学术动态
最新新闻
浙江大学崔瑾教授应邀到重点...
长江流域五省(市)遗传学会2...
湘湖实验室(农业浙江省实验...
重点实验室开展实验技术交流会
中国林业科学研究院、北京林...
中科院上海营养与健康研究所...
重点实验室周毅峰团队发表壶瓶碎米荠硒代谢相关基因鉴定研究论文

发布日期:2024-04-12 16:02:10 字号:  点击次数:
Whole genome identifcation, molecular docking and expression analysis of enzymes involved in the selenomethionine cycle in Cardamine hupingshanensis

 

作者:Xixi Zeng, Guoqiang Luo, Zhucheng Fan, Zhijing Xiao, Yanke Lu, Qiang Xiao, Zhi Hou, Qiaoyu Tang* and Yifeng Zhou*


刊物:BMC Plant Biology


发表时间:2024.3.19


DOI: https://doi.org/10.1186/s12870-024-04898-9


论文摘要:

      The selenomethionine cycle (SeMTC) is a crucial pathway for the metabolism of selenium. The basic bioinformatics and functions of four enzymes involved in the cycle including S-adenosyl-methionine synthase (MAT), SAM-dependent methyltransferase (MTase), S-adenosyl-homocysteine hydrolase (SAHH) and methionine synthase (MTR), have been extensively reported in many eukaryotes. The identifcation and functional analyses of SeMTC genes/proteins in Cardamine hupingshanensis and their response to selenium stress have not yet been reported. In this study, 45 genes involved in SeMTC were identifed in the C. hupingshanensis genome. Phylogenetic analysis showed that seven genes from ChMAT were clustered into four branches, twenty-seven genes from ChCOMT were clustered into two branches, four genes from ChSAHH were clustered into two branches, and seven genes from ChMTR were clustered into three branches. These genes were resided on 16 chromosomes. Gene structure and homologous protein modeling analysis illustrated that proteins in the same family are relatively conserved and have similar functions. Molecular docking showed that the afnity of SeMTC enzymes for selenium metabolites was higher than that for sulfur metabolites. The key active site residues identifed for ChMAT were Ala269 and Lys273, while Leu221/231 and Gly207/249 were determined as the crucial residues for ChCOMT. For ChSAHH, the essential active site residues were found to be Asn87, Asp139 and Thr206/207/208/325. Ile204, Ser111/329/377, Asp70/206/254, and His329/332/380 were identifed as the critical active site residues for ChMTR. In addition, the results of the expression levels of four enzymes under selenium stress revealed that ChMAT3-1 genes were upregulated approximately 18-fold, ChCOMT9-1 was upregulated approximately 38.7-fold, ChSAHH1-2 was upregulated approximately 11.6-fold, and ChMTR3-2 genes were upregulated approximately 28-fold. These verifed that SeMTC enzymes were involved in response to selenium stress to varying degrees. The results of this research are instrumental for further functional investigation of SeMTC in C. hupingshanensis. This also lays a solid foundation for deeper investigations into the physiological and biochemical mechanisms underlying selenium metabolism in plants.



湖北省恩施市学院路39号   邮编:445000   电话:0718-8439547          

版权所有© 2017    生物资源保护与利用湖北省重点实验室 鄂ICP备05003316   

设为首页 | 加入收藏