibited by plants in IAA overdose. Particularly, dichloroquinolinic acid suppresses photosynthesis while high concentration IAA stimulates nucleotide synthesis and photosynthesis. More importantly, we found by editing the IAA-responsive gene IAA16, tobacco could develop resistance to dichloroquinolinic acid. The results will help clarify plant responses to hormone-type herbicides at the transcriptional level, thereby providing insights into the diversity in the gene’s response to herbicides, the molecular targets of hormone-type herbicides, and the mechanism underlying the susceptibility of tobacco to dichloroquinolinic acid. Accordingly, this study may be helpful for future research to enhance crop resistance to herbicides residues.

Published

2024

4. Analysis of rhizosphere bacterial communities of tobacco resistant and non-resistant to bacterial wilt in different regions

Author

Haoqi Shi, Peiwen Xu, Shengxin Wu, Wen Yu, Yazhi Cheng, Zhihua Chen, Xingyou Yang, Xiangwen Yu, Bingjie Li, Anming Ding, Weifeng Wang, and Yuhe Sun

Subjects

Medicine, Science

Abstract

Abstract Tobacco bacterial wilt has seriously affected tobacco production. Ethyl methanesulfonate (EMS) induced tobacco bacterial wilt resistant mutants are important for the control of tobacco bacterial wilt. High-throughput sequencing technology was used to study the rhizosphere bacterial community assemblages of bacterial wilt resistant mutant tobacco rhizosphere soil (namely KS), bacterial wilt susceptible tobacco rhizosphere soil (namely GS) and bulk soil (namely BS) in Xuancheng, Huanxi, Yibin and Luzhou. Alpha analysis showed that the bacterial community diversity and richness of KS and GS in the four regions were not significantly different. However, analysis of intergroup variation in the top 15 bacterial communities in terms of abundance showed that the bacterial communities of KS and GS were significantly different from BS, respectively. In addition, pH, alkali-hydrolysable nitrogen (AN) and soil organic carbon (SOC) were positively correlated with the bacterial community of KS and negatively correlated with GS in the other three regions except Huanxi. Network analysis showed that the three soils in the four regions did not show a consistent pattern of network complexity. PICRUSt functional prediction analysis showed that the COG functions were similar in all samples. All colonies were involved in RNA processing and modification, chromatin structure and dynamics, etc. In conclusion, our experiments showed that rhizosphere bacterial communities of tobacco in different regions have different compositional patterns, which are strongly related to soil factors.

Published

2022

5. Induced defense strategies of plants against Ralstonia solanacearum

Author

Haoqi Shi, Yong Liu, Anming Ding, Weifeng Wang, and Yuhe Sun

Subjects

Ralstoniasolanacearum, cell wall, PTI, ETI, cell wall integrity, structural defense, Microbiology, QR1-502

Abstract

Plants respond to Ralstonia solanacearum infestation through two layers of immune system (PTI and ETI). This process involves the production of plant-induced resistance. Strategies for inducing resistance in plants include the formation of tyloses, gels, and callose and changes in the content of cell wall components such as cellulose, hemicellulose, pectin, lignin, and suberin in response to pathogen infestation. When R. solanacearum secrete cell wall degrading enzymes, plants also sense the status of cell wall fragments through the cell wall integrity (CWI) system, which activates deep-seated defense responses. In addition, plants also fight against R. solanacearum infestation by regulating the distribution of metabolic networks to increase the production of resistant metabolites and reduce the production of metabolites that are easily exploited by R. solanacearum. We review the strategies used by plants to induce resistance in response to R. solanacearum infestation. In particular, we highlight the importance of plant-induced physical and chemical defenses as well as cell wall defenses in the fight against R. solanacearum.

Published

2023

6. Genome-wide identification of MAXs genes for strigolactones synthesis/signaling in solanaceous plants and analysis of their potential functions in tobacco

Author

Lixianqiu Wang, Bingjie Li, Changbo Dai, Anming Ding, Weifeng Wang, Haoqi Shi, Mengmeng Cui, Yuhe Sun, and Jing Lv

Subjects

Strigolactone biosynthesis, Strigolactone signal transduction, Cis-elements, MAXs gene family, Shoot development, Abiotic stress, Medicine, Biology (General), QH301-705.5

