在叶片发育过程中，水稻 PLATYCHRON 基因与赤霉素途径之间的遗传相互作用。

Genetic interaction between rice PLASTOCHRON genes and the gibberellin pathway in leaf development.

机构信息

Graduate School of Agricultural and Life Sciences, University of Tokyo, Tokyo 113-8657, Japan.

出版信息

Rice (N Y). 2014 Sep 18;7(1):25. doi: 10.1186/s12284-014-0025-2. eCollection 2014.

DOI:10.1186/s12284-014-0025-2

PMID:25243048

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4169055/

Abstract

BACKGROUND

The rice PLASTOCHRON (PLA) genes PLA1 and PLA2 regulate leaf maturation and the temporal pattern of leaf initiation. Although the function of PLA genes in the leaf initiation process has been analyzed, little is known about how they affect leaf growth. Previously, we suggested that PLA1 and PLA2 function downstream of the gibberellin (GA) signal transduction pathway. In the present study, we examined the phenotype of a double mutant of pla and slender rice 1 (slr1), which is a constitutive GA response mutant. By analyzing these double mutants, we discuss the relationship between PLA-related and GA-dependent pathways and the possible function of PLA genes in leaf growth.

FINDINGS

Single slr1 and pla mutants exhibited elongated and dwarf phenotypes in the vegetative stage, respectively. The stature and leaf size of the pla1/slr1 and pla2/slr1 double mutants were intermediate between those of the pla and slr1 single mutants. However, the effects of slr1 on leaf elongation were markedly suppressed in the pla1 and pla2 mutant backgrounds. On the other hand, the change in cell length in the double mutants was almost the same as that in the single mutants. An expression analysis of genes involved in GA biosynthesis and catabolism indicated that feedback regulation functioned normally in the pla/slr1 double mutants.

CONCLUSIONS

Our genetic results confirm that PLA genes regulate leaf growth downstream of the GA pathway. Our findings also suggest that PLA1 and PLA2 are partly required for GA-dependent leaf elongation, mainly by affecting cellular proliferation.

摘要

背景

水稻 PLASTOCROON（PLA）基因 PLA1 和 PLA2 调节叶片成熟和叶片起始的时间模式。尽管已经分析了 PLA 基因在叶片起始过程中的功能，但它们如何影响叶片生长知之甚少。先前，我们认为 PLA1 和 PLA2 在下胚轴伸长因子（GA）信号转导途径的下游起作用。在本研究中，我们研究了 pla 和 slender rice 1（slr1）双突变体的表型，slr1 是组成型 GA 响应突变体。通过分析这些双突变体，我们讨论了 PLA 相关途径和 GA 依赖性途径之间的关系以及 PLA 基因在叶片生长中的可能功能。

结果

slr1 单突变体和 pla 单突变体在营养阶段分别表现出伸长和矮化表型。pla1/slr1 和 pla2/slr1 双突变体的株高和叶片大小介于 pla 和 slr1 单突变体之间。然而，在 pla1 和 pla2 突变背景下，slr1 对叶片伸长的影响明显受到抑制。另一方面，双突变体中细胞长度的变化几乎与单突变体相同。参与 GA 生物合成和分解代谢的基因的表达分析表明，在 pla/slr1 双突变体中反馈调节功能正常。

结论

我们的遗传结果证实 PLA 基因在 GA 途径下游调节叶片生长。我们的研究结果还表明，PLA1 和 PLA2 部分通过影响细胞增殖，在 GA 依赖性叶片伸长中起作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce01/4169055/dbbd5cc0bf4e/s12284-014-0025-2-1.jpg

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在叶片发育过程中，水稻 PLATYCHRON 基因与赤霉素途径之间的遗传相互作用。

Genetic interaction between rice PLASTOCHRON genes and the gibberellin pathway in leaf development.

机构信息

出版信息

BACKGROUND

FINDINGS

CONCLUSIONS

背景

结果

结论

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