Your search keyword '"transposon"' showing total 3,645 results

1. RNA-guided genome engineering: paradigm shift towards transposons

Author

Chang, Chin-Wei, Truong, Vy Anh, Pham, Nam Ngoc, and Hu, Yu-Chen

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Prevention, Human Genome, Genetics, Complementary and Integrative Health, CASTs, CRISPR, OMEGA, RNA-guided genome engineering, double-strand break, transposon, Engineering, Technology, Biotechnology, Agricultural biotechnology, Industrial biotechnology, Medical biotechnology

Abstract

CRISPR-Cas systems revolutionized the genome engineering field but need to induce double-strand breaks (DSBs) and may be difficult to deliver due to their large protein size. Tn7-like transposons such as CRISPR-associated transposons (CASTs) can be repurposed for RNA-guided DSB-free integration, and obligate mobile element guided activity (OMEGA) proteins of the IS200/IS605 transposon family have been developed as hypercompact RNA-guided genome editing tools. CASTs and OMEGA are exciting, innovative genome engineering tools that can improve the precision and efficiency of editing. This review explores the recent developments and uses of CASTs and OMEGA in genome editing across prokaryotic and eukaryotic cells. The pros and cons of these transposon-based systems are deliberated in comparison to other CRISPR systems.

Published

2024

2. Recurrent excision of a hAT‐like transposable element in CmAPRR2 leads to the "shooting star" melon phenotype.

Author

Zhang, Wei, Liao, Shengjin, Zhang, Jie, Sun, Honghe, Li, Shaofang, Zhang, Haiying, Gong, Guoyi, Shen, Huolin, and Xu, Yong

Subjects

*METEORS, *ASEXUAL reproduction, *HUMAN skin color, *GENOMICS, *DOMINANCE (Genetics)

Abstract

SUMMARY: The external appearance of fruit commodities is an essential trait that has profound effects on consumer preferences. A natural melon variety, characterized by an uneven and patchy arrangement of dark green streaks and spots on the white‐skinned rind, resembles shooting stars streaking across the sky; thus, this variety is called "Shooting Star" (SS). To investigate the mechanism underlying the SS melon rind pattern, we initially discovered that the variegated dark green color results from chlorophyll accumulation on the white skin. We then constructed a segregation population by crossing a SS inbred line with a white rind (WR) inbred line and used bulk segregant analysis (BSA) revealed that the SS phenotype is controlled by a single dominant gene, CmAPRR2, which has been previously confirmed to determine dark green coloration. Further genomic analysis revealed a hAT‐like transposable element (TE) inserted in CmAPRR2. This TE in CmAPRR2 is recurrently excised from rind tissues, activating the expression of CmAPRR2. This activation promotes the accumulation of chlorophyll, leading to the variegated dark green color on the rind, and ultimately resulting in the SS rind phenotype. Therefore, we propose that the SS phenotype results from the recurrent excision of the hAT‐like TE in CmAPRR2. Significance Statement: Currently, there are numerous studies on transposons in asexual reproduction, but few focus on their role in sexual reproduction. In this paper, we investigate melon skin color through map‐based cloning to locate the gene responsible for skin color and identify the transposons affecting it. [ABSTRACT FROM AUTHOR]

Published

2024

3. Expanding the BonnMu sequence‐indexed repository of transposon induced maize (Zea mays L.) mutations in dent and flint germplasm.

Author

Win, Yan Naing, Stöcker, Tyll, Du, Xuelian, Brox, Alexa, Pitz, Marion, Klaus, Alina, Piepho, Hans‐Peter, Schoof, Heiko, Hochholdinger, Frank, and Marcon, Caroline

Subjects

*GENETIC databases, *REVERSE genetics, *FUNCTIONAL genomics, *CORN, *GERMPLASM

Abstract

SUMMARY The BonnMu resource is a transposon tagged mutant collection designed for functional genomics studies in maize. To expand this resource, we crossed an active Mutator (Mu) stock with dent (B73, Co125) and flint (DK105, EP1, and F7) germplasm, resulting in the generation of 8064 mutagenized BonnMu F2‐families. Sequencing of these Mu‐tagged families revealed 425 924 presumptive heritable Mu insertions affecting 36 612 (83%) of the 44 303 high‐confidence gene models of maize (B73v5). On average, we observed 12 Mu insertions per gene (425 924 total insertions/36 612 affected genes) and 53 insertions per BonnMu F2‐family (425 924 total insertions/8064 families). Mu insertions and photos of seedling phenotypes from segregating BonnMu F2‐families can be accessed through the Maize Genetics and Genomics Database (MaizeGDB). Downstream examination via the automated Mutant‐seq Workflow Utility (MuWU) identified 94% of the presumptive germinal insertion sites in genic regions and only a small fraction of 6% inserting in non‐coding intergenic sequences of the genome. Consistently, Mu insertions aligned with gene‐dense chromosomal arms. In total, 42% of all BonnMu insertions were located in the 5′ untranslated region of genes, corresponding to accessible chromatin. Furthermore, for 38% of the insertions (163 843 of 425 924 total insertions) Mu1, Mu8 and MuDR were confirmed to be the causal Mu elements. Our publicly accessible European BonnMu resource has archived insertions covering two major germplasm groups, thus facilitating both forward and reverse genetics studies. [ABSTRACT FROM AUTHOR]

Published

2024

4. Essential Genes Discovery in Microorganisms by Transposon-Directed Sequencing (Tn-Seq): Experimental Approaches, Major Goals, and Future Perspectives.

Author

Fernández-García, Gemma, Valdés-Chiara, Paula, Villazán-Gamonal, Patricia, Alonso-Fernández, Sergio, and Manteca, Angel

Subjects

*MICROBIOLOGY, *AMINO acid synthesis, *SECONDARY metabolism, *BACTERIAL inactivation, *DNA replication

Abstract

Essential genes are crucial for microbial viability, playing key roles in both the primary and secondary metabolism. Since mutations in these genes can threaten organism viability, identifying them is challenging. Conditionally essential genes are required only under specific conditions and are important for functions such as virulence, immunity, stress survival, and antibiotic resistance. Transposon-directed sequencing (Tn-Seq) has emerged as a powerful method for identifying both essential and conditionally essential genes. In this review, we explored Tn-Seq workflows, focusing on eubacterial species and some yeast species. A comparison of 14 eubacteria species revealed 133 conserved essential genes, including those involved in cell division (e.g., ftsA, ftsZ), DNA replication (e.g., dnaA, dnaE), ribosomal function, cell wall synthesis (e.g., murB, murC), and amino acid synthesis (e.g., alaS, argS). Many other essential genes lack clear orthologues across different microorganisms, making them specific to each organism studied. Conditionally essential genes were identified in 18 bacterial species grown under various conditions, but their conservation was low, reflecting dependence on specific environments and microorganisms. Advances in Tn-Seq are expected to reveal more essential genes in the near future, deepening our understanding of microbial biology and enhancing our ability to manipulate microbial growth, as well as both the primary and secondary metabolism. [ABSTRACT FROM AUTHOR]

Published

2024

5. The energy metabolism of Cupriavidus necator in different trophic conditions.

Author

Jahn, Michael, Crang, Nick, Gynnå, Arvid H., Kabova, Deria, Frielingsdorf, Stefan, Lenz, Oliver, Charpentier, Emmanuelle, and Hudson, Elton P.

Subjects

*BIOCHEMICAL substrates, *ORGANIC acids, *RALSTONIA eutropha, *GENOME editing, *SUBSTRATES (Materials science), *NITRATE reductase

Abstract

The "knallgas" bacterium Cupriavidus necator is attracting interest due to its extremely versatile metabolism. C. necator can use hydrogen or formic acid as an energy source, fixes CO2 via the Calvin-Benson-Bassham (CBB) cycle, and grows on organic acids and sugars. Its tripartite genome is notable for its size and duplications of key genes (CBB cycle, hydrogenases, and nitrate reductases). Little is known about which of these isoenzymes and their cofactors are actually utilized for growth on different substrates. Here, we investigated the energy metabolism of C. necator H16 by growing a barcoded transposon knockout library on succinate, fructose, hydrogen (H2/CO2), and formic acid. The fitness contribution of each gene was determined from enrichment or depletion of the corresponding mutants. Fitness analysis revealed that (i) some, but not all, molybdenum cofactor biosynthesis genes were essential for growth on formate and nitrate respiration. (ii) Soluble formate dehydrogenase (FDH) was the dominant enzyme for formate oxidation, not membrane-bound FDH. (iii) For hydrogenases, both soluble and membrane-bound enzymes were utilized for lithoautotrophic growth. (iv) Of the six terminal respiratory complexes in C. necator H16, only some are utilized, and utilization depends on the energy source. (v) Deletion of hydrogenase-related genes boosted heterotrophic growth, and we show that the relief from associated protein cost is responsible for this phenomenon. This study evaluates the contribution of each of C. necator's genes to fitness in biotechnologically relevant growth regimes. Our results illustrate the genomic redundancy of this generalist bacterium and inspire future engineering strategies. IMPORTANCE The soil bacterium Cupriavidus necator can grow on gas mixtures of CO2, H2, and O2. It also consumes formic acid as carbon and energy source and various other substrates. This metabolic flexibility comes at a price, for example, a comparatively large genome (6.6 Mb) and a significant background expression of lowly utilized genes. In this study, we mutated every non-essential gene in C. necator using barcoded transposons in order to determine their effect on fitness. We grew the mutant library in various trophic conditions including hydrogen and formate as the sole energy source. Fitness analysis revealed which of the various energy-generating iso-enzymes are actually utilized in which condition. For example, only a few of the six terminal respiratory complexes are used, and utilization depends on the substrate. We also show that the protein cost for the various lowly utilized enzymes represents a significant growth disadvantage in s pecific conditions, offering a route to rational engineering of the genome. All fitness data are available in an interactive app at https://m-jahn.shinyapps.io/ShinyLib/. [ABSTRACT FROM AUTHOR]

Published

2024

6. Modified Tn7 transposon vectors for controlled chromosomal gene expression.

Author

Chyden Chang, Minh-Duy Phan, and Schembri, Mark A.

