{"database":"biostudies-literature","file_versions":[],"scores":null,"additional":{"submitter":["Yang X"],"funding":["The technology integration and demonstration promotion project of “Zhi-Mi-AI” simplified and efficient cultivation of cotton in Jiangxi Province","The National Key Research and Development Program of China","The technology integration and demonstration promotion project of \"Zhi-Mi-AI\" simplified and efficient cultivation of cotton in Jiangxi Province","Guiding project of Agriculture, animal husbandry and fishery in Jiangxi Province"],"pagination":["312"],"full_dataset_link":["https://www.ebi.ac.uk/biostudies/studies/S-EPMC11036760"],"repository":["biostudies-literature"],"omics_type":["Unknown"],"volume":["24(1)"],"pubmed_abstract":["<h4>Background</h4>DNA methylation is an important epigenetic mode of genomic DNA modification and plays a vital role in maintaining epigenetic content and regulating gene expression. Cytosine-5 DNA methyltransferase (C5-MTase) are the key enzymes in the process of DNA methylation. However, there is no systematic analysis of the C5-MTase in cotton so far, and the function of DNMT2 genes has not been studied.<h4>Methods</h4>In this study, the whole genome of cotton C5-MTase coding genes was identified and analyzed using a bioinformatics method based on information from the cotton genome, and the function of GhDMT6 was further validated by VIGS experiments and subcellular localization analysis.<h4>Results</h4>33 C5-MTases were identified from three cotton genomes, and were divided into four subfamilies by systematic evolutionary analysis. After the protein domain alignment of C5-MTases in cotton, 6 highly conserved motifs were found in the C-terminus of 33 proteins involved in methylation modification, which indicated that C5-MTases had a basic catalytic methylation function. These proteins were divided into four classes based on the N-terminal difference, of which DNMT2 lacks the N-terminal regulatory domain. The expression of C5-MTases in different parts of cotton was different under different stress treatments, which indicated the functional diversity of cotton C5-MTase gene family. Among the C5-MTases, the GhDMT6 had a obvious up-regulated expression. After silencing GhDMT6 with VIGS, the phenotype of cotton seedlings under different stress treatments showed a significant difference. Compared with cotton seedlings that did not silence GhDMT6, cotton seedlings silencing GhDMT6 showed significant stress resistance.<h4>Conclusion</h4>The results show that C5-MTases plays an important role in cotton stress response, which is beneficial to further explore the function of DNMT2 subfamily genes."],"journal":["BMC plant biology"],"pubmed_title":["Genome-wide characterization of DNA methyltransferase family genes implies GhDMT6 improving tolerance of salt and drought on cotton."],"pmcid":["PMC11036760"],"funding_grant_id":["No. 2022YFD1200300","NO.2023-14","No. CCRI 2023-17"],"pubmed_authors":["Lu X","Han M","Wang D","Ye W","Bai Z","Chen C","Wang J","Yin Z","Yang X","Sun L","Wang N","Li Y","Guo L","He Y","Feng K","Wang S","Wang X","Chen X","Zhang B"],"additional_accession":[]},"is_claimable":false,"name":"Genome-wide characterization of DNA methyltransferase family genes implies GhDMT6 improving tolerance of salt and drought on cotton.","description":"<h4>Background</h4>DNA methylation is an important epigenetic mode of genomic DNA modification and plays a vital role in maintaining epigenetic content and regulating gene expression. Cytosine-5 DNA methyltransferase (C5-MTase) are the key enzymes in the process of DNA methylation. However, there is no systematic analysis of the C5-MTase in cotton so far, and the function of DNMT2 genes has not been studied.<h4>Methods</h4>In this study, the whole genome of cotton C5-MTase coding genes was identified and analyzed using a bioinformatics method based on information from the cotton genome, and the function of GhDMT6 was further validated by VIGS experiments and subcellular localization analysis.<h4>Results</h4>33 C5-MTases were identified from three cotton genomes, and were divided into four subfamilies by systematic evolutionary analysis. After the protein domain alignment of C5-MTases in cotton, 6 highly conserved motifs were found in the C-terminus of 33 proteins involved in methylation modification, which indicated that C5-MTases had a basic catalytic methylation function. These proteins were divided into four classes based on the N-terminal difference, of which DNMT2 lacks the N-terminal regulatory domain. The expression of C5-MTases in different parts of cotton was different under different stress treatments, which indicated the functional diversity of cotton C5-MTase gene family. Among the C5-MTases, the GhDMT6 had a obvious up-regulated expression. After silencing GhDMT6 with VIGS, the phenotype of cotton seedlings under different stress treatments showed a significant difference. Compared with cotton seedlings that did not silence GhDMT6, cotton seedlings silencing GhDMT6 showed significant stress resistance.<h4>Conclusion</h4>The results show that C5-MTases plays an important role in cotton stress response, which is beneficial to further explore the function of DNMT2 subfamily genes.","dates":{"release":"2024-01-01T00:00:00Z","publication":"2024 Apr","modification":"2026-06-03T01:32:07.974Z","creation":"2026-04-22T03:13:29.364Z"},"accession":"S-EPMC11036760","cross_references":{"pubmed":["38649800"],"doi":["10.1186/s12870-024-04985-x"]}}