黄花烟草的两个α-多效基因：在发育和应激反应中具有重叠但不同的功能。

The two alpha-dox genes of Nicotiana attenuata: overlapping but distinct functions in development and stress responses.

机构信息

Department of Molecular Ecology, Max-Planck-Institute for Chemical Ecology, Jena 07745, Germany.

出版信息

BMC Plant Biol. 2010 Aug 11;10:171. doi: 10.1186/1471-2229-10-171.

DOI:10.1186/1471-2229-10-171

PMID:20701756

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3017789/

Abstract

BACKGROUND

Plant fatty acid alpha-dioxygenases (alpha-DOX) are oxylipin-forming enzymes induced by biotic and abiotic stresses, which also participate in developmental processes. In Nicotiana attenuata, herbivory strongly induces the expression of an alpha-dox1 gene. To determine its role, we silenced its expression using Agrobacterium-mediated plant transformation with an inverted repeat construct. More than half of the transformed lines showed a severe dwarf growth phenotype that was very similar to the phenotype of tomato plants mutated at a second alpha-dox isoform. This led us to identify the corresponding alpha-dox2 gene in N. attenuata and examine the regulation of both alpha-dox genes as well as the consequences of their silencing in plant development and anti-herbivore defense.

RESULTS

The transformed lines exhibiting a dwarf growth phenotype are co-silenced for both alpha-dox genes resulting in a nearly complete suppression of alpha-DOX activity, which is associated with increases in ABA, JA and anthocyanin levels, all metabolic signatures of oxidative stress. The other lines, only silenced for alpha-dox1, developed similarly to wild-type plants, exhibited a 40% reduction of alpha-DOX activity resulting in a 50% reduction of its main product in planta (2-HOT) and showed no signs of oxidative stress. In contrast to alpha-dox1, the expression of alpha-dox2 gene is not induced by wounding or elicitors in the oral secretions of Manduca sexta. Instead, alpha-dox2 is expressed in roots and flowers which lack alpha-dox1 expression, but both genes are equally regulated during leaf maturation. We transiently silenced alpha-dox gene copies with gene-specific constructs using virus induced gene silencing and determined the consequences for plant development and phytohormone and 2-HOT levels. While individual silencing of alpha-dox1 or alpha-dox2 had no effects on plant growth, the co-suppression of both alpha-dox genes decreased plant growth. Plants transiently silenced for both alpha-dox genes had increased constitutive levels of JA and ABA but silencing alpha-dox1 alone resulted in lower M. sexta-induced levels of JA, 2-HOT and ABA.

CONCLUSIONS

Thus, both alpha-dox isoforms function in the development of N. attenuata. In leaf maturation, the two alpha-dox genes have overlapping functions, but only alpha-dox2 is involved in root and flower development and only alpha-dox1 functions in anti-herbivore defense.

摘要

背景

植物脂肪酸 α-双加氧酶（α-DOX）是生物和非生物胁迫诱导的氧化脂形成酶，也参与发育过程。在烟草原生种中，取食强烈诱导一个α-dox1 基因的表达。为了确定其作用，我们使用农杆菌介导的植物转化，用反向重复构建物沉默其表达。超过一半的转化株系表现出严重的矮化生长表型，与番茄植株突变的第二个 α-dox 同工型非常相似。这导致我们在烟草原生种中鉴定出相应的α-dox2 基因，并研究了这两个α-dox 基因的调控以及它们在植物发育和抗食草动物防御中的沉默所带来的后果。

结果

表现出矮化生长表型的转化株系同时沉默了两个α-dox 基因，导致 α-DOX 活性几乎完全抑制，这与 ABA、JA 和花青素水平的增加有关，所有这些都是氧化应激的代谢特征。其他仅沉默了α-dox1 的株系与野生型植物相似发育，α-DOX 活性降低 40%，其主要产物（2-HOT）在植物体内减少 50%，没有氧化应激的迹象。与α-dox1 不同，α-dox2 基因的表达不受 Manduca sexta 口腔分泌物中创伤或诱导物的诱导。相反，α-dox2 在根部和花中表达，而根部和花中没有α-dox1 的表达，但在叶片成熟过程中这两个基因受到同等调控。我们使用病毒诱导的基因沉默技术，用基因特异性构建物瞬时沉默α-dox 基因拷贝，并确定其对植物发育、植物激素和 2-HOT 水平的影响。虽然单独沉默α-dox1 或α-dox2 对植物生长没有影响，但两个α-dox 基因的共抑制会降低植物生长。瞬时沉默两个α-dox 基因的植物具有较高的组成型 JA 和 ABA 水平，但单独沉默α-dox1 会导致较低的 M. sexta 诱导的 JA、2-HOT 和 ABA 水平。

结论

因此，两个α-dox 同工型都在烟草原生种的发育中发挥作用。在叶片成熟过程中，两个α-dox 基因具有重叠的功能，但只有α-dox2 参与根和花的发育，只有α-dox1 参与抗食草动物防御。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/058c/3017789/b5c7e25d5af2/1471-2229-10-171-1.jpg

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黄花烟草的两个α-多效基因：在发育和应激反应中具有重叠但不同的功能。

The two alpha-dox genes of Nicotiana attenuata: overlapping but distinct functions in development and stress responses.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

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