Subjects

*GENETIC regulation, *GENE expression, *GREEN fluorescent protein, *ESCHERICHIA coli, *MOLECULAR cloning

Abstract

Complementation remains a foundation for demonstrating molecular Koch's postulates. While this is frequently achieved using plasmids, limitations such as increased gene copy number and the need for antibiotic supplementation to avoid plasmid loss can restrict their use. Chromosomal integration systems using the Tn7 transposon provide an alternative to plasmids for complementation and facilitate the stable insertion of genes at the chromosomal attTn7 site without the need for selection pressure. Here, we enhanced the utility of mini-Tn7 insertion vectors by the addition of inducible (Pcym) and constitutive (PcL and PrpsM) promoters, allowing different ial transcriptional control of genes integrated into the chromosome. We validated the utility of these promoters by cloning the gfp gene, encoding green fluorescent protein, downstream of each promoter and integrating a mini-Tn7 construct harboring these elements into the attTn7 site on the chromosome of the Escherichia coli K-12 strain MG1655. The PcL and PrpsM promoters provided equivalent levels of GFP expression and offered flexibility based on the target host strain. Activation of the tightly regulated Pcym promoter with its inducer cumate resulted in tunable expression of GFP in a dose-dependent manner. We further demonstrated the tight control of the Pcym promoter using the toxic impCAB genes, and the expression of which is detrimental to E. coli viability. Together, these modified mini-Tn7 vectors allowing differential control of genes integrated into the chromosome at a conserved site offer an efficient system for complementation where plasmid use is restricted. IMPORTANCE Chromosomal integration using mini-Tn7 vectors provides an efficient means to insert genes into the chromosome of many gram-negative bacteria. Insertion occurs at a conserved site and allows for the stable integration of genes in single copy. While this system has multiple benefits for enabling complementation, a cornerstone for fulfilling molecular Koch's postulates, greater flexibility for controlled gene expression would enhance its utility. Here, we have added to the function of mini-Tn7 vectors by the addition of inducible and constitutive promoters and demonstrated their capacity to drive the controlled expression of target genes integrated into the chromosome. In addition to complementation, these modified vectors offer broad application for other approaches including chromosomal tagging, in vivo expression, metabolic engineering, and synthetic biology. [ABSTRACT FROM AUTHOR]

Published

2024

7. 酿酒酵母转座子介导外源基因的整合效率.

Author

王丹丹, 南辰辰, 李宪臻, and 杨帆

Abstract

Copyright of Journal of Dalian Polytechnic University is the property of Journal of Dalian Polytechnic University Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Genetic profile of carbapenem-resistant Acinetobacter baumannii strains

Author

Anna E. Alekseeva, N. F. Brusnigina, and M. A. Makhova

Subjects

a. baumannii, sequence type, phylogenetic analysis, blaoxa-23, blaoxa-72, integron, transposon, Infectious and parasitic diseases, RC109-216

Abstract

The purpose of the research: the molecular genetic characteristic ofA. baumanniicarbapenem-resistant strains, including clonal affiliation, resistome and virulome pattern analysis, description of genetic environment resistance determinants, comparative genetic analysis, and assessment of phylogenetic relationships are presented in the work. The studiedA. baumanniistrains belonged to sequence types ST2Pas/ST2062.2063Oxf(n = 5) and ST78Pas/ST1757Oxf(n = 2). The nucleotide sequences of the studiedA. baumanniiST2Pas/ST2062.2063Oxfstrains were grouped into a single cluster according to phylogenetic analysis. And the sequences of theA. baumanniiST78Pas/ST1757Oxfstrains were combined with the nucleotide sequence of theA. baumanniiAbCTX5 strain, isolated in France in 2015. The presence of intrinsic (OXA-51-like) and acquired carbapenemases genes was shown inA. baumanniistrains. In particular,blaOXA-23are identified in members of ST2Pas/ST2062.2063Oxf, and inA. baumanniiST78Pas/ST1757Oxfstrains —blaOXA-72as part of the plasmid DNA. TheA. baumanniiST78Passtrains possessed additional extended-spectrum beta-lactamase genes. Тhe CTX-M-115 cephalosporinase gene are present in both strains, and theA. baumanniistrain NNAb_2023.3 has theblaCARB-16gene. MostA. baumanniistrains are characterized by the presence of acquired genes for enzymatic modification of macrolides(mph(E), msr(E)), chloramphenicols(catB8), aminoglycosides(aadA, aph(3'')-Ib, aph(6)-Id, aac(6')-Ib, aph(3')-Ia, armA). A comparative analysis showed that inA. baumanniiST2Pas/ST2062.2063Oxfstrains the resistance determinants to macrolides and aminoglycosides are located in the Tn6279-like transposon, and the aminoglycosidases genesaph(3'')-Ib, aph(6)-Idare associated with theIS91-like mobile element. InA. baumanniiST78Pas/ST1757Oxfstrains, resistance genes to aminoglycosides, macrolides, sulfonamides, and beta-lactamase genes are grouped in a region from 60 to 80 Kb long between theglmSandhutCgenes. The presence of mutations in thegyrAandparCgenes associated with resistance to fluoroquinolones were characterized in allA. baumanniistrains. Thus, new knowledge about the genetic profile of carbapenem-resistantA. baumanniistrains representing epidemically significant international clonal lineage has been obtained.

Published

2024

9. Characterizing the loss and acquisition of Tn2-like transposon in Klebsiella pneumoniae: Implications for carbapenemase gene dissemination

Author

Hong Lu, Li Cheng, Shu Cui, Xin Yi, Xueqin Li, Xiang Liu, Xiaomei Kong, and Xiao Yu

Subjects

Klebsiella pneumoniae, Plasmid, Transposon, KPC-2, Microbiology, QR1-502

Abstract

ABSTRACT: Over 1 year, two KPC-producing and two non–KPC-producing Klebsiella pneumoniae strains were isolated from a patient. Genome and DNA hybridization analyses revealed the first three strains as a clonal lineage, with carbapenem resistance changes due to a Tn2-like transposon on an IncR/IncFII plasmid. The fourth strain, carrying three plasmids, caused a lethal infection and represented a different lineage. All strains belonged to the ST11-SL47-OL101 type. This study highlights the Tn2-like transposon's role in carbapenemase gene spread and the importance of distinguishing between bacterial colonization and infection.

Published

2024

10. Genome-wide identification and characterization of SLEEPER, a transposon-derived gene family and their expression pattern in Brassica napus L.

Author

Ruijia Zhu, Shengzhi An, Jingyan Fu, Sha Liu, Yu Fu, Ying Zhang, Rui Wang, Yun Zhao, and Maolin Wang

Subjects

Molecular domestication, Brassica napus, SLEEPER, hAT-superfamily, Transposon, Botany, QK1-989

Abstract

Abstract Background The transposons of the hAT superfamily are the most widespread transposons ever known. SLEEPER genes encode domesticated transposases from the hAT superfamily, which may have lost their transposable functions during long-term evolution and transformed into host proteins that regulate plant growth and development. Results This study identified 162 members of the SLEEPER gene family from Brassica napus. These members are widely distributed on 19 chromosomes, mainly in the Cn subgenome, and have promoters with various cis-acting elements related to hormone regulation, abiotic stress, and growth and development regulation. Most of the genes in this family contain similar conserved domains and motifs, and the closer the genes are distributed on evolutionary branches, the more similar their structures are. Transcriptome sequencing performed on tissues at different growth stages from B. napus line 3529 indicated that these genes had different expression patterns, and nearly half of the genes were not detectably expressed in all samples. Conclusions This study investigated the gene structure, expression patterns, evolutionary features, and gene localization of the SLEEPER family members to confirm the significance of these genes in the growth of B. napus, providing a reference for the study of transposon domestication and outstanding genetic resources for the genetic improvement of B. napus.

Published

2024

11. Transposon-derived introns as an element shaping the structure of eukaryotic genomes

Author

Weronika Mikina, Paweł Hałakuc, and Rafał Milanowski

Subjects

Intron, Splicing, Evolution, Transposon, Transposable element, Introner, Genetics, QH426-470

Abstract

Abstract The widely accepted hypothesis postulates that the first spliceosomal introns originated from group II self-splicing introns. However, it is evident that not all spliceosomal introns in the nuclear genes of modern eukaryotes are inherited through vertical transfer of intronic sequences. Several phenomena contribute to the formation of new introns but their most common origin seems to be the insertion of transposable elements. Recent analyses have highlighted instances of mass gains of new introns from transposable elements. These events often coincide with an increase or change in the spliceosome's tolerance to splicing signals, including the acceptance of noncanonical borders. Widespread acquisitions of transposon-derived introns occur across diverse evolutionary lineages, indicating convergent processes. These events, though independent, likely require a similar set of conditions. These conditions include the presence of transposon elements with features enabling their removal at the RNA level as introns and/or the existence of a splicing mechanism capable of excising unusual sequences that would otherwise not be recognized as introns by standard splicing machinery. Herein we summarize those mechanisms across different eukaryotic lineages.

Published

2024

12. Genome-wide analysis of histone modifications can contribute to the identification of candidate cis-regulatory regions in the threespine stickleback fish

Author

Genta Okude, Yo Y. Yamasaki, Atsushi Toyoda, Seiichi Mori, and Jun Kitano

Subjects

Cis-regulatory region, Epigenetics, Histone modification, Transposon, Stickleback, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Cis-regulatory mutations often underlie phenotypic evolution. However, because identifying the locations of promoters and enhancers in non-coding regions is challenging, we have fewer examples of identified causative cis-regulatory mutations that underlie naturally occurring phenotypic variations than of causative amino acid-altering mutations. Because cis-regulatory elements have epigenetic marks of specific histone modifications, we can detect cis-regulatory elements by mapping and analyzing them. Here, we investigated histone modifications and chromatin accessibility with cleavage under targets and tagmentation (CUT&Tag) and assay for transposase-accessible chromatin-sequencing (ATAC-seq). Results Using the threespine stickleback (Gasterosteus aculeatus) as a model, we confirmed that the genes for which nearby regions showed active marks, such as H3K4me1, H3K4me3, and high chromatin accessibility, were highly expressed. In contrast, the expression levels of genes for which nearby regions showed repressive marks, such as H3K27me3, were reduced, suggesting that our chromatin analysis protocols overall worked well. Genomic regions with peaks of histone modifications showed higher nucleotide diversity within and between populations. By comparing gene expression in the gills of the marine and stream ecotypes, we identified several insertions and deletions (indels) with transposable element fragments in the candidate cis-regulatory regions. Conclusions Thus, mapping and analyzing histone modifications can help identify cis-regulatory elements and accelerate the identification of causative mutations in the non-coding regions underlying naturally occurring phenotypic variations.