Abstract

The more axillary growth (MAX) gene family is a group of key genes involved in the synthesis and signal transduction of strigolactones (SLs) in plants. Although MAX genes play vital roles in plant growth and development, characterization of the MAX gene family has been limited in solanaceous crops, especially in tobacco. In this study, 74 members of the MAX family were identified in representative Solanaceae crops and classified into four groups. The physicochemical properties, gene structure, conserved protein structural domains, cis-acting elements, and expression patterns could be clearly distinguished between the biosynthetic and signal transduction subfamilies; furthermore, MAX genes in tobacco were found to be actively involved in the regulation of meristem development by responding to hormones. MAX genes involved in SL biosynthesis were more responsive to abiotic stresses than genes involved in SL signaling. Tobacco MAX genes may play an active role in stress resistance. The results of this study provide a basis for future in-depth analysis of the molecular mechanisms of MAX genes in tobacco meristem development and stress resistance.

Published

2023

7. MG2C: a user-friendly online tool for drawing genetic maps

Author

Jiangtao Chao, Zhiyuan Li, Yuhe Sun, Oluwaseun Olayemi Aluko, Xinru Wu, Qian Wang, and Guanshan Liu

Subjects

Genetic map, Online tool, Perl, MG2C, Plant culture, SB1-1110, Botany, QK1-989

Abstract

Abstract Genetic map is a linear arrangement of the relative positions of sites in the chromosome or genome based on the recombination frequency between genetic markers. It is the important basis for genetic analysis. Several kinds of software have been designed for genetic mapping, but all these tools require users to write or edit code, making it time-costing and difficult for researchers without programming skills to handle with. Here, MG2C, a new online tool was designed, based on PERL and SVG languages. Users can get a standard genetic map, only by providing the location of genes (or quantitative trait loci) and the length of the chromosome, without writing additional code. The operation interface of MG2C contains three sections: data input, data output and parameters. There are 33 attribute parameters in MG2C, which are further divided into 8 modules. Values of the parameters can be changed according to the users’ requirements. The information submitted by users will be transformed into the genetic map in SVG file, which can be further modified by other image processing tools. MG2C is a user-friendly and time-saving online tool for drawing genetic maps, especially for those without programming skills. The tool has been running smoothly since 2015, and updated to version 2.1. It significantly lowers the technical barriers for the users, and provides great convenience for the researchers.

Published

2021

8. Metamorphic Testing of Relation Extraction Models

Author

Yuhe Sun, Zuohua Ding, Hongyun Huang, Senhao Zou, and Mingyue Jiang

Subjects

relation extraction, metamorphic testing, metamorphic relation, quality evaluation, testing and validation, Industrial engineering. Management engineering, T55.4-60.8, Electronic computers. Computer science, QA75.5-76.95

Abstract

Relation extraction (RE) is a fundamental NLP task that aims to identify relations between some entities regarding a given text. RE forms the basis for many advanced NLP tasks, such as question answering and text summarization, and thus its quality is critical to the relevant downstream applications. However, evaluating the quality of RE models is non-trivial. On the one hand, obtaining ground truth labels for individual test inputs is tedious and even difficult. On the other hand, there is an increasing need to understand the characteristics of RE models in terms of various aspects. To mitigate these issues, this study proposes evaluating RE models by applying metamorphic testing (MT). A total of eight metamorphic relations (MRs) are identified based on three categories of transformation operations, namely replacement, swap, and combination. These MRs encode some expected properties of different aspects of RE. We further apply MT to three popular RE models. Our experiments reveal a large number of prediction failures in the subject RE models, confirming that MT is effective for evaluating RE models. Further analysis of the experimental results reveals the advantages and disadvantages of our subject models and also uncovers some typical issues of RE models.

Published

2023

9. Overexpression of NtCBL5A Leads to Necrotic Lesions by Enhancing Na+ Sensitivity of Tobacco Leaves Under Salt Stress

Author

Jingjing Mao, Jiaping Yuan, Zhijie Mo, Lulu An, Sujuan Shi, Richard G. F. Visser, Yuling Bai, Yuhe Sun, Guanshan Liu, Haobao Liu, Qian Wang, and C. Gerard van der Linden

Subjects

CBL PROTEIN, Na+, immune response, necrotic lesions, photosystem, reactive oxygen species, Plant culture, SB1-1110

