一个 AP2 转录因子样基因的突变影响玉米节间长度和叶形。

Mutations in an AP2 transcription factor-like gene affect internode length and leaf shape in maize.

机构信息

National Maize Improvement Center of China, College of Agriculture and Biotechnology, China Agricultural University, Beijing, China.

出版信息

PLoS One. 2012;7(5):e37040. doi: 10.1371/journal.pone.0037040. Epub 2012 May 23.

DOI:10.1371/journal.pone.0037040

PMID:22649507

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3359370/

Abstract

BACKGROUND

Plant height is an important agronomic trait that affects yield and tolerance to certain abiotic stresses. Understanding the genetic control of plant height is important for elucidating the regulation of maize development and has practical implications for trait improvement in plant breeding.

METHODOLOGY/PRINCIPAL FINDINGS: In this study, two independent, semi-dwarf maize EMS mutants, referred to as dwarf & irregular leaf (dil1), were isolated and confirmed to be allelic. In comparison to wild type plants, the mutant plants have shorter internodes, shorter, wider and wrinkled leaves, as well as smaller leaf angles. Cytological analysis indicated that the leaf epidermal cells and internode parenchyma cells are irregular in shape and are arranged in a more random fashion, and the mutants have disrupted leaf epidermal patterning. In addition, parenchyma cells in the dil1 mutants are significantly smaller than those in wild-type plants. The dil1 mutation was mapped on the long arm of chromosome 6 and a candidate gene, annotated as an AP2 transcription factor-like, was identified through positional cloning. Point mutations near exon-intron junctions were identified in both dil1 alleles, resulting in mis-spliced variants.

CONCLUSION

An AP2 transcription factor-like gene involved in stalk and leaf development in maize has been identified. Mutations near exon-intron junctions of the AP2 gene give mis-spliced transcript variants, which result in shorter internodes and wrinkled leaves.

摘要

背景

株高是一个重要的农艺性状，影响产量和对某些非生物胁迫的耐受性。了解植物株高的遗传控制对于阐明玉米发育的调控机制非常重要，并且对植物育种中的性状改良具有实际意义。

方法/主要发现：本研究中，分离并鉴定了两个独立的半矮化玉米 EMS 突变体，称为矮化和不规则叶（dil1），它们是等位突变体。与野生型植株相比，突变体植株的节间更短，叶片更短、更宽且起皱，叶角更小。细胞学分析表明，突变体的叶片表皮细胞和节间薄壁组织细胞形状不规则，排列更随意，并且突变体的叶片表皮模式受到破坏。此外，dil1 突变体的薄壁组织细胞明显小于野生型植株。dil1 突变被定位在 6 号染色体的长臂上，通过定位克隆鉴定出一个候选基因，注释为 AP2 转录因子样基因。在两个 dil1 等位基因中都发现了外显子-内含子交界处附近的点突变，导致剪接变体错误拼接。

结论

鉴定了一个参与玉米茎和叶发育的 AP2 转录因子样基因。AP2 基因外显子-内含子交界处的突变导致剪接转录变体错误拼接，从而导致节间变短和叶片起皱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/03c9/3359370/741578c73d81/pone.0037040.g001.jpg

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一个 AP2 转录因子样基因的突变影响玉米节间长度和叶形。

Mutations in an AP2 transcription factor-like gene affect internode length and leaf shape in maize.

机构信息

出版信息

BACKGROUND

CONCLUSION

背景

结论

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