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Integration of sRNA degradome transcriptome analysis and functional investigation reveals gma-miR398c negatively regulates drought tolerance via GmCSDs and GmCCS in transgenic Arabidopsis and soybean

机译：sRNA降解组转录组分析和功能研究的整合揭示了gma-miR398c通过转基因拟南芥和大豆中的GmCSDs和GmCCS负调节干旱耐受性

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摘要

Gene ontology functional classification of identified target genes under water-deficit stress among the degradome-seq libraries. Gene ontology classification of the degraded genes targeted by the identified miRNAs under water-deficit conditions. KEGG analysis of the identified target genes in soybean plants exposed to simulated drought conditions. ( ) Enrichment of the gene ontology terms associated with the target genes in soybean plants exposed to water-deficit stress. Arrows indicate the important biological pathways

机译：退化基因组序列库中水分亏缺胁迫下已鉴定目标基因的基因本体功能分类。在缺水条件下，已鉴定的miRNA靶向的降解基因的基因本体分类。 KEGG分析暴露在模拟干旱条件下的大豆植物中的目标基因。（）暴露于缺水胁迫的大豆植物中与目标基因相关的基因本体术语的富集。箭头指示重要的生物学途径

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期刊名称 BMC Plant Biology
作者
Yonggang Zhou; Weican Liu; Xiaowei Li; Daqian Sun; Keheng Xu; Chen Feng; Idrice Carther Kue Foka; Toi Ketehouli; Hongtao Gao; Nan Wang; Yuanyuan Dong; Fawei Wang; Haiyan Li;
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作者单位

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年(卷),期 2020(20),-1
年度 2020
页码 -1
总页数 19
原文格式 PDF
正文语种
中图分类生物学;
关键词
miRNA; Degradome; Transcriptome; Gma-miR398c; Drought; Soybean;

机译：miRNA;降解组;转录组;Gma-miR398c;干旱;大豆;

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1. Integration of sRNA, degradome, transcriptome analysis and functional investigation reveals gma-miR398c negatively regulates drought tolerance via GmCSDs and GmCCS in transgenic Arabidopsis and soybean [J] . Yonggang Zhou, Weican Liu, Xiaowei Li, BMC Plant Biology . 2020,第1期

机译：SRNA，DegraDome，转录组分析和功能调查的整合揭示了GMA-MIR398C通过GMCSDS和GMCCS在转基因拟南芥和大豆中产生了负调节干旱耐受性
2. Soybean C2H2-Type Zinc Finger Protein GmZFP3 with Conserved QALGGH Motif Negatively Regulates Drought Responses in Transgenic Arabidopsis [J] . Dayong Zhang, Jinfeng Tong, Zhaolong Xu, Frontiers in Plant Science . 2016,第1期

机译：带有保守QALGGH基序的大豆C2H2型锌指蛋白GmZFP3负调节转基因拟南芥中的干旱反应。
3. A wheat R2R3 MYB gene TaMpc1-D4 negatively regulates drought tolerance in transgenic Arabidopsis and wheat [J] . Li Xiaorui, Tang Yan, Li Hailan, Plant Science: An International Journal of Experimental Plant Biology . 2020,第1期

机译：小麦R2R3 MyB基因Tampc1-D4负调节转基因拟南芥和小麦的耐旱性
4. Correction: Genome-Wide Investigation Using sRNA-Seq, Degradome-Seq and Transcriptome-Seq Reveals Regulatory Networks of microRNAs and Their Target Genes in Soybean during Soybean mosaic virus Infection [O] . Hui Chen, Andrej Adam Arsovski, Kangfu Yu, 2011

机译：校正：使用sRNA-Seq，Degradome-Seq和Transcriptome-Seq进行全基因组研究，揭示了大豆花叶病毒感染过程中microRNA及其靶基因的调控网络
5. Integration of sRNA, degradome, transcriptome analysis and functional investigation reveals gma-miR398c negatively regulates drought tolerance via GmCSDs and GmCCS in transgenic Arabidopsis and soybean [O] . Yonggang Zhou, Weican Liu, Xiaowei Li, 2020

机译：SRNA，DegraDome，转录组分析和功能调查的整合揭示了GMA-MIR398C通过GMCSDS和GMCCS在转基因拟南芥和大豆中产生了负调节干旱耐受性

Integration of sRNA degradome transcriptome analysis and functional investigation reveals gma-miR398c negatively regulates drought tolerance via GmCSDs and GmCCS in transgenic Arabidopsis and soybean

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