Abstract

Many tobacco (Nicotiana tabacum) cultivars are salt-tolerant and thus are potential model plants to study the mechanisms of salt stress tolerance. The CALCINEURIN B-LIKE PROTEIN (CBL) is a vital family of plant calcium sensor proteins that can transmit Ca2+ signals triggered by environmental stimuli including salt stress. Therefore, assessing the potential of NtCBL for genetic improvement of salt stress is valuable. In our studies on NtCBL members, constitutive overexpression of NtCBL5A was found to cause salt supersensitivity with necrotic lesions on leaves. NtCBL5A-overexpressing (OE) leaves tended to curl and accumulated high levels of reactive oxygen species (ROS) under salt stress. The supersensitivity of NtCBL5A-OE leaves was specifically induced by Na+, but not by Cl−, osmotic stress, or drought stress. Ion content measurements indicated that NtCBL5A-OE leaves showed sensitivity to the Na+ accumulation levels that wild-type leaves could tolerate. Furthermore, transcriptome profiling showed that many immune response-related genes are significantly upregulated and photosynthetic machinery-related genes are significantly downregulated in salt-stressed NtCBL5A-OE leaves. In addition, the expression of several cation homeostasis-related genes was also affected in salt-stressed NtCBL5A-OE leaves. In conclusion, the constitutive overexpression of NtCBL5A interferes with the normal salt stress response of tobacco plants and leads to Na+-dependent leaf necrosis by enhancing the sensitivity of transgenic leaves to Na+. This Na+ sensitivity of NtCBL5A-OE leaves might result from the abnormal Na+ compartmentalization, plant photosynthesis, and plant immune response triggered by the constitutive overexpression of NtCBL5A. Identifying genes and pathways involved in this unusual salt stress response can provide new insights into the salt stress response of tobacco plants.

Published

2021

10. Systematic Investigations of the ZF-HD Gene Family in Tobacco Reveal Their Multiple Roles in Abiotic Stresses

Author

Jinhao Sun, Minmin Xie, Xiaoxu Li, Zhiyuan Li, Qi Wang, Anming Ding, Weifeng Wang, and Yuhe Sun

Subjects

Nicotiana tabacum, ZF-HD genes, genome-wide analysis, abiotic stresses, Agriculture

Abstract

Zinc finger homeodomain (ZF-HD) transcription factors play significant roles in plant growth and responses to environmental stresses. In this study, 32 ZF-HD genes identified in the tobacco (Nicotiana tabacum L.) genome were divided into six groups according to phylogenetic analysis with Arabidopsis and tomato ZF-HD members. An examination of gene structures and conserved motifs revealed the relatively conserved exon/intron structures and motif organization within each subgroup. In addition, various stress-related elements are found in the promoter region of these genes. The expression profiling analysis revealed that NtZF-HD genes expressed in different tissues and could be induced by several abiotic stresses. Notably, NtZF-HD21 was highly expressed in response to the drought treatments. Subcellular localization analysis and a virus-induced gene silencing (VIGS) experiment were performed to investigate the potential functions of NtZF-HD21. The subcellular localization indicated that NtZF-HD21 is a nuclear protein. Furthermore, gene silencing of the NtZF-HD21 gene reduced the drought resistance of tobacco. These findings provide insights for further biological functional analyses of the NtZF-HD genes in tobacco.

Published

2021

11. Characterization and Mapping of a Novel Premature Leaf Senescence Mutant in Common Tobacco (Nicotiana tabacum L.)

Author

Xiaoming Gao, Xinru Wu, Guanshan Liu, Zenglin Zhang, Jiangtao Chao, Zhiyuan Li, Yongfeng Guo, and Yuhe Sun

Subjects

tobacco, ems mutagenesis, premature leaf senescence, ssr markers, plant hormone, Botany, QK1-989

Abstract

As the last stage of plant development, leaf senescence has a great impact on plant’s life cycle. Genetic manipulation of leaf senescence has been used as an efficient approach in improving the yield and quality of crop plants. Here we describe an ethyl methane sulfonate (EMS) mutagenesis induced premature leaf senescence mutant yellow leaf 1 (yl1) in common tobacco (Nicotiana tabacum L.). The yl1 plants displayed early leaf yellowing. Physiological parameters and marker genes expression indicated that the yl1 phenotype was caused by premature leaf senescence. Genetic analyses indicated that the yl1 phenotype was controlled by a single recessive gene that was subsequently mapped to a specific interval of tobacco linkage group 11 using simple sequence repeat (SSR) markers. Exogenous plant hormone treatments of leaves showed that the yl1 mutant was more sensitive to ethylene and jasmonic acid than the wild type. No similar tobacco premature leaf senescence mutants have been reported. This study laid a foundation for finding the gene controlling the mutation phenotype and revealing the molecular regulation mechanism of tobacco leaf senescence in the next stage.