Published

2024

13. Stable long-term germline transmission of GFP transgenic rat via PiggyBac transposon mediated gene transfer

Author

Beom-Jin Jeon, Dong-Hyeok Kwon, Gyeong-min Gim, Hee-Kyoung Kim, Jeong-Hwa Lee, and Goo Jang

Subjects

Germline Transmission, GFP-Rats, Resources, Transgene Silencing, Transposon, Veterinary medicine, SF600-1100

Abstract

Abstract Transgene silencing provides a significant challenge in animal model production via gene engineering using viral vectors or transposons. Selecting an appropriate strategy, contingent upon the species is crucial to circumvent transgene silencing, necessitating long-term observation of in vivo gene expression. This study employed the PiggyBac transposon to create a GFP rat model to address transgene silencing in rats. Surprisingly, transgene silencing occurred while using the CAG promoter, contrary to conventional understanding, whereas the Ef1α promoter prevented silencing. GFP expression remained stable through over five generations, confirming efficacy of the Ef1α promoter for long-term protein expression in rats. Additionally, GFP expression was consistently maintained at the cellular level in various cellular sources produced from the GFP rats, thereby validating the in vitro GFP expression of GFP rats. Whole-genome sequencing identified a stable integration site in Akap1 between exons 1 and 2, mitigating sequence-independent mechanism-mediated transgene silencing. This study established an efficient method for producing transgenic rat models using PiggyBac transposon. Our GFP rats represent the first model to exhibit prolonged expression of foreign genes over five generations, with implications for future research in gene-engineered rat models.

Published

2024

14. Genome-wide identification and characterization of SLEEPER, a transposon-derived gene family and their expression pattern in Brassica napus L.

Author

Zhu, Ruijia, An, Shengzhi, Fu, Jingyan, Liu, Sha, Fu, Yu, Zhang, Ying, Wang, Rui, Zhao, Yun, and Wang, Maolin

Subjects

*GENE expression, *RAPESEED, *GENE families, *GERMPLASM, *LONG-Term Evolution (Telecommunications)

Abstract

Background: The transposons of the hAT superfamily are the most widespread transposons ever known. SLEEPER genes encode domesticated transposases from the hAT superfamily, which may have lost their transposable functions during long-term evolution and transformed into host proteins that regulate plant growth and development. Results: This study identified 162 members of the SLEEPER gene family from Brassica napus. These members are widely distributed on 19 chromosomes, mainly in the Cn subgenome, and have promoters with various cis-acting elements related to hormone regulation, abiotic stress, and growth and development regulation. Most of the genes in this family contain similar conserved domains and motifs, and the closer the genes are distributed on evolutionary branches, the more similar their structures are. Transcriptome sequencing performed on tissues at different growth stages from B. napus line 3529 indicated that these genes had different expression patterns, and nearly half of the genes were not detectably expressed in all samples. Conclusions: This study investigated the gene structure, expression patterns, evolutionary features, and gene localization of the SLEEPER family members to confirm the significance of these genes in the growth of B. napus, providing a reference for the study of transposon domestication and outstanding genetic resources for the genetic improvement of B. napus. [ABSTRACT FROM AUTHOR]

Published

2024

15. A Naturally Active Spy Transposon Discovered from the Insect Genome of Colletes gigas as a Promising Novel Gene Transfer Tool.

Author

Diaby, Mohamed, Wu, Han, Gao, Bo, Shi, Shasha, Wang, Bingqing, Wang, Saisai, Wang, Yali, Wu, Zherui, Chen, Cai, Wang, Xiaoyan, and Song, Chengyi

Subjects

*CHIMERIC antigen receptors, *REGULATOR genes, *GENETIC transformation, *CELLULAR therapy, *GENOMES

Abstract

Novel active DNA transposons, such as Spy transposons from the PHIS superfamily, are identified through bioinformatics in this study. The native transposases cgSpy and cvSpy displayed transposition activities of approximately 85% and 35% compared to the hyperactive piggyBac transposase (hyPB). The cgSpy transposon showed unique characteristics, including a lack of overproduction inhibition and reduced efficiency for insertion sizes between 3.1 to 8.5 kb. Integration preferences of cgSpy are found in genes and regulatory regions, making it suitable for genetic manipulation. Evaluation in T‐cell engineering demonstrated that cgSpy‐mediated chimeric antigen receptor (CAR) modification is comparable to the PB system, indicating its potential utility in cell therapy. This study unveils the promising application of the active native transposase, Spy, from Colletes gigas, as a valuable tool for genetic engineering, particularly in T‐cell manipulation. [ABSTRACT FROM AUTHOR]

Published

2024

16. Transposon-derived introns as an element shaping the structure of eukaryotic genomes.

Author

Mikina, Weronika, Hałakuc, Paweł, and Milanowski, Rafał

Subjects

*INTRONS, *TRANSPOSONS, *EUKARYOTIC genomes, *RNA

Abstract

The widely accepted hypothesis postulates that the first spliceosomal introns originated from group II self-splicing introns. However, it is evident that not all spliceosomal introns in the nuclear genes of modern eukaryotes are inherited through vertical transfer of intronic sequences. Several phenomena contribute to the formation of new introns but their most common origin seems to be the insertion of transposable elements. Recent analyses have highlighted instances of mass gains of new introns from transposable elements. These events often coincide with an increase or change in the spliceosome's tolerance to splicing signals, including the acceptance of noncanonical borders. Widespread acquisitions of transposon-derived introns occur across diverse evolutionary lineages, indicating convergent processes. These events, though independent, likely require a similar set of conditions. These conditions include the presence of transposon elements with features enabling their removal at the RNA level as introns and/or the existence of a splicing mechanism capable of excising unusual sequences that would otherwise not be recognized as introns by standard splicing machinery. Herein we summarize those mechanisms across different eukaryotic lineages. [ABSTRACT FROM AUTHOR]

Published

2024

17. Genome-wide analysis of histone modifications can contribute to the identification of candidate cis-regulatory regions in the threespine stickleback fish.

Author

Okude, Genta, Yamasaki, Yo Y., Toyoda, Atsushi, Mori, Seiichi, and Kitano, Jun

Subjects

*THREESPINE stickleback, *HISTONES, *GENE expression, *PHENOTYPIC plasticity, *CHROMATIN, *EPIGENETICS

Abstract

Background: Cis-regulatory mutations often underlie phenotypic evolution. However, because identifying the locations of promoters and enhancers in non-coding regions is challenging, we have fewer examples of identified causative cis-regulatory mutations that underlie naturally occurring phenotypic variations than of causative amino acid-altering mutations. Because cis-regulatory elements have epigenetic marks of specific histone modifications, we can detect cis-regulatory elements by mapping and analyzing them. Here, we investigated histone modifications and chromatin accessibility with cleavage under targets and tagmentation (CUT&Tag) and assay for transposase-accessible chromatin-sequencing (ATAC-seq). Results: Using the threespine stickleback (Gasterosteus aculeatus) as a model, we confirmed that the genes for which nearby regions showed active marks, such as H3K4me1, H3K4me3, and high chromatin accessibility, were highly expressed. In contrast, the expression levels of genes for which nearby regions showed repressive marks, such as H3K27me3, were reduced, suggesting that our chromatin analysis protocols overall worked well. Genomic regions with peaks of histone modifications showed higher nucleotide diversity within and between populations. By comparing gene expression in the gills of the marine and stream ecotypes, we identified several insertions and deletions (indels) with transposable element fragments in the candidate cis-regulatory regions. Conclusions: Thus, mapping and analyzing histone modifications can help identify cis-regulatory elements and accelerate the identification of causative mutations in the non-coding regions underlying naturally occurring phenotypic variations. [ABSTRACT FROM AUTHOR]

Published

2024

18. Expressions of the satellite repeat HSAT5 and transposable elements are implicated in disease progression and survival in glioma.

Author

KÖSE, Sıla Naz, YARAŞ, Tutku, BURSALI, Ahmet, OKTAY, Yavuz, YANDIM, Cihangir, and KARAKÜLAH, Gökhan

Subjects

*GENE regulatory networks, *OVERALL survival, *CHROMOSOME segregation, *HUMAN genome, *GLIOMAS

Abstract

The glioma genome encompasses a complex array of dysregulatory events, presenting a formidable challenge in managing this devastating disease. Despite the widespread distribution of repeat and transposable elements across the human genome, their involvement in glioma's molecular pathology and patient survival remains largely unexplored. In this study, we aimed to characterize the links between the expressions of repeat/transposable elements with disease progression and survival in glioma patients. Hence, we analyzed the expression levels of satellite repeats and transposons along with genes in low-grade glioma (LGG) and high-grade glioma (HGG). Endogenous transposable elements LTR5 and HERV_a-int exhibited higher expression in HGG patients, along with immune response-related genes. Altogether, 16 transposable elements were associated with slower progression of disease in LGG patients. Conversely, 22 transposons and the HSAT5 satellite repeat were linked to a shorter event-free survival in HGG patients. Intriguingly, our weighted gene coexpression network analysis (WGCNA) disclosed that the HSAT5 satellite repeat resided in the same module network with genes implicated in chromosome segregation and nuclear division; potentially hinting at its contribution to disease pathogenesis. Collectively, we report for the first time that repeat and/or transposon expression could be related to disease progression and survival in glioma. The expressions of these elements seem to exert a protective effect during LGG-to-HGG progression, whereas they could have a detrimental impact once HGG is established. The results presented herein could serve as a foundation for further experimental work aimed at elucidating the molecular regulation of glioma genome. [ABSTRACT FROM AUTHOR]

Published

2024

19. Genome‐wide methylation landscape during somatic embryogenesis in Medicago truncatula reveals correlation between Tnt1 retrotransposition and hyperactive methylation regions.

Author

Nandety, Raja Sekhar, Oh, Sunhee, Lee, Hee‐Kyung, Krom, Nick, Gupta, Rajeev, and Mysore, Kirankumar S.

