In silico identification of sugarcane (Saccharum officinarum L.) genome encoded microRNAs targeting sugarcane bacilliform virus
文献类型: 外文期刊
第一作者: Ashraf, Muhammad Aleem
作者: Ashraf, Muhammad Aleem;Feng, Xiaoyan;Ashraf, Fakiha;Shen, Linbo;Zhang, Shuzhen;Ashraf, Muhammad Aleem;Hu, Xiaowen;Iqbal, Muhammad Shahzad
作者机构:
期刊名称:PLOS ONE ( 影响因子:3.752; 五年影响因子:4.069 )
ISSN: 1932-6203
年卷期: 2022 年 17 卷 1 期
页码:
收录情况: SCI
摘要: Sugarcane bacilliform virus (SCBV) is considered one of the most economically damaging pathogens for sugarcane production worldwide. Three open reading frames (ORFs) are characterized in the circular, ds-DNA genome of the SCBV; these encode for a hypothetical protein (ORF1), a DNA binding protein (ORF2), and a polyprotein (ORF3). A comprehensive evaluation of sugarcane (Saccharum officinarum L.) mi RNAs for the silencing of the SCBV genome using in silico algorithms were carried out in the present study using mature sugarcane miRNAs. miRNAs of sugarcane are retrieved from the miRBase database and assessed in terms of hybridization with the SCBV genome. A total of 14 potential candidate miRNAs from sugarcane were screened out by all used algorithms used for the silencing of SCBV. The consensus of three algorithms predicted the hybridization site of sof-miR159e at common locus 5534. miRNA-mRNA interactions were estimated by computing the free-energy of the miRNA-mRNA duplex using the RNAcofold algorithm. A regulatory network of predicted candidate miRNAs of sugarcane with SCBV-ORFs, generated using Circos-is used to identify novel targets. The predicted data provide useful information for the development of SCBV-resistant sugarcane plants.
分类号:
- 相关文献
作者其他论文 更多>>
-
Insights into recent advances in secondary metabolites (SMs)-mediated defense responses in plants
作者:Shabbir, Rubab;Chang, Yating;Chen, Pinghua;Shabbir, Rubab;Javed, Talha;Wang, Wenzhi;Yang, Benpeng;Shen, Linbo;Sun, Tingting;Zhang, Shuzhen
关键词:Climate change; secondary metabolites; elicitation; signaling cascades; transcription factors
-
Trampling and Dung and Urine Addition of Livestock Increase the Soil Organic Carbon in Mountain Meadows by Augmenting the Organic Carbon in Different Aggregates
作者:Li, Weisi;Sun, Qunce;Zhang, Shuzhen;Hu, Xiaojing;Xiong, Jie;Wang, Mengyue;Wang, Xuerui;Long, Runzhou;Jin, Guili;Asiya, Manlike
关键词:grazing; mountain meadows; plant characteristics; aggregates; soil organic carbon
-
Soil carbon pool dynamics, microbial community diversity and pineapple (Ananas comosus) productivity response to partial organic substitution strategies: A four-year study
作者:Yan, Chengming;An, Dongsheng;Ma, Haiyang;Zhao, Baoshan;Liu, Yanan;Hu, Xiaowen;Ma, Zhiling
关键词:Pineapple; Organic substitution; Soil carbon pool; Soil quality; Organic fertilizers
-
Aroma characteristics and adaptability of Goji (Lycium barbarum L.) leaf tea prepared from 25 different Goji lines
作者:Zhang, Mengcong;Lu, Li;Hu, Xiaowen;Zhou, Chengzhe;Zhang, Cheng;Fang, Jiaxin;Guo, Yuqiong;Duan, Linyuan;Zhang, Bo;Guo, Yuqiong
关键词:Goji lines; Aroma evaluation; Multi-criteria evaluation methods; Adaptability
-
Fine Mapping of QTLs/QTNs and Mining of Genes Associated with Race 7 of the Soybean Cercospora sojina by Combining Linkages and GWAS
作者:Liu, Yanzuo;Hu, Bo;Yu, Aitong;Liu, Yuxi;Xu, Pengfei;Zhang, Shuzhen;Li, Wen-Xia;Ning, Hailong;Wang, Yang;Ding, Junjie
关键词:soybean; cultivar leaf spot; QTL; QTN; resistance gene
-
Evaluation of the Kernel Test Weight and Selection of Identification Indexes of Maize Inbred Lines
作者:Shen, Tao;Li, Jianping;Fan, Haihong;Liu, Yifan;Zhu, Liying;Jia, Xiaoyan;Zhao, Yongfeng;Guo, Jinjie;Wang, Chao;Zheng, Yunxiao;Zhao, Yongfeng;Liu, Yifan;Zhang, Shuzhen;Zhang, Shuzhen;Song, Wei
关键词:comprehensive evaluation; PCA; cluster analysis; stepwise regression
-
An Integrative Computational Approach for Identifying Cotton Host Plant MicroRNAs with Potential to Abate CLCuKoV-Bur Infection
作者:Ashraf, Muhammad Aleem;Yu, Naitong;Ashraf, Muhammad Aleem;Shahid, Imran;Brown, Judith K.
关键词:
begomovirus ; binding affinity; cotton leaf curl disease resistance; gene silencing; in silico tools; RNAi; R-language; target prediction