Published

2019

12. Research on Positioning and dimension measurement of truck compartment based on Semantic segmentation in automatic loading system.

Author

Fengying Ma 0001, Bowen Zhang, Peng Ji, Yuhe Sun, Jie Li, Xuexin Li, Wei Yan, Fengying Wang, and Gaofeng Mu

Published

2023

13. Design of a directional feature-driven weld target tracking algorithm.

Author

Fengying Ma 0001, Yuhe Sun, Peng Ji, Wanlong Dong, Jie Li, Xuexin Li, Wei Yan, and Baojun Geng

Published

2023

14. Region-Merging Method With Texture Pattern Attention for SAR Image Segmentation.

Author

Shuchen Fan, Yuhe Sun, and Penglang Shui

Published

2021

15. A chimeric AtERF4 repressor modulates pleiotropic aspects of plant growth and abiotic stress tolerance in transgenic Arabidopsis

Author

Anming Ding, Xingyou Yang, Xiangwen Yu, Zhihua Chen, Yong Liu, Weifeng Wang, and Yuhe Sun

Subjects

Physiology, Plant Science, Agronomy and Crop Science

Published

2022

16. SAR image edge detection via directional Bhattacharyya coefficient with its application on image segmentation.

Author

Shuchen Fan, Penglang Shui, Ze-Jun Zhang 0001, and Yuhe Sun

Published

2018

17. Highly efficient multiplex genome editing in dicots using improved CRISPR/Cas systems

Author

Bingjie Li, Yun shang, Lixianqiu Wang, Jing Lv, Fengjiao Wang, Jiangtao Chao, Jingjing Mao, Anming Ding, Xinru Wu, Mengmeng Cui, Yuhe Sun, and Changbo Dai

Abstract

CRISPR/Cas9-mediated gene editing provides a powerful tool for dissecting gene function and improving important traits in crops. However, there are still persisting challenges to obtain high homozygous/bi-allelic (ho/bi) mutations in dicot plants. Here, we develop an improved CRISPR/Cas9 system harboring a calreticulin-like gene promoter, which can boost targeted mutations in dicots. Additionally, the pDC45_dsg construct, combining a 35Spro-tRNA_sgRNA-EU unit and PCE8pro-controlled Cas9, can achieve more than 80.0% ho/bi mutations at target sites in allotetraploid tobacco. We construct pDC45_Fast system that can simultaneously fulfill gene editing and shorten the life span of T0 generation tobacco and tomato. This study provides new tools for improving targeted gene mutagenesis in dicots, and makes manipulations of genes in Solanum more feasible.

Published

2022

18. Metabolomic and transcriptomic analysis of roots of tobacco varieties resistant and susceptible to bacterial wilt

Author

Haoqi Shi, Peiwen Xu, Wen Yu, Yazhi Cheng, Anming Ding, Weifeng Wang, Shengxin Wu, and Yuhe Sun

Subjects

Coumarins, Nitrogen, Ethyl Methanesulfonate, Tobacco, Putrescine, Genetics, Transcriptome, Abscisic Acid, Plant Diseases