Subjects

*MEDICAGO, *MEDICAGO truncatula, *METHYLATION, *NITROGEN fixation, *RNA polymerases, *PROMOTERS (Genetics), *SOMATIC embryogenesis, *ROOT-tubercles

Abstract

SUMMARY: Medicago truncatula is a model legume for fundamental research on legume biology and symbiotic nitrogen fixation. Tnt1, a retrotransposon from tobacco, was used to generate insertion mutants in M. truncatula R108. Approximately 21 000 insertion lines have been generated and publicly available. Tnt1 retro‐transposition event occurs during somatic embryogenesis (SE), a pivotal process that triggers massive methylation changes. We studied the SE of M. truncatula R108 using leaf explants and explored the dynamic shifts in the methylation landscape from leaf explants to callus formation and finally embryogenesis. Higher cytosine methylation in all three contexts of CG, CHG, and CHH patterns was observed during SE compared to the controls. Higher methylation patterns were observed in assumed promoter regions (~2‐kb upstream regions of transcription start site) of the genes, while lowest was recorded in the untranslated regions. Differentially methylated promoter region analysis showed a higher CHH methylation in embryogenesis tissue samples when compared to CG and CHG methylation. Strong correlation (89.71%) was identified between the differentially methylated regions (DMRs) and the site of Tnt1 insertions in M. truncatula R108 and stronger hypermethylation of genes correlated with higher number of Tnt1 insertions in all contexts of CG, CHG, and CHH methylation. Gene ontology enrichment and KEGG pathway enrichment analysis identified genes and pathways enriched in the signal peptide processing, ATP hydrolysis, RNA polymerase activity, transport, secondary metabolites, and nitrogen metabolism pathways. Combined gene expression analysis and methylation profiling showed an inverse relationship between methylation in the DMRs (regions spanning genes) and the expression of genes. Our results show that a dynamic shift in methylation happens during the SE process in the context of CG, CHH and CHG methylation, and the Tnt1 retrotransposition correlates with the hyperactive methylation regions. Significance Statement: Dynamic shift in methylation happens during the somatic embryogenesis process in Medicago truncatula. [ABSTRACT FROM AUTHOR]

Published

2024

20. DNASCANNER v2: A Web-Based Tool to Analyze the Characteristic Properties of Nucleotide Sequences.

Author

P, Preeti, Riyaz, Azeen, Choudhury, Alakto, Choudhury, Priyanka Ray, Pradhan, Nischal, Singh, Abhishek, Nakul, Mihir, Dudeja, Chhavi, Yadav, Abhijeet, Nath, Swarsat Kaushik, Khanna, Vrinda, Sharma, Trapti, Pradhan, Gayatri, Takkar, Simran, and Rawal, Kamal

Subjects

*NUCLEOTIDE sequence, *DNA analysis, *DNA structure, *PYTHON programming language, *DEEP learning

Abstract

Throughout the process of evolution, DNA undergoes the accumulation of distinct mutations, which can often result in highly organized patterns that serve various essential biological functions. These patterns encompass various genomic elements and provide valuable insights into the regulatory and functional aspects of DNA. The physicochemical, mechanical, thermodynamic, and structural properties of DNA sequences play a crucial role in the formation of specific patterns. These properties contribute to the three-dimensional structure of DNA and influence their interactions with proteins, regulatory elements, and other molecules. In this study, we introduce DNASCANNER v2, an advanced version of our previously published algorithm DNASCANNER for analyzing DNA properties. The current tool is built using the FLASK framework in Python language. Featuring a user-friendly interface tailored for nonspecialized researchers, it offers an extensive analysis of 158 DNA properties, including mono/di/trinucleotide frequencies, structural, physicochemical, thermodynamics, and mechanical properties of DNA sequences. The tool provides downloadable results and offers interactive plots for easy interpretation and comparison between different features. We also demonstrate the utility of DNASCANNER v2 in analyzing splice-site junctions, casposon insertion sequences, and transposon insertion sites (TIS) within the bacterial and human genomes, respectively. We also developed a deep learning module for the prediction of potential TIS in a given nucleotide sequence. In the future, we aim to optimize the performance of this prediction model through extensive training on larger data sets. [ABSTRACT FROM AUTHOR]

Published

2024

21. Transposons Carrying the aacC2e Aminoglycoside and blaTEM Beta-Lactam Resistance Genes in Acinetobacter.

Author

Tobin, Liam A., Cain, Amy K., Djordjevic, Steven P., and Hamidian, Mehrad

Subjects

*LACTAMS, *TRANSPOSONS, *MOBILE genetic elements, *ACINETOBACTER, *VIBRIO cholerae, *ACINETOBACTER baumannii, *GRAM-negative bacteria

Abstract

This study examines the genetic contexts and evolutionary steps responsible for the formation of the widely spread transposon Tn6925 carrying blaTEM and aacC2e, which confers resistance to beta-lactam and aminoglycoside antibiotics in Gram-negative bacteria. The blaTEM-1 and aacC2e genes were found in several transposons. They were first observed within an IS26 bounded 3.7 kb transposon (Tn6925) on several Acinetobacter baumannii plasmids located within a 4.7 kb dif module. Truncated and expanded variations of Tn6925 were found across other A. baumannii plasmids, as well as in other Gram-negative bacteria (including Vibrio cholerae). Moreover, blaTEM-1 and aacC2e were in much larger resistance-heavy transposons including the ISAba1-bounded 24.6 kb (here called Tn6927), found in an A. baumannii chromosome. A novel ISKpn12-bounded transposon was also observed to contain blaTEM and aacC2e which was found interrupting Tn5393 along with an IS26 pseudo-compound transposon to form a 24.9 kb resistance island in an Acinetobacter pittii plasmid. Multiple mobile genetic elements are involved in the formation of transposon structures that circulate blaTEM and aacC2e. Among these, IS26 and ISAba1 appear to have played a major role in the formation and spread of these elements in the Acinetobacter species. [ABSTRACT FROM AUTHOR]

Published

2024

22. Activity and Silencing of Transposable Elements in C. elegans.

Author

Fischer, Sylvia E. J.

Subjects

TRANSPOSONS, GENE silencing, GENE expression, RNA interference, RETROTRANSPOSONS, CAENORHABDITIS elegans

Abstract

Since the discovery of transposable elements (TEs) in maize in the 1940s by Barbara McClintock transposable elements have been described as junk, as selfish elements with no benefit to the host, and more recently as major determinants of genome structure and genome evolution. TEs are DNA sequences that are capable of moving to new sites in the genome and making additional copies of themselves while doing so. To limit the propagation of TEs, host silencing mechanisms are directed at transposon-encoded genes that are required for mobilization. The mutagenic properties of TEs, the potential of TEs to form new genes and affect gene expression, together with the host silencing mechanisms, shape eukaryotic genomes and drive genome evolution. While TEs constitute more than half of the genome in many higher eukaryotes, transposable elements in the nematode C. elegans form a relatively small proportion of the genome (approximately 15%). Genetic studies of transposon silencing, and the discovery of RNA interference (RNAi) in C. elegans, propelled Caenorhabditis elegans (C. elegans) to the forefront of studies of RNA-based mechanisms that silence TEs. Here, I will review the transposable elements that are present and active in the C. elegans genome, and the host defense mechanisms that silence these elements. [ABSTRACT FROM AUTHOR]

Published

2024

23. Tetracycline‐Inducible and Reversible Stable Gene Expression in Human iPSC‐Derived Neural Progenitors and in the Postnatal Mouse Brain

Author

Linesch, Paul W, Akhtar, Aslam Abbasi, and Breunig, Joshua J

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Stem Cell Research - Embryonic - Non-Human, Neurosciences, Stem Cell Research - Induced Pluripotent Stem Cell, Regenerative Medicine, Genetics, Stem Cell Research, Biotechnology, Stem Cell Research - Induced Pluripotent Stem Cell - Human, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Humans, Animals, Mice, Doxycycline, Induced Pluripotent Stem Cells, Genes, Reporter, Genetic Vectors, DNA Transposable Elements, Anti-Bacterial Agents, Tetracycline, Luciferases, Gene Expression, Brain, Mammals, directed differentiation, iPSC, safe harbor site, transgenesis, transposon

Abstract

Our group has developed several approaches for stable, non-viral integration of inducible transgenic elements into the genome of mammalian cells. Specifically, a piggyBac tetracycline-inducible genetic element of interest (pB-tet-GOI) plasmid system allows for stable piggyBac transposition-mediated integration into cells, identification of cells that have been transfected using a fluorescent nuclear reporter, and robust transgene activation or suppression upon the addition of doxycycline (dox) to the cell culture or the diet of the animal. Furthermore, the addition of luciferase downstream of the target gene allows for quantitative assessment of gene activity in a non-invasive manner. More recently, we have developed a transgenic system as an alternative to piggyBac called mosaic analysis by dual recombinase-mediated cassette exchange (MADR), as well as additional in vitro transfection techniques and in vivo dox chow applications. The protocols herein provide instructions for the use of this system in cell lines and in the neonatal mouse brain. © 2023 Wiley Periodicals LLC. Basic Protocol 1: Cloning of respective genetic element of interest (GOI) into response plasmid Basic Protocol 2: In vitro nucleofection of iPSC-derived human/mouse neural progenitor cells and subsequent derivation of stable inducible cell lines Alternate Protocol: In vitro electroporation of iPSC-derived human/mouse neural progenitor cells Support Protocol: Recovery stage after in vitro transfection Basic Protocol 3: Adding doxycycline to cells to induce/reverse GOI Basic Protocol 4: Assessing gene expression in vitro by non-invasive bioluminescence imaging of luciferase activity.

Published

2023

24. Metabolic engineering of low-pH-tolerant non-model yeast, Issatchenkia orientalis, for production of citramalate

Author

Wu, Zong-Yen, Sun, Wan, Shen, Yihui, Pratas, Jimmy, Suthers, Patrick F, Hsieh, Ping-Hung, Dwaraknath, Sudharsan, Rabinowitz, Joshua D, Maranas, Costas D, Shao, Zengyi, and Yoshikuni, Yasuo

Subjects

Genetics, Acid tolerance, Citramalate, Issatchenkia orientalis, Poly(methyl methacrylate), Transposon

Abstract

Methyl methacrylate (MMA) is an important petrochemical with many applications. However, its manufacture has a large environmental footprint. Combined biological and chemical synthesis (semisynthesis) may be a promising alternative to reduce both cost and environmental impact, but strains that can produce the MMA precursor (citramalate) at low pH are required. A non-conventional yeast, Issatchenkia orientalis, may prove ideal, as it can survive extremely low pH. Here, we demonstrate the engineering of I. orientalis for citramalate production. Using sequence similarity network analysis and subsequent DNA synthesis, we selected a more active citramalate synthase gene (cimA) variant for expression in I. orientalis. We then adapted a piggyBac transposon system for I. orientalis that allowed us to simultaneously explore the effects of different cimA gene copy numbers and integration locations. A batch fermentation showed the genome-integrated-cimA strains produced 2.0 g/L citramalate in 48 h and a yield of up to 7% mol citramalate/mol consumed glucose. These results demonstrate the potential of I. orientalis as a chassis for citramalate production.

