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Plant Cell. 2007 Feb;19(2):445-57. doi: 10.1105/tpc.106.042325. Epub 2007 Feb 9.
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Redundancy and specialization among plant microRNAs: role of the MIR164 family in developmental robustness.植物微小RNA中的冗余与特化:MIR164家族在发育稳健性中的作用
Development. 2007 Mar;134(6):1051-60. doi: 10.1242/dev.02817. Epub 2007 Feb 7.
3
Arabidopsis CUP-SHAPED COTYLEDON3 regulates postembryonic shoot meristem and organ boundary formation.拟南芥杯状子叶3调控胚后茎尖分生组织和器官边界形成。
Plant Cell. 2006 Nov;18(11):2946-57. doi: 10.1105/tpc.106.045716. Epub 2006 Nov 22.
4
A role for chromatin remodeling in regulation of CUC gene expression in the Arabidopsis cotyledon boundary.染色质重塑在拟南芥子叶边界CUC基因表达调控中的作用。
Development. 2006 Aug;133(16):3223-30. doi: 10.1242/dev.02508. Epub 2006 Jul 19.
5
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Development. 2006 May;133(9):1645-55. doi: 10.1242/dev.02335. Epub 2006 Mar 22.
6
RABBIT EARS is a second-whorl repressor of AGAMOUS that maintains spatial