Abstract

Ralstonia solanacearum severely damages the growth of tobacco (Nicotiana tabacum L.) and causes great economic losses in tobacco production. To investigate the root metabolism and transcriptional characteristics of tobacco bacterial wilt susceptible variety Cuibi-1 (CB-1) and resistant new line KCB-1 (derived from an ethyl methanesulfonate (EMS) mutant of CB-1) after infestation with R. solanacearum, root metabolism and transcriptional characteristics were investigated using RNA-Seq and liquid chromatography-mass spectrometry (LC-MS). Differences in resistance between KCB-1 and CB-1 were observed in several aspects: (1) The phenylpropanoid pathway was the main pathway of resistance to bacterial wilt in KCB-1 compared with CB-1. (2) KCB-1 had more differential metabolic markers of disease resistance than CB-1 after infection with R. solanacearum. Among them, the differential coumarin-like metabolites that affect quorum sensing (QS) and biofilm formation of R. solanacearum differ in KCB-1 and CB-1. (3) KCB-1 inhibited production of the R. solanacearum metabolite putrescine, and the level of putrescine in tobacco was positively correlated with susceptibility. (4) Compared with CB-1, the metabolites of KCB-1 had less differential nitrogen sources during the infestation of R. solanacearum, which was detrimental to the growth and reproduction of R. solanacearum. (5) Both indole-3-acetic acid (IAA) and abscisic acid (ABA) in CB-1 and KCB-1 were involved in the response to R. solanacearum infestation, but the levels of IAA and ABA in KCB-1 were greater than in CB-1 at 24 h post inoculation (hpi). In conclusion, R. solanacearum caused reprogramming of both root metabolism and transcription in KCB-1 and CB-1, and the transcriptional and metabolic characteristics of resistant tobacco were more unfavorable to R. solanacearum.

Published

2022

19. Effects of artemisinin on root gravitropic response and root system development in Arabidopsis thaliana

Author

Hui Jin, Jingkun Liu, Dandan Wang, Xiaoyan Yang, Bo Qin, Min Xie, Yuhui Zhao, Zhiqiang Yan, Yuhe Sun, Haiyan Cui, and Xiuzhuang Li

Subjects

0106 biological sciences, 0301 basic medicine, Physiology, Plant Science, Root system, Secondary metabolite, Root hair, 01 natural sciences, 03 medical and health sciences, Auxin, parasitic diseases, medicine, Artemisinin, Starch grain, chemistry.chemical_classification, biology, fungi, food and beverages, Plant physiology, biology.organism_classification, 030104 developmental biology, chemistry, Biophysics, Artemisia, Agronomy and Crop Science, 010606 plant biology & botany, medicine.drug

Abstract

Artemisinin, an antimalarial secondary metabolite produced in Artemisia species, also has been recognized as an allelochemical that inhibits the growth of several plant species. However, the phytotoxicity mechanism of artemisinin is not exhaustively deciphered up to now. In this research, the effects of artemisinin on Arabidopsis thaliana root gravitropic curvature and development were characterized. Exogenously applied artemisinin disturb the root gravitropic responses, inhibited the elongation of primary and lateral roots and root hairs in a concentration-dependent fashion, and prevented the formation of lateral roots and root hairs. Moreover, the number of starch grain and the distribution range of auxin in the root tip was reduced by artemisinin, and the redistribution of auxin was less sensitive to gravity stimulus when treated with artemisinin than that of control. The expression of auxin transporter PIN2 was partially suppressed by artemisinin. Together, the results demonstrated that the effects of artemisinin on root gravitropism and root system development were largely dependent on the reduction of starch grain and auxin levels, as well as the disordered lateral auxin redistribution.

Published

2018

20. Comparative Transcriptome Analysis Reveals the Potential Mechanism of Abortion in Tobacco

Author

Zhiwen, Liu, Yanfang, Liu, Yuhe, Sun, Aiguo, Yang, and Fengxia, Li

Subjects

ATP synthesis, Cytoplasm, cytoplasmic male sterility, Plant Infertility, Gene Expression Profiling, Apoptosis, Flowers, Endoplasmic Reticulum Stress, tobacco, Article, Gene Ontology, Microscopy, Electron, Transmission, Gene Expression Regulation, Plant, Genome, Mitochondrial, Tobacco, Pollen, Energy Metabolism, transcriptome, programmed cell death, Signal Transduction

Abstract

sua-CMS (cytoplasmic male sterility) is the only male sterile system in tobacco breeding, but the mechanism of abortion is unclear. Cytological characteristics show that abortion in the sua-CMS line msZY occurs before the differentiation of sporogenous cells. In this study, a comparative transcriptomic analysis was conducted on flower buds at the abortion stage of msZY and its male fertile control ZY. A total of 462 differentially expressed genes were identified in msZY and ZY, which were enriched via protein processing in the endoplasmic reticulum (ER), oxidative phosphorylation, photosynthesis, and circadian rhythm-plant by Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses. Most genes were downregulated in the ER stress pathway, heat-shock protein family, F1F0-ATPase encoding by the mitochondrial genome, and differentiation of stamens. Genes in the programmed cell death (PCD) pathway were upregulated in msZY. The transcriptome results were consistent with those of qRT-PCR. Ultrastructural and physiological analyses indicted active vacuole PCD and low ATP content in msZY young flower buds. We speculated that PCD and a deficiency in ATP synthesis are essential for the abortion of sua-CMS. This study reveals the potential mechanism of abortion of tobacco sua-CMS.