Published

2023

25. Activity and Silencing of Transposable Elements in C. elegans

Author

Sylvia E. J. Fischer

Subjects

transposable element (TE), RNA interference (RNAi), transposon, retrotransposon, silencing, small interfering RNA (siRNA), Biochemistry, QD415-436

Abstract

Since the discovery of transposable elements (TEs) in maize in the 1940s by Barbara McClintock transposable elements have been described as junk, as selfish elements with no benefit to the host, and more recently as major determinants of genome structure and genome evolution. TEs are DNA sequences that are capable of moving to new sites in the genome and making additional copies of themselves while doing so. To limit the propagation of TEs, host silencing mechanisms are directed at transposon-encoded genes that are required for mobilization. The mutagenic properties of TEs, the potential of TEs to form new genes and affect gene expression, together with the host silencing mechanisms, shape eukaryotic genomes and drive genome evolution. While TEs constitute more than half of the genome in many higher eukaryotes, transposable elements in the nematode C. elegans form a relatively small proportion of the genome (approximately 15%). Genetic studies of transposon silencing, and the discovery of RNA interference (RNAi) in C. elegans, propelled Caenorhabditis elegans (C. elegans) to the forefront of studies of RNA-based mechanisms that silence TEs. Here, I will review the transposable elements that are present and active in the C. elegans genome, and the host defense mechanisms that silence these elements.

Published

2024

26. The massive 340 megabase genome of Anisogramma anomala, a biotrophic ascomycete that causes eastern filbert blight of hazelnut

Author

Alanna B. Cohen, Guohong Cai, Dana C. Price, Thomas J. Molnar, Ning Zhang, and Bradley I. Hillman

Subjects

Ascomycete, Plant pathogen, Repeat-induced point mutation, Mating type gene, Transposon, Effector, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The ascomycete fungus Anisogramma anomala causes Eastern Filbert Blight (EFB) on hazelnut (Corylus spp.) trees. It is a minor disease on its native host, the American hazelnut (C. americana), but is highly destructive on the commercially important European hazelnut (C. avellana). In North America, EFB has historically limited commercial production of hazelnut to west of the Rocky Mountains. A. anomala is an obligately biotrophic fungus that has not been grown in continuous culture, rendering its study challenging. There is a 15-month latency before symptoms appear on infected hazelnut trees, and only a sexual reproductive stage has been observed. Here we report the sequencing, annotation, and characterization of its genome. Results The genome of A. anomala was assembled into 108 scaffolds totaling 342,498,352 nt with a GC content of 34.46%. Scaffold N50 was 33.3 Mb and L50 was 5. Nineteen scaffolds with lengths over 1 Mb constituted 99% of the assembly. Telomere sequences were identified on both ends of two scaffolds and on one end of another 10 scaffolds. Flow cytometry estimated the genome size of A. anomala at 370 Mb. The genome exhibits two-speed evolution, with 93% of the assembly as AT-rich regions (32.9% GC) and the other 7% as GC-rich (57.1% GC). The AT-rich regions consist predominantly of repeats with low gene content, while 90% of predicted protein coding genes were identified in GC-rich regions. Copia-like retrotransposons accounted for more than half of the genome. Evidence of repeat-induced point mutation (RIP) was identified throughout the AT-rich regions, and two copies of the rid gene and one of dim-2, the key genes in the RIP mutation pathway, were identified in the genome. Consistent with its homothallic sexual reproduction cycle, both MAT1-1 and MAT1-2 idiomorphs were found. We identified a large suite of genes likely involved in pathogenicity, including 614 carbohydrate active enzymes, 762 secreted proteins and 165 effectors. Conclusions This study reveals the genomic structure, composition, and putative gene function of the important pathogen A. anomala. It provides insight into the molecular basis of the pathogen’s life cycle and a solid foundation for studying EFB.

Published

2024

27. Decoding Neurological Mysteries: The Potential Impact of Endogenous Retroviruses on Brain Health

Author

Jiaqi Li, Liyong Liao, Xixi Liu, Yueyan Zhu, Daijing Sun, Chenchun Zhang, and Yan Jiang

Subjects

endogenous retroviruses, dna repeats, transposon, neurodegenerative disease, psychiatric disorder, neuroinflammation, Psychology, BF1-990, Genetics, QH426-470

Abstract

Endogenous retroviruses (ERVs), remnants of ancient viral invasions, make up a significant part of the mammalian genomes. ERVs are typically held in check by complex epigenetic mechanisms, which serve to limit their expansion and potential adverse effects on the genome. However, ERVs can become aberrantly activated in response to stressful challenges, contributing to progression in pathological conditions, including cancer, inflammation, auto-immune disorders, and aging, through various mechanisms. Notably, ERV activation is also detected in the brain and is increasingly recognized as an important factor in neuropsychiatric disorders. In this review, we encapsulate the general understanding of ERVs in both physiological and pathological states and compiled evidence for ERV activation across a spectrum of neuropsychiatric disorders, along with current studies exploring the underlying mechanisms. Despite the accumulating body of evidence, research in this field remains in its infancy and faces substantial challenges. Further studies are warranted to enhance our understanding of ERV activation mechanisms and their roles in neuropsychological conditions, potentially contributing to the development of innovative therapeutic interventions.

Published

2024

28. Divergent composition and transposon-silencing activity of small RNAs in mammalian oocytes

Author

Li Hou, Wei Liu, Hongdao Zhang, Ronghong Li, Miao Liu, Huijuan Shi, and Ligang Wu

Subjects

piRNA, PIWI, Transposon, Endo-siRNA, Oocytes, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Small RNAs are essential for germ cell development and fertilization. However, fundamental questions remain, such as the level of conservation in small RNA composition between species and whether small RNAs control transposable elements in mammalian oocytes. Results Here, we use high-throughput sequencing to profile small RNAs and poly(A)-bearing long RNAs in oocytes of 12 representative vertebrate species (including 11 mammals). The results show that miRNAs are generally expressed in the oocytes of each representative species (although at low levels), whereas endo-siRNAs are specific to mice. Notably, piRNAs are predominant in oocytes of all species (except mice) and vary widely in length. We find PIWIL3-associated piRNAs are widespread in mammals and generally lack 3′-2′-O-methylation. Additionally, sequence identity is low between homologous piRNAs in different species, even among those present in syntenic piRNA clusters. Despite the species-specific divergence, piRNAs retain the capacity to silence younger TE subfamilies in oocytes. Conclusions Collectively, our findings illustrate a high level of diversity in the small RNA populations of mammalian oocytes. Furthermore, we identify sequence features related to conserved roles of small RNAs in silencing TEs, providing a large-scale reference for future in-depth study of small RNA functions in oocytes.

Published

2024

29. piRNA-Guided Transposon Silencing and Response to Stress in Drosophila Germline.

Author

Ho, Samantha, Theurkauf, William, and Rice, Nicholas

Subjects

*TRANSPOSONS, *GERM cells, *DROSOPHILA, *DROSOPHILA melanogaster, *NON-coding RNA, *GENE silencing

Abstract

Transposons are integral genome constituents that can be domesticated for host functions, but they also represent a significant threat to genome stability. Transposon silencing is especially critical in the germline, which is dedicated to transmitting inherited genetic material. The small Piwi-interacting RNAs (piRNAs) have a deeply conserved function in transposon silencing in the germline. piRNA biogenesis and function are particularly well understood in Drosophila melanogaster, but some fundamental mechanisms remain elusive and there is growing evidence that the pathway is regulated in response to genotoxic and environmental stress. Here, we review transposon regulation by piRNAs and the piRNA pathway regulation in response to stress, focusing on the Drosophila female germline. [ABSTRACT FROM AUTHOR]

Published

2024

30. An optimized polymeric delivery system for piggyBac transposition.

Author

Meenakshi Sundaram, Daniel Nisakar, Bahadur K. C., Remant, Fu, Wei, and Uludağ, Hasan

Abstract

The piggyBac transposon/transposase system has been explored for long‐term, stable gene expression to execute genomic integration of therapeutic genes, thus emerging as a strong alternative to viral transduction. Most studies with piggyBac transposition have employed physical methods for successful delivery of the necessary components of the piggyBac system into the cells. Very few studies have explored polymeric gene delivery systems. In this short communication, we report an effective delivery system based on low molecular polyethylenimine polymer with lipid substitution (PEI‐L) capable of delivering three components, (i) a piggyBac transposon plasmid DNA carrying a gene encoding green fluorescence protein (PB‐GFP), (ii) a piggyBac transposase plasmid DNA or mRNA, and (iii) a 2 kDa polyacrylic acid as additive for transfection enhancement, all in a single complex. We demonstrate an optimized formulation for stable GFP expression in two model cell lines, MDA‐MB‐231 and SUM149 recorded till day 108 (3.5 months) and day 43 (1.4 months), respectively, following a single treatment with very low cell number as starting material. Moreover, the stability of the transgene (GFP) expression mediated by piggyBac/PEI‐L transposition was retained following three consecutive cryopreservation cycles. The success of this study highlights the feasibility and potential of employing a polymeric delivery system to obtain piggyBac‐based stable expression of therapeutic genes. [ABSTRACT FROM AUTHOR]

Published

2024

31. Molecular Epidemiology of Carbapenem-Resistant Klebsiella aerogenes in Japan.

Author

Takei, Kentarou, Ogawa, Miho, Sakata, Ryuji, and Kanamori, Hajime

Subjects

*MOBILE genetic elements, *WHOLE genome sequencing, *GENETIC testing, *INTEGRONS, *HEALTH facilities, *MOLECULAR epidemiology, *CARBAPENEM-resistant bacteria

Abstract

Information regarding Klebsiella aerogenes haboring carbapenemase in Japan is limited. A comprehensive nationwide survey was conducted from September 2014 to December 2022, and 67 non-duplicate strains of carbapenem-resistant K. aerogenes were isolated from 57 healthcare facilities in Japan. Through genetic testing and whole-genome sequencing, six strains were found to possess carbapenemases, including imipenemase (IMP)-1, IMP-6, New Delhi metallo-β-lactamase (NDM)-1, and NDM-5. The strain harboring blaNDM-5 was the novel strain ST709, which belongs to the clonal complex of the predominant ST4 in China. The novel integron containing blaIMP-1 featured the oxacillinase-101 gene, which is a previously unreported structure, with an IncN4 plasmid type. However, integrons found in the strains possessing blaIMP-6, which were the most commonly identified, matched those reported domestically in Klebsiella pneumoniae, suggesting the prevalence of identical integrons. Transposons containing blaNDM are similar or identical to the transposon structure of K. aerogenes harboring blaNDM-5 previously reported in Japan, suggesting that the same type of transposon could have been transmitted to K. aerogenes in Japan. This investigation analyzed mobile genetic elements, such as integrons and transposons, to understand the spread of carbapenemases, highlighting the growing challenge of carbapenem-resistant Enterobacterales in Japan and underscoring the critical need for ongoing surveillance to control these pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

32. Disruption of RGD1 Gene Improves Acetic Acid Tolerance in Saccharomyces cerevisiae.

Author

Kim, H. S.

