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Toward understanding transcriptional regulatory networks in abiotic stress responses and tolerance in rice.旨在理解水稻非生物胁迫响应与耐受性中的转录调控网络。
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Overexpression of OsHsp17.0 and OsHsp23.7 enhances drought and salt tolerance in rice.过表达 OsHsp17.0 和 OsHsp23.7 增强水稻的耐旱和耐盐性。
J Plant Physiol. 2012 Apr 15;169(6):628-35. doi: 10.1016/j.jplph.2011.12.014. Epub 2012 Feb 8.
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A R2R3-type MYB gene, OsMYB2, is involved in salt, cold, and dehydration tolerance in rice.一个 R2R3 型 MYB 基因 OsMYB2 参与调控水稻的耐盐、耐冷和耐旱性。
J Exp Bot. 2012 Apr;63(7):2541-56. doi: 10.1093/jxb/err431. Epub 2012 Feb 2.
5
Genetic manipulation of stomatal density influences stomatal size, plant growth and tolerance to restricted water supply across a growth carbon dioxide gradient.通过遗传手段操纵气孔密度会影响气孔大小、植物生长以及在生长二氧化碳梯度范围内对有限供水的耐受能力。
Philos Trans R Soc Lond B Biol Sci. 2012 Feb 19;367(1588):547-55. doi: 10.1098/rstb.2011.0272.
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Induced over-expression of the transcription factor OsDREB2A improves drought tolerance in rice.转录因子 OsDREB2A 的诱导过表达提高了水稻的耐旱性。
Plant Physiol Biochem. 2011 Dec;49(12):1384-91. doi: 10.1016/j.plaphy.2011.09.012. Epub 2011 Oct 1.
7
Rice A20/AN1 zinc-finger containing stress-associated proteins (SAP1/11) and a receptor-like cytoplasmic kinase (OsRLCK253) interact via A20 zinc-finger and confer abiotic stress tolerance in transgenic Arabidopsis plants.水稻 A20/AN1 锌指结构域包含应激相关蛋白(SAP1/11)和受体样细胞质激酶(OsRLCK253),通过 A20 锌指相互作用,赋予转基因拟南芥植株的非生物胁迫耐受性。
New Phytol. 2011 Aug;191(3):721-732. doi: 10.1111/j.1469-8137.2011.03740.x. Epub 2011 Apr 28.
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OsSDIR1 overexpression greatly improves drought tolerance in transgenic rice.过表达 OsSDIR1 极大地提高了转基因水稻的抗旱性。
Plant Mol Biol. 2011 May;76(1-2):145-56. doi: 10.1007/s11103-011-9775-z. Epub 2011 Apr 16.
9
Expression of rice SUB1A and SUB1C transcription factors in Arabidopsis uncovers flowering inhibition as a submergence tolerance mechanism.在拟南芥中表达水稻 SUB1A 和 SUB1C 转录因子揭示了开花抑制作为一种耐淹水机制。
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10
Root-specific reduction of cytokinin causes enhanced root growth, drought tolerance, and leaf mineral enrichment in Arabidopsis and tobacco.细胞分裂素的根特异性减少导致拟南芥和烟草的根系生长增强、耐旱性提高和叶片矿物质富集。
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拟南芥增强耐旱性 1/同源异型域光滑 11 赋予转基因水稻耐旱性而不降低产量。

Arabidopsis enhanced drought tolerance1/HOMEODOMAIN GLABROUS11 confers drought tolerance in transgenic rice without yield penalty.

机构信息

School of Life Sciences, University of Science and Technology of China, Hefei 230027, China.

出版信息

Plant Physiol. 2013 Jul;162(3):1378-91. doi: 10.1104/pp.113.217596. Epub 2013 Jun 4.

DOI:10.1104/pp.113.217596
PMID:23735506
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3707532/
Abstract

Enhancing drought tolerance without yield decrease has been a great challenge in crop improvement. Here, we report the Arabidopsis (Arabidopsis thaliana) homodomain-leucine zipper transcription factor Enhanced Drought Tolerance/HOMEODOMAIN GLABROUS11 (EDT1/HDG11) was able to confer drought tolerance and increase grain yield in transgenic rice (Oryza sativa) plants. The improved drought tolerance was associated with a more extensive root system, reduced stomatal density, and higher water use efficiency. The transgenic rice plants also had higher levels of abscisic acid, proline, soluble sugar, and reactive oxygen species-scavenging enzyme activities during stress treatments. The increased grain yield of the transgenic rice was contributed by improved seed setting, larger panicle, and more tillers as well as increased photosynthetic capacity. Digital gene expression analysis indicated that AtEDT1/HDG11 had a significant influence on gene expression profile in rice, which was consistent with the observed phenotypes of transgenic rice plants. Our study shows that AtEDT1/HDG11 can improve both stress tolerance and grain yield in rice, demonstrating the efficacy of AtEDT1/HDG11 in crop improvement.

摘要

提高作物的耐旱性而不降低产量一直是作物改良的一大挑战。在这里,我们报告拟南芥(Arabidopsis thaliana)同源域亮氨酸拉链转录因子增强耐旱性/同源域光滑 11(EDT1/HDG11)能够赋予转基因水稻(Oryza sativa)植株耐旱性并提高籽粒产量。耐旱性的提高与更广泛的根系、减少的气孔密度和更高的水分利用效率有关。在胁迫处理期间,转基因水稻植株还具有更高水平的脱落酸、脯氨酸、可溶性糖和活性氧清除酶活性。转基因水稻的籽粒产量增加是由于结实率提高、穗更大、分蘖更多以及光合能力提高所致。数字基因表达分析表明,AtEDT1/HDG11 对水稻的基因表达谱有显著影响,这与转基因水稻植株的表型观察结果一致。我们的研究表明,AtEDT1/HDG11 可以提高水稻的胁迫耐受性和籽粒产量,证明了 AtEDT1/HDG11 在作物改良中的功效。