Published

2020

21. Region Merging with Texture Pattern for Segmentation of SAR Images

Author

Shuchen Fan, Penglang Shui, Yuhe Sun, and Jing Bie

Subjects

Synthetic aperture radar, Pixel, business.industry, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, Image segmentation, Similarity measure, Texture (music), Measure (mathematics), Computer Science::Graphics, Computer Science::Computer Vision and Pattern Recognition, Bhattacharyya distance, Segmentation, Artificial intelligence, business

Abstract

This paper proposes a novel merging cost with texture pattern discrimination for region merging in the segmentation of SAR images, which integrates texture patterns, statistical characteristics, and shape prior of SAR images. By the initial partition based on multiscale Bhattacharyya distance, the input image is first over-segmented into region patches. Then, in the region merging process, a correlation measure of texture patterns between adjacent patches is constructed to obtain the proposed merging cost by fusing it with statistical similarity measure (SSM) and the relative common boundary length penalty (RCBLP) according to the pixel number of region patches. Finally, the segmentation result is output by iteratively merging the pair of adjacent regions with the smallest merging cost until the end condition is satisfied. Experimental results on real SAR images indicate that the proposed method is competitive in the segmentation of SAR images with complex scenes in comparison with several recent state-of-the-art ones.

Published

2019

22. Insight into the B3Transcription Factor Superfamily and Expression Profiling of

Author

Fei, Xia, Tingting, Sun, Shuangjuan, Yang, Xiao, Wang, Jiangtao, Chao, Xiaoxu, Li, Junhua, Hu, Mengmeng, Cui, Guanshan, Liu, Dawei, Wang, and Yuhe, Sun

Subjects

Gene Expression Regulation, Plant, expression patterns, Multigene Family, Tobacco, axillary buds, B3 superfamily, Article, transcription factor, Plant Proteins, Transcription Factors, genome analysis

Abstract

Members of the plant-specific B3 transcription factor superfamily play important roles in various growth and developmental processes in plants. Even though there are many valuable studies on B3 genes in other species, little is known about the B3 superfamily in tobacco. We identified 114 B3 proteins from tobacco using comparative genome analysis. These proteins were classified into four subfamilies based on their phylogenetic relationships, and include the ARF, RAV, LAV, and REM subfamilies. The chromosomal locations, gene structures, conserved protein motifs, and sub-cellular localizations of the tobacco B3 proteins were analyzed. The patterns of exon-intron numbers and arrangement and the protein structures of the tobacco B3 proteins were in general agreement with their phylogenetic relationships. The expression patterns of 114 B3 genes revealed that many B3 genes show tissue-specific expression. The expression levels of B3 genes in axillary buds after topping showed that the REM genes are mainly up-regulated in response to topping, while the ARF genes are down-regulated after topping.

Published

2018

23. Genome-wide identification and bioinformatic analysis of PPR gene family in tomato

Author

Daping Gong, Tingting Sun, Peng Zong, An-Ming Ding, Ya-Qiong Chen, Yuhe Sun, Zunqiang Li, Ling Li, and Qu Xu

Subjects

Genetics, Subfamily, Phylogenetic tree, fungi, food and beverages, General Medicine, Genome project, Biology, Bioinformatics, Genome, Conserved sequence, Chloroplast localization, Gene family, Gene

Abstract

Pentatricopeptide repeats (PPRs) genes constitute one of the largest gene families in plants, which play a broad and essential role in plant growth and development. In this study, the protein sequences annotated by the tomato (S. lycopersicum L.) genome project were screened with the Pfam PPR sequences. A total of 471 putative PPR-encoding genes were identified. Based on the motifs defined in A. thaliana L., protein structure and conserved sequences for each tomato motif were analyzed. We also analyzed phylogenetic relationship, subcellular localization, expression and GO analysis of the identified gene sequences. Our results demonstrate that tomato PPR gene family contains two subfamilies, P and PLS, each accounting for half of the family. PLS subfamily can be divided into four subclasses i.e., PLS, E, E+ and DYW. Each subclass of sequences forms a clade in the phylogenetic tree. The PPR motifs were found highly conserved among plants. The tomato PPR genes were distributed over 12 chromosomes and most of them lack introns. The majority of PPR proteins harbor mitochondrial or chloroplast localization sequences, whereas GO analysis showed that most PPR proteins participate in RNA-related biological processes.