Subjects

*GENE libraries, *ACETIC acid, *GENES, *PHENOTYPES, *SACCHAROMYCES cerevisiae, *SACCHAROMYCES

Abstract

This study aimed to identify genes related to acetic acid tolerance and elucidate the tolerance mechanism in yeast Saccharomyces cerevisiae as an appropriate eukaryote model. In this study, one tolerant strain exposed to acetic acid stress was isolated by screening a transposon-mediated mutant library and the disrupted gene was identified to be RGD1. In addition, this phenotype related to acetic acid tolerance was confirmed by deletion and overexpressing of this corresponding gene. This mutant strain showed activation of Hog1p and increased expression of the MSN2/4 and STRE-mediated genes such as CTT1 and HSP12 in response to acetic acid stress. [ABSTRACT FROM AUTHOR]

Published

2024

33. Earl Grey: A Fully Automated User-Friendly Transposable Element Annotation and Analysis Pipeline.

Author

Baril, Tobias, Galbraith, James, and Hayward, Alex

Subjects

EUKARYOTIC genomes, DROSOPHILA melanogaster, PIPELINE failures, ANNOTATIONS, MODULAR construction, QUALITY control, PRODUCTION standards

Abstract

Transposable elements (TEs) are major components of eukaryotic genomes and are implicated in a range of evolutionary processes. Yet, TE annotation and characterization remain challenging, particularly for nonspecialists, since existing pipelines are typically complicated to install, run, and extract data from. Current methods of automated TE annotation are also subject to issues that reduce overall quality, particularly (i) fragmented and overlapping TE annotations, leading to erroneous estimates of TE count and coverage, and (ii) repeat models represented by short sections of total TE length, with poor capture of 5′ and 3′ ends. To address these issues, we present Earl Grey, a fully automated TE annotation pipeline designed for user-friendly curation and annotation of TEs in eukaryotic genome assemblies. Using nine simulated genomes and an annotation of Drosophila melanogaster , we show that Earl Grey outperforms current widely used TE annotation methodologies in ameliorating the issues mentioned above while scoring highly in benchmarking for TE annotation and classification and being robust across genomic contexts. Earl Grey provides a comprehensive and fully automated TE annotation toolkit that provides researchers with paper-ready summary figures and outputs in standard formats compatible with other bioinformatics tools. Earl Grey has a modular format, with great scope for the inclusion of additional modules focused on further quality control and tailored analyses in future releases. [ABSTRACT FROM AUTHOR]

Published

2024

34. ER membrane complex (EMC): Structure, functions, and roles in diseases.

Author

Zhu, Qi, Zhu, Xianjun, and Zhang, Lin

Abstract

The endoplasmic reticulum (ER) is the largest membrane system in eukaryotic cells and is the primary site for the biosynthesis of lipids and carbohydrates, as well as for the folding, assembly, modification, and transport of secreted and integrated membrane proteins. The ER membrane complex (EMC) on the ER membrane is an ER multiprotein complex that affects the quality control of membrane proteins, which is abundant and widely preserved. Its disruption has been found to affect a wide range of processes, including protein and lipid synthesis, organelle communication, endoplasmic reticulum stress, and viral maturation, and may lead to neurodevelopmental disorders and cancer. Therefore, EMC has attracted the attention of many scholars and become a hot field. In this paper, we summarized the main contributions of the research of EMC in the past nearly 15 years, and reviewed the structure and function of EMC as well as its related diseases. We hope this review will promote further progress of research on EMC. [ABSTRACT FROM AUTHOR]

Published

2024

35. Transposable elements contribute to the establishment of the glycine shuttle in Brassicaceae species.

Author

Triesch, S., Denton, A. K., Bouvier, J. W., Buchmann, J. P., Reichel‐Deland, V., Guerreiro, R. N. F. M., Busch, N., Schlüter, U., Stich, B., Kelly, S., and Weber, A. P. M.

Subjects

*GLYCINE, *GENE expression, *GENE regulatory networks, *BRASSICACEAE, *SPECIES, *ULTRASTRUCTURE (Biology), *PHOTOSYNTHESIS

Abstract

C3‐C4 intermediate photosynthesis has evolved at least five times convergently in the Brassicaceae, despite this family lacking bona fide C4 species. The establishment of this carbon concentrating mechanism is known to require a complex suite of ultrastructural modifications, as well as changes in spatial expression patterns, which are both thought to be underpinned by a reconfiguration of existing gene‐regulatory networks. However, to date, the mechanisms which underpin the reconfiguration of these gene networks are largely unknown.In this study, we used a pan‐genomic association approach to identify genomic features that could confer differential gene expression towards the C3‐C4 intermediate state by analysing eight C3 species and seven C3‐C4 species from five independent origins in the Brassicaceae.We found a strong correlation between transposable element (TE) insertions in cis‐regulatory regions and C3‐C4 intermediacy. Specifically, our study revealed 113 gene models in which the presence of a TE within a gene correlates with C3‐C4 intermediate photosynthesis. In this set, genes involved in the photorespiratory glycine shuttle are enriched, including the glycine decarboxylase P‐protein whose expression domain undergoes a spatial shift during the transition to C3‐C4 photosynthesis. When further interrogating this gene, we discovered independent TE insertions in its upstream region which we conclude to be responsible for causing the spatial shift in GLDP1 gene expression.Our findings hint at a pivotal role of TEs in the evolution of C3‐C4 intermediacy, especially in mediating differential spatial gene expression. [ABSTRACT FROM AUTHOR]

Published

2024

36. A Novel Transposon Tn 7709 Harbors Multidrug Resistance Genes in a Pathogenic Aeromonas media Strain QST31.

Author

Shang, Baodi, Li, Xiaoyi, Zhang, Xiaoping, Zhang, Meiyan, Kong, Jie, Wang, Jinle, Tan, Aiping, Zhao, Feng, and Zhang, Defeng

Subjects

MULTIDRUG resistance, AEROMONAS, ANIMAL disease control, GENES, DRUG resistance in microorganisms, ANIMAL health, QUORUM sensing

Abstract

Pathogenic Aeromonas spp. are the etiological agents of Motile Aeromonas Septicemia (MAS). This study aimed to identify the pathogen of diseased tadpoles (Quasipaa spinosa) and the antibiotic-resistance characteristics of this bacterium. A Gram-negative bacterium, named strain QST31, was isolated from the ascites of diseased tadpoles and was identified as Aeromonas media based on physiological and biochemical tests, as well as molecular identification. Artificial infection experiments showed that strain QST31 was highly virulent to tadpoles, with an LC50 of 2.56 × 107 CFU/mL. The antimicrobial susceptibility of strain QST31 was evaluated using the disk diffusion method, and the results indicated that strain QST31 was resistant to 28 antibacterial agents. In addition, the whole genome of strain QST31 was sequenced, and the presence of antimicrobial resistance genes, integron, and transposon was investigated. Genes involved in adherence, hemolysis, type II secretion system (T2SS), T6SS, iron uptake system, and quorum sensing were identified in the genome of strain QST31. More than 12 antimicrobial resistance genes were predicted in the genome of strain QST31. Interestingly, a novel Tn7709 transposon harboring sul1, aadA16, catB3, blaOXA-21, aac(6′)-IIa, and tet(A) genes was identified. In conclusion, this is the first report on the isolation and identification of pathogenic A. media with multidrug resistance genes from diseased tadpoles. The results revealed that preventing and controlling aquatic animal diseases caused by multidrug resistance A. media will be a huge challenge in the future. [ABSTRACT FROM AUTHOR]

Published

2024

37. A deoxyviolacein‐based transposon insertion vector for pigmented tracer studies

Author

Benjamin R. Dietz, Tyler J. Nelson, Neil E. Olszewski, and Brett M. Barney

Subjects

deoxyviolacein, endophyte, pigment production, screening, transposon, Microbiology, QR1-502

Abstract

Abstract Pigments provide a simple means to rapidly visually ascertain the quantities or presence of specific microbes in a complex community. The selection of pigment‐producing colonies that are simple to differentiate from common colony phenotypes provides a high degree of certainty for the identity of pigment‐tagged strains. Successful employment of pigment production is dependent on various intrinsic factors related to proper levels of gene expression and pigment production that are not always easy to predict and vary within each microbe. We have constructed a simple transposon system that incorporates the genes for the production of deoxyviolacein, a pigment produced from intracellular reserves of the amino acid tryptophan, to randomly insert these genes throughout the genome. This tool allows the user to select from many thousands of potential sites throughout a bacterial genome for an ideal location to generate the desired amount of pigment. We have applied this system to a small selection of endophytes and other model bacteria to differentiate these strains from complex communities and confirm their presence after several weeks in natural environments. We provide two examples of applications using the pigments to trace strains following introduction into plant tissues or to produce a reporter strain for extracellular nitrogen compound sensing. We recognize that this tool could have far broader utility in other applications and microbes, and describe the methodology for use by the greater scientific community.

Published

2024

38. A Naturally Active Spy Transposon Discovered from the Insect Genome of Colletes gigas as a Promising Novel Gene Transfer Tool

Author

Mohamed Diaby, Han Wu, Bo Gao, Shasha Shi, Bingqing Wang, Saisai Wang, Yali Wang, Zherui Wu, Cai Chen, Xiaoyan Wang, and Chengyi Song

Subjects

chimeric antigen receptor (CAR‐T), cgSpy, gene delivery, transposon, Science

Abstract

Abstract Novel active DNA transposons, such as Spy transposons from the PHIS superfamily, are identified through bioinformatics in this study. The native transposases cgSpy and cvSpy displayed transposition activities of approximately 85% and 35% compared to the hyperactive piggyBac transposase (hyPB). The cgSpy transposon showed unique characteristics, including a lack of overproduction inhibition and reduced efficiency for insertion sizes between 3.1 to 8.5 kb. Integration preferences of cgSpy are found in genes and regulatory regions, making it suitable for genetic manipulation. Evaluation in T‐cell engineering demonstrated that cgSpy‐mediated chimeric antigen receptor (CAR) modification is comparable to the PB system, indicating its potential utility in cell therapy. This study unveils the promising application of the active native transposase, Spy, from Colletes gigas, as a valuable tool for genetic engineering, particularly in T‐cell manipulation.

