通过 RNA-Seq 分析鉴定籼稻苗期耐冷胁迫相关的基因、途径和转录因子。

Genes, pathways and transcription factors involved in seedling stage chilling stress tolerance in indica rice through RNA-Seq analysis.

机构信息

Crop Improvement Division, National Rice Research Institute, Cuttack, Odisha, India.

Indian Council of Agricultural Research, New Delhi, India.

出版信息

BMC Plant Biol. 2019 Aug 14;19(1):352. doi: 10.1186/s12870-019-1922-8.

DOI:10.1186/s12870-019-1922-8

PMID:31412781

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6694648/

Abstract

BACKGROUND

Rice plants show yellowing, stunting, withering, reduced tillering and utimately low productivity in susceptible varieties under low temperature stress. Comparative transcriptome analysis was performed to identify novel transcripts, gain new insights into different gene expression and pathways involved in cold tolerance in rice.

RESULTS

Comparative transcriptome analyses of 5 treatments based on chilling stress exposure revealed more down regulated genes in susceptible and higher up regulated genes in tolerant genotypes. A total of 13930 and 10599 differentially expressed genes (DEGs) were detected in cold susceptible variety (CSV) and cold tolerant variety (CTV), respectively. A continuous increase in DEGs at 6, 12, 24 and 48 h exposure of cold stress was detected in both the genotypes. Gene ontology (GO) analysis revealed 18 CSV and 28 CTV term significantly involved in molecular function, cellular component and biological process. GO classification showed a significant role of transcription regulation, oxygen, lipid binding, catalytic and hydrolase activity for tolerance response. Absence of photosynthesis related genes, storage products like starch and synthesis of other classes of molecules like fatty acids and terpenes during the stress were noticed in susceptible genotype. However, biological regulations, generation of precursor metabolites, signal transduction, photosynthesis, regulation of cellular process, energy and carbohydrate metabolism were seen in tolerant genotype during the stress. KEGG pathway annotation revealed more number of genes regulating different pathways resulting in more tolerant. During early response phase, 24 and 11 DEGs were enriched in CTV and CSV, respectively in energy metabolism pathways. Among the 1583 DEG transcription factors (TF) genes, 69 WRKY, 46 bZIP, 41 NAC, 40 ERF, 31/14 MYB/MYB-related, 22 bHLH, 17 Nin-like 7 HSF and 4C3H were involved during early response phase. Late response phase showed 30 bHLH, 65 NAC, 30 ERF, 26/20 MYB/MYB-related, 11 C3H, 12 HSF, 86 Nin-like, 41 AP2/ERF, 55 bZIP and 98 WRKY members TF genes. The recovery phase included 18 bHLH, 50 NAC, 31 ERF, 24/13 MYB/MYB-related, 4 C3H, 4 HSF, 14 Nin-like, 31 bZIP and 114 WRKY TF genes.

CONCLUSIONS

Transcriptome analysis of contrasting genotypes for cold tolerance detected the genes, pathways and transcription factors involved in the stress tolerance.

摘要

背景

在低温胁迫下，易感品种的水稻植株表现出黄化、矮化、枯萎、分蘖减少，最终产量降低。为了鉴定新的转录本，深入了解水稻耐冷性相关的不同基因表达和途径，我们进行了比较转录组分析。

结果

基于冷胁迫暴露的 5 种处理的比较转录组分析显示，易感品种中下调基因较多，而耐品种中上调基因较多。在冷敏感品种（CSV）和冷耐受品种（CTV）中分别检测到 13930 和 10599 个差异表达基因（DEGs）。在两种基因型中，随着冷胁迫暴露时间的延长（6、12、24 和 48 小时），DEGs 持续增加。GO 分析显示，CSV 中有 18 个和 CTV 中有 28 个术语显著参与分子功能、细胞成分和生物过程。GO 分类表明，转录调控、氧、脂质结合、催化和水解酶活性对耐受反应有重要作用。在易感基因型中，在胁迫期间没有发现光合作用相关基因、淀粉等储存产物以及脂肪酸和萜类等其他类分子的合成。然而，在耐品种中，在胁迫期间观察到生物调节、前体代谢物的产生、信号转导、光合作用、细胞过程的调节、能量和碳水化合物代谢。KEGG 途径注释显示，更多的基因调节不同的途径，从而导致更高的耐受性。在早期反应阶段，CTV 和 CSV 中分别有 24 和 11 个 DEG 富集在能量代谢途径中。在 1583 个 DEG 转录因子（TF）基因中，有 69 个 WRKY、46 个 bZIP、41 个 NAC、40 个 ERF、31/14 MYB/MYB 相关、22 个 bHLH、17 个 Nin-like 7 HSF 和 4C3H 参与早期反应阶段。在晚期反应阶段，有 30 个 bHLH、65 个 NAC、30 个 ERF、26/20 MYB/MYB 相关、11 个 C3H、12 个 HSF、86 个 Nin-like、41 个 AP2/ERF、55 个 bZIP 和 98 个 WRKY TF 基因。在恢复阶段，有 18 个 bHLH、50 个 NAC、31 个 ERF、24/13 MYB/MYB 相关、4 个 C3H、4 个 HSF、14 个 Nin-like、31 个 bZIP 和 114 个 WRKY TF 基因。

结论

对冷耐受性不同基因型的转录组分析检测到了与胁迫耐受性相关的基因、途径和转录因子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e5f/6694648/9be578f083cd/12870_2019_1922_Fig1_HTML.jpg

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通过 RNA-Seq 分析鉴定籼稻苗期耐冷胁迫相关的基因、途径和转录因子。

Genes, pathways and transcription factors involved in seedling stage chilling stress tolerance in indica rice through RNA-Seq analysis.

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