Published

2014

24. Research Progress on Plant RING-Finger Proteins

Author

And Minmin Xie, Yuhe Sun, Jinhao Sun, Rana Imtiaz Ahmed, and Angyan Ren

Subjects

0106 biological sciences, 0301 basic medicine, adversity stress, Ubiquitin-Protein Ligases, Review, 01 natural sciences, Plant Physiological Phenomena, 03 medical and health sciences, Ubiquitin, Gene Expression Regulation, Plant, Stress, Physiological, Genetics, Ring finger, medicine, Gene, Genetics (clinical), Plant Proteins, Regulation of gene expression, biology, food and beverages, Gene Expression Regulation, Developmental, Ubiquitin ligase, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Proteasome, biology.protein, RING-finger proteins, plant development, Signal transduction, RING Finger Domains, 010606 plant biology & botany

Abstract

E3 ubiquitin ligases are the most expanded components of the ubiquitin proteasome system (UPS). They mediate the recognition of substrates and later transfer the ubiquitin (Ub) of the system. Really Interesting New Gene (RING) finger proteins characterized by the RING domain, which contains 40–60 residues, are thought to be E3 ubiquitin ligase. RING-finger proteins play significant roles in plant growth, stress resistance, and signal transduction. In this study, we mainly describe the structural characteristics, classifications, and subcellular localizations of RING-finger proteins, as well the physiological processes of RING-finger proteins in plant growth and development. We also summarize the functions of plant RING-finger proteins in plant stress resistance. Finally, further research on plant RING-finger proteins is suggested, thereby establishing a strong foundation for the future study of plant RING-finger proteins.

Published

2019

25. SAR Image Edge Detection via Directional Bhattacharyya Coefficient with Its Application on Image Segmentation.

Author

Shuchen Fan, Penglang Shui, Zejun Zhang, and Yuhe Sun

Published

2019

26. Biosynthesis of 2-phenylethanol using tobacco waste as feedstock

Author

Jin Yirong, Haobao Liu, Guanshan Liu, Haibo Zhang, Qian Wang, Yuhe Sun, and Yufeng Song

Subjects

Chemistry, business.industry, food and beverages, Aromatic alcohol, Raw material, Pulp and paper industry, Biochemistry, Catalysis, Biotechnology, Steepest ascent, Renewable biomass, Fermentation, Bioprocess, Cosmetic industry, business

Abstract

2-Phenylethanol (2-PE) is an aromatic alcohol with a rose-like odour, which is widely used in the food, drink and cosmetic industry. It also present in cigarette aromas. As a unique renewable biomass, tobacco contains abundant aromatic compounds, but is rarely used as a feedstock for synthesizing bio-based products. In this study, it was found that 2-PE can be produced from tobacco waste by Saccharomyces cerevisiae. Plackett-Burman design, steepest ascent design and Box-Behnken designs were applied to optimize the fermentation bioprocess, and the maximum titre of 2-PE reached 1.55 g/l. The study explored a new method of 2-PE production and also provided a valuable way to utilize tobacco waste.

Published

2013

27. Phytotoxicity mechanisms of two coumarin allelochemicals from Stellera chamaejasme in lettuce seedlings

Author

Xiao-Feng He, Hui Jin, Yuhe Sun, Dandan Wang, Hongru Guo, Zhiqiang Yan, Xia Ren, Bo Qin, Denghong Zhang, Haiyan Cui, Le Pan, Xiaoyan Yang, Xiuzhuang Li, and Kai Guo

Subjects

0106 biological sciences, 0301 basic medicine, Lipid peroxide, Physiology, Plant Science, Biology, Umbelliferone, 01 natural sciences, Lipid peroxidation, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Botany, Shoot, Daphnoretin, Phytotoxicity, Weed, Agronomy and Crop Science, Allelopathy, 010606 plant biology & botany