Published

2024

39. Double blaKPC-2 copies quadrupled minimum inhibitory concentration of ceftazidime–avibactam in hospital-derived Klebsiella pneumoniae

Author

Dakang Hu, Shijie Wang, Mengqiao Xu, Jin Zhang, Xinhua Luo, Wei Zhou, Qinfei Ma, and Xiaobo Ma

Subjects

Klebsiella pneumoniae, ceftazidime–avibactam, drug resistance, transposon, KPC-2, Microbiology, QR1-502

Abstract

ABSTRACT To illustrate the genomic and drug resistance traits of the Klebsiella pneumoniae Kpn_XM9, which harbors a transposon (Tn) As1 and was barely susceptible to ceftazidime–avibactam (CZA). Whole-genome sequencing, gene deletion, antimicrobial susceptibility, and conjugation tests were carried out to illustrate the traits of Kpn_XM9. As confirmed by whole-genome sequencing, the Kpn_XM9 harbored a 5,523,536 bp chromosome and five plasmids with lengths being 128,129, 196,512, 84,812, 43,695, and 5,596 bp, respectively. Plasmid p1_Kpn_XM9 (128,219 bp) contained four resistance genes, blaCTX-M-65, blaTEM-1B, rmtB, and two copies of blaKPC-2. Genes blaKPC-2 were bracketed by ISKpn17 and ISKpn16 within a new composite Tn3-like TnAs1. The two tandem repeats, positioned opposite each other, were spaced 93,447 bp apart in p1_Kpn_XM9. Kpn_XM9 belonged to K64 and sequence type (ST) 11. The Kpn_XM9 was resistant to amikacin, aztreonam, ticarcillin/clavulanic acid, piperacillin/tazobactam, ceftazidime, cefepime, imipenem, meropenem, tobramycin, ciprofloxacin, levofloxacin, doxycycline, minocycline, tigecycline, colistin, and trimethoprim/sulfamethoxazole; it was barely susceptible to CZA with a minimum inhibitory concentration of 8/4 µg/mL, which declined to 2/4 µg/mL after a 18,555 bp nucleotide was knocked out and one copy of blaKPC-2 was sustained on p1_Kpn_XM9. Kpn_XM9 had virulence genes encoding Types 1 and 3 fimbriae, four siderophores, and capsular polysaccharide anchoring protein but no genes upregulating capsular polysaccharide synthesis. The Kpn_XM9 presented a classical phenotype with extreme drug resistance. The emergence of double copies of blaKPC-2 in a single plasmid from the predominant ST11 K. pneumoniae represents a new therapeutic challenge.IMPORTANCEWith the wide use of ceftazidime–avibactam against carbapenem-resistant organisms, its resistance is increasingly documented; among the corresponding resistance mechanisms, mutations of blaKPC-2 or blaKPC-3 into other subtypes are dominant to date. However, more copies of blaKPC-2 may also greatly increase the minimum inhibitory concentration of ceftazidime–avibactam, which could be conferred by transposon As1 and insertion sequence 26 and should be of concern.

Published

2024

40. The upregulated LsKN1 gene transforms pinnately to palmately lobed leaves through auxin, gibberellin, and leaf dorsiventrality pathways in lettuce

Author

Wang, Menglu, Lavelle, Dean, Yu, Changchun, Zhang, Weiyi, Chen, Jiongjiong, Wang, Xin, Michelmore, Richard W, and Kuang, Hanhui

Subjects

Biological Sciences, Genetics, Gibberellins, Indoleacetic Acids, Lettuce, Plant Leaves, Quantitative Trait Loci, palmately lobed leaves, pinnately lobed leaves, KNOX1, transposon, phytohormones, KNOX1, Technology, Medical and Health Sciences, Biotechnology, Agricultural biotechnology, Plant biology

Abstract

Leaf shape represents a vital agronomic trait for leafy vegetables such as lettuce. Some lettuce cultivars produce lobed leaves, varying from pinnately to palmately lobed, but the genetic mechanisms remain unclear. In this study, we cloned one major quantitative trait locus (QTL) controlling palmately lobed leaves. The candidate gene, LsKN1, encodes a homeobox transcription factor, and has been shown previously to be critical for the development of leafy heads in lettuce. The LsKN1 allele that is upregulated by the insertion of a transposon promotes the development of palmately lobed leaves. We demonstrated that LsKN1 upregulated LsCUC2 and LsCUC3 through different mechanisms, and their upregulation was critical for the development of palmately lobed leaves. LsKN1 binds the promoter of LsPID to promote auxin biosynthesis, which positively contributes to the development of palmately lobed leaves. In contrast, LsKN1 suppresses GA biosynthesis to promote palmately lobed leaves. LsKN1 also binds to the promoter of LsAS1, a dorsiventrality gene, to downregulate its expression. Overexpression of the LsAS1 gene compromised the effects of the LsKN1 gene changing palmately to pinnately lobed leaves. Our study illustrated that the upregulated LsKN1 gene led to palmately lobed leaves in lettuce by integrating several downstream pathways, including auxin, gibberellin, and leaf dorsiventrality pathways.

Published

2022

41. Heterologous production of 3-hydroxypropionic acid in Methylorubrum extorquens by introducing the mcr gene via a multi-round chromosomal integration system based on cre-lox71/lox66 and transposon

Author

Liping Zhu, Yazhen Song, Shunan Ma, and Song Yang

Subjects

Chromosomal integration, Cre, 3-hydroxypropionic acid, M. Extorquens AM1, Transposon, lox71/lox66, Microbiology, QR1-502

Abstract

Abstract Background and aim Reprogramming microorganisms to enhance the production of metabolites is a part of contemporary synthetic biology, which relies on the availability of genetic tools to successfully manipulate the bacteria. Methylorubrum extorquens AM1 is a platform microorganism used to convert C1 compounds into various value-added products. However, the repertoire of available plasmids to conveniently and quickly fine-tune the expression of multiple genes in this strain is extremely limited compared with other model microorganisms such as Escherichia coli. Thus, this study aimed to integrate existing technologies, such as transposon-mediated chromosomal integration and cre-lox-mediated recombination, to achieve the diversified expression of target genes through multiple chromosomal insertions in M. extorquens AM1. Results A single plasmid toolkit, pSL-TP-cre-km, containing a miniHimar1 transposon and an inducible cre-lox71/lox66 system, was constructed and characterized for its multiple chromosomal integration capacity. A co-transcribed mcr-egfp cassette [for the production of 3-hydroxypropionic acid (3-HP) and a reporting green fluorescent protein] was added to construct pTP-cre-mcr-egfp for evaluating its utility in mediating the expression of heterologous genes, resulting in the production of 3-HP with a titer of 34.7–55.2 mg/L by two chromosomal integration copies. Furthermore, in association with the expression of plasmid-based mcr, 3-HP production increased to 65.5–92.4 mg/L. Conclusions This study used a multi-round chromosomal integration system based on cre-lox71/lox66 and a transposon to construct a single constructed vector. A heterologous mcr gene was introduced through this vector, and high expression of 3-hydroxypropionic acid was achieved in M. extorquens. This study provided an efficient genetic tool for manipulating M. extorquens, which not only help increase the expression of heterologous genes in M. extorquens but also provide a reference for strains lacking genetic manipulation vectors.

Published

2024

42. The sixth Japanese meeting on biological function and evolution through interactions between hosts and transposable elements

Author

Kenji Ichiyanagi, Yoko Ikeda, and Kuniaki Saito

Subjects

Transposon, Retrotransposon, Epigenetics, Gene innovation, Evolution, Genetics, QH426-470

Abstract

Abstract The sixth Japanese meeting on host–transposon interactions, titled “Biological Function and Evolution through Interactions between Hosts and Transposable Elements,” was held on August 24th and 25th, 2023, at the National Institute of Genetics as well as online. This meeting was supported by the National Institute of Genetics and aimed to bring together researchers studying the diverse roles of TEs in genome function and evolution, as well as host defense systems against TE mobility, TE bursts during evolution, and intron mobility in mammals, insects, land plants, yeast, protozoa, and bacteria. Here, we have presented the highlights of the discussion. Organizers: Kenji Ichiyanagi, Yoko Ikeda, and Kuniaki Saito.

Published

2023

43. Long-term (10-year) monitoring of transposon-mediated transgenic cattle

Author

Yum, Soo-Young, Choi, Bae Young, Gim, Gyeong-Min, Eom, Kyeong-Hyeon, Lee, Seong-Beom, Kim, Daehyun, Lim, Euntaek, Kim, Do-Yoon, Heo, Seong-Eun, Shim, Donghwan, and Jang, Goo

Published

2024

44. Regulatory mechanism of heat-active retrotransposons by the SET domain protein SUVH2.

Author

Xiaoying Niu, Zhiyu Ge, and Hidetaka Ito

Subjects

PROTEIN domains, RETROTRANSPOSONS, TRANSPOSONS, DNA methylation, VARIEGATION, CHROMATIN

Abstract

New transposon insertions are deleterious to genome stability. The RNAdirected DNA methylation (RdDM) pathway evolved to regulate transposon activity via DNA methylation. However, current studies have not yet clearly described the transposition regulation. ONSEN is a heat-activated retrotransposon that is activated at 37°C. The plant-specific SUPPRESSOR OF VARIEGATION 3-9 HOMOLOG (SUVH) family proteins function downstream of the RdDM pathway. The SUVH protein families are linked to TE silencing by two pathways, one through DNA methylation and the other through chromatin remodeling. In this study, we analyzed the regulation of ONSEN activity by SUVH2. We observed that ONSEN transcripts were increased; however, there was no transpositional activity in Arabidopsis suvh2 mutant. The suvh2 mutant produced siRNAs from the ONSEN locus under heat stress, suggesting that siRNAs are involved in suppressing transposition. These results provide new insights into the regulatory mechanisms of retrotransposons that involve siRNA in the RdDM pathway. [ABSTRACT FROM AUTHOR]

Published

2024

45. Antiviral Defence Mechanisms during Early Mammalian Development.

Author

Mueller, Felix, Witteveldt, Jeroen, and Macias, Sara

Subjects

*TYPE I interferons, *EMBRYOLOGY, *EMBRYONIC stem cells

Abstract

The type-I interferon (IFN) response constitutes the major innate immune pathway against viruses in mammals. Despite its critical importance for antiviral defence, this pathway is inactive during early embryonic development. There seems to be an incompatibility between the IFN response and pluripotency, the ability of embryonic cells to develop into any cell type of an adult organism. Instead, pluripotent cells employ alternative ways to defend against viruses that are typically associated with safeguard mechanisms against transposable elements. The absence of an inducible IFN response in pluripotent cells and the constitutive activation of the alternative antiviral pathways have led to the hypothesis that embryonic cells are highly resistant to viruses. However, some findings challenge this interpretation. We have performed a meta-analysis that suggests that the susceptibility of pluripotent cells to viruses is directly correlated with the presence of receptors or co-receptors for viral adhesion and entry. These results challenge the current view of pluripotent cells as intrinsically resistant to infections and raise the fundamental question of why these cells have sacrificed the major antiviral defence pathway if this renders them susceptible to viruses. [ABSTRACT FROM AUTHOR]