Abstract

Stellera chamaejasme, a perennial weed which is an ecological threat, is widely distributed in some grasslands of Central and Eastern Asia. Our previous studies have identified several allelochemicals including two coumarins (umbelliferone and daphnoretin), from S. chamaejasme, and confirmed that allelopathy contributed to the competitive behavior of this weed. In this study, the inhibitory effects of umbelliferone and daphnoretin on lettuce seedlings and the mechanisms of their phytotoxicity were investigated. Results showed that shoot and root elongation and fresh weight of lettuce seedlings were effectively inhibited by umbelliferone in a concentration-dependent manner. Daphnoretin showed a weaker phytotoxicity. Both of the coumarins arrested the mitosis process in lettuce root tips and induced proline overproduction. Additionally, loss of cell viability and overproduction of reactive oxygen species in lettuce root cells were found after treatments with umbelliferone. Moreover, umbelliferone caused lipid peroxidation. These results suggested that umbelliferone displayed stronger phytotoxicity than daphnoretin on lettuce growth, and that the two coumarins had different mechanisms of phytotoxicity. That of daphnoretin was mainly dependent on its inhibitory effects on mitosis. Umbelliferone caused membrane lipid peroxide formation and cell death by inducing ROS overproduction, and impacted cell division, which resulted in growth inhibition of the receptor plant.

Published

2016

28. Cloning and expression analysis of potassium channel gene NKT3 from Nicotiana tabacum

Author

Qian Wang, Yuhe Sun, Yufeng Song, Ming Zhao, Pingzhi Qu, Jin Yirong, Hao-Bao Liu, and Guanshan Liu

Subjects

Cloning, Genetics, Potassium channel gene, NKT3, RACE, Nicotiana tabacum, biology, Phylogenetic tree, Accession number (library science), Nicotiana tabacum, fungi, food and beverages, biology.organism_classification, Applied Microbiology and Biotechnology, Potassium channel, GenBank, Complementary DNA, Agronomy and Crop Science, Molecular Biology, Gene, Biotechnology

Abstract

Potassium (K+) is the predominant inorganic ion of plant cells. K+ channels in higher plant cells play an important role in regulating the influx and efflux of K+ from cells, and activity of these channels might be involved in plant stress resistance. A completely new K+ channel gene of Nicotiana tabacum was obtained through homologous cloning strategy. The complete cDNA sequence was submitted to the National Center for Biotechnology Information (NCBI) GenBank, designated as NKT3 and the accession number is FJ230956. The phylogenetic analysis indicated that NKT3 is located at the branch of weak-inwardly rectifying K+ channels and might be a member of the Shaker family. The spatial and temporal expression of the gene was also investigated. NKT3 is expressed abundantly in the roots, while little in the leaves of N. tabacum. It might be involved in the process of K+ acquirement and release in tobacco roots.Keywords: Potassium channel gene, NKT3, RACE, Nicotiana tabacum

Published

2016

29. [Genome-wide identification and bioinformatic analysis of PPR gene family in tomato]

Author

Anming, Ding, Ling, Li, Xu, Qu, Tingting, Sun, Yaqiong, Chen, Peng, Zong, Zunqiang, Li, Daping, Gong, and Yuhe, Sun

Subjects

Evolution, Molecular, Protein Transport, Gene Ontology, Solanum lycopersicum, Gene Expression Profiling, Molecular Sequence Data, Amino Acid Sequence, Genomics, Cloning, Molecular, Conserved Sequence, Phylogeny, Plant Proteins

Abstract

Pentatricopeptide repeats (PPRs) genes constitute one of the largest gene families in plants, which play a broad and essential role in plant growth and development. In this study, the protein sequences annotated by the tomato (S. lycopersicum L.) genome project were screened with the Pfam PPR sequences. A total of 471 putative PPR-encoding genes were identified. Based on the motifs defined in A. thaliana L., protein structure and conserved sequences for each tomato motif were analyzed. We also analyzed phylogenetic relationship, subcellular localization, expression and GO analysis of the identified gene sequences. Our results demonstrate that tomato PPR gene family contains two subfamilies, P and PLS, each accounting for half of the family. PLS subfamily can be divided into four subclasses i.e., PLS, E, E+ and DYW. Each subclass of sequences forms a clade in the phylogenetic tree. The PPR motifs were found highly conserved among plants. The tomato PPR genes were distributed over 12 chromosomes and most of them lack introns. The majority of PPR proteins harbor mitochondrial or chloroplast localization sequences, whereas GO analysis showed that most PPR proteins participate in RNA-related biological processes.

Published

2014