Published

2024

46. Outbreak of Pseudomonas aeruginosa High-Risk Clone ST309 Serotype O11 Featuring bla PER-1 and qnrVC6.

Author

Papa-Ezdra, Romina, Outeda, Matilde, Cordeiro, Nicolás F., Araújo, Lucía, Gadea, Pilar, Garcia-Fulgueiras, Virginia, Seija, Verónica, Bado, Inés, and Vignoli, Rafael

Subjects

PSEUDOMONAS aeruginosa, NOSOCOMIAL infections, BIOMASS, MEROPENEM, DRUG resistance in bacteria, KLEBSIELLA pneumoniae, PSEUDOMONADACEAE

Abstract

Pseudomonas aeruginosa is a leading cause of hospital-acquired infections worldwide. Biofilm production, antibiotic resistance, and a wide range of virulence factors contribute to their persistence in nosocomial environments. We describe an outbreak caused by a multidrug-resistant P. aeruginosa strain in an ICU. Antibiotic susceptibility was determined and blaPER-1 and qnrVC were amplified via PCR. Clonality was determined using PFGE and biofilm formation was studied with a static model. A combination of antibiotics was assessed on both planktonic cells and biofilms. WGS was performed on five isolates. All isolates were clonally related, resistant to ceftazidime, cefepime, amikacin, and ceftolozane-tazobactam, and harbored blaPER-1; 11/19 possessed qnrVC. Meropenem and ciprofloxacin reduced the biofilm biomass; however, the response to antibiotic combinations with rifampicin was different between planktonic cells and biofilms. WGS revealed that the isolates belonged to ST309 and serotype O11. blaPER-1 and qnrVC6 were associated with a tandem of ISCR1 as part of a complex class one integron, with aac(6′)-Il and ltrA as gene cassettes. The structure was associated upstream and downstream with Tn4662 and flanked by direct repeats, suggesting its horizontal mobilization capability as a composite transposon. ST309 is considered an emerging high-risk clone that should be monitored in the Americas. [ABSTRACT FROM AUTHOR]

Published

2024

47. Dicer‐dependent heterochromatic small RNAs in the model diatom species Phaeodactylum tricornutum.

Author

Grypioti, Emilia, Richard, Hugues, Kryovrysanaki, Nikoleta, Jaubert, Marianne, Falciatore, Angela, Verret, Frédéric, and Kalantidis, Kriton

Subjects

*PHAEODACTYLUM tricornutum, *NON-coding RNA, *SMALL interfering RNA, *RNA interference, *DIATOMS

Abstract

Summary: Diatoms are eukaryotic microalgae responsible for nearly half of the marine productivity. RNA interference (RNAi) is a mechanism of regulation of gene expression mediated by small RNAs (sRNAs) processed by the endoribonuclease Dicer (DCR). To date, the mechanism and physiological role of RNAi in diatoms are unknown.We mined diatom genomes and transcriptomes for key RNAi effectors and retraced their phylogenetic history. We generated DCR knockout lines in the model diatom species Phaeodactylum tricornutum and analyzed their mRNA and sRNA populations, repression‐associated histone marks, and acclimatory response to nitrogen starvation.Diatoms presented a diversification of key RNAi effectors whose distribution across species suggests the presence of distinct RNAi pathways. P. tricornutum DCR was found to process 26–31‐nt‐long double‐stranded sRNAs originating mostly from transposons covered by repression‐associated epigenetic marks. In parallel, P. tricornutum DCR was necessary for the maintenance of the repression‐associated histone marks H3K9me2/3 and H3K27me3. Finally, PtDCR‐KO lines presented a compromised recovery post nitrogen starvation suggesting a role for P. tricornutum DCR in the acclimation to nutrient stress.Our study characterized the molecular function of the single DCR homolog of P. tricornutum suggesting an association between RNAi and heterochromatin maintenance in this model diatom species. [ABSTRACT FROM AUTHOR]

Published

2024

48. Heterologous production of 3-hydroxypropionic acid in Methylorubrum extorquens by introducing the mcr gene via a multi-round chromosomal integration system based on cre-lox71/lox66 and transposon.

Author

Zhu, Liping, Song, Yazhen, Ma, Shunan, and Yang, Song

Subjects

*TRANSPOSONS, *PLASMIDS, *GENETIC vectors, *SYNTHETIC biology, *GENE expression, *GREEN fluorescent protein, *ENVIRONMENTAL reporting, *GENES

Abstract

Background and aim: Reprogramming microorganisms to enhance the production of metabolites is a part of contemporary synthetic biology, which relies on the availability of genetic tools to successfully manipulate the bacteria. Methylorubrum extorquens AM1 is a platform microorganism used to convert C1 compounds into various value-added products. However, the repertoire of available plasmids to conveniently and quickly fine-tune the expression of multiple genes in this strain is extremely limited compared with other model microorganisms such as Escherichia coli. Thus, this study aimed to integrate existing technologies, such as transposon-mediated chromosomal integration and cre-lox-mediated recombination, to achieve the diversified expression of target genes through multiple chromosomal insertions in M. extorquens AM1. Results: A single plasmid toolkit, pSL-TP-cre-km, containing a miniHimar1 transposon and an inducible cre-lox71/lox66 system, was constructed and characterized for its multiple chromosomal integration capacity. A co-transcribed mcr-egfp cassette [for the production of 3-hydroxypropionic acid (3-HP) and a reporting green fluorescent protein] was added to construct pTP-cre-mcr-egfp for evaluating its utility in mediating the expression of heterologous genes, resulting in the production of 3-HP with a titer of 34.7–55.2 mg/L by two chromosomal integration copies. Furthermore, in association with the expression of plasmid-based mcr, 3-HP production increased to 65.5–92.4 mg/L. Conclusions: This study used a multi-round chromosomal integration system based on cre-lox71/lox66 and a transposon to construct a single constructed vector. A heterologous mcr gene was introduced through this vector, and high expression of 3-hydroxypropionic acid was achieved in M. extorquens. This study provided an efficient genetic tool for manipulating M. extorquens, which not only help increase the expression of heterologous genes in M. extorquens but also provide a reference for strains lacking genetic manipulation vectors. [ABSTRACT FROM AUTHOR]

Published

2024

49. PiggyBac Transposon Mining in the Small Genomes of Animals.

Author

Guo, Mengke, Addy, George A., Yang, Naisu, Asare, Emmanuel, Wu, Han, Saleh, Ahmed A., Shi, Shasha, Gao, Bo, and Song, Chengyi

Subjects

*TRANSPOSONS, *GENOMES, *MOBILE genetic elements, *BIOLOGICAL evolution, *PROKARYOTIC genomes, *EUKARYOTIC genomes, *AMERICAN oyster

Abstract

Simple Summary: Transposable elements (TEs) are mobile genetic elements that play vital role in defining and contributing to the size, shape and structure of both prokaryotic and eukaryotic genomes in nature. The piggyBac (PB), a superfamily of DNA transposons, has been isolated over the years from various organisms including insects, fungi and plants. These piggyBac transposon systems have high efficiency with a wide usage in the study of gene therapies, mutagenesis and transgenesis. Currently, there is limited information available on DNA transposons in small (compact) genomes of animals. Therefore, this study aims to annotate the PB transposons in small genomes of animals, revealing their evolution profiles in both vertebrate and invertebrate genomes. TEs, including DNA transposons, are major contributors of genome expansions, and have played a very significant role in shaping the evolution of animal genomes, due to their capacity to jump from one genomic position to the other. In this study, we investigated the evolution landscapes of PB transposons, including their distribution, diversity, activity and structure organization in 79 species of small (compact) genomes of animals comprising both vertebrate and invertebrates. Overall, 212 PB transposon types were detected from almost half (37) of the total number of the small genome species (79) investigated. The detected PB transposon types, which were unevenly distributed in various genera and phyla, have been classified into seven distinct clades or families with good bootstrap support (>80%). The PB transposon types that were identified have a length ranging from 1.23 kb to 9.51 kb. They encode transposases of approximately ≥500 amino acids in length, and possess terminal inverted repeats (TIRs) ranging from 4 bp to 24 bp. Though some of the transposon types have long TIRs (528 bp), they still maintain the consistent and reliable 4 bp target site duplication (TSD) of TTAA. However, PiggyBac-2_Cvir transposon originating from the Crassostrea virginica species exhibits a unique TSD of TATG. The TIRs of the transposons in all the seven families display high divergence, with a highly conserved 5′ end motif. The core transposase domains (DDD) were better conserved among the seven different families compared to the other protein domains, which were less prevalent in the vertebrate genome. The divergent evolution dynamics analysis also indicated that the majority of the PB transposon types identified in this study are either relatively young or old, with some being active. Additionally, numerous invasions of PB transposons were found in the genomes of both vertebrate and invertebrate animals. The data reveals that the PB superfamily is widely distributed in these species. PB transposons exhibit high diversity and activity in the small genomes of animals, and might play a crucial role in shaping the evolution of these small genomes of animals. [ABSTRACT FROM AUTHOR]

Published

2024

50. The sixth Japanese meeting on biological function and evolution through interactions between hosts and transposable elements.

Author

Ichiyanagi, Kenji, Ikeda, Yoko, and Saito, Kuniaki

Subjects

*BIOLOGICAL evolution, *RESEARCH personnel, *GREEN algae, *GENETICS, *GENOMES, *PROTOZOA

Abstract

The sixth Japanese meeting on host–transposon interactions, titled "Biological Function and Evolution through Interactions between Hosts and Transposable Elements," was held on August 24th and 25th, 2023, at the National Institute of Genetics as well as online. This meeting was supported by the National Institute of Genetics and aimed to bring together researchers studying the diverse roles of TEs in genome function and evolution, as well as host defense systems against TE mobility, TE bursts during evolution, and intron mobility in mammals, insects, land plants, yeast, protozoa, and bacteria. Here, we have presented the highlights of the discussion. Organizers: Kenji Ichiyanagi, Yoko Ikeda, and Kuniaki Saito. [ABSTRACT FROM AUTHOR]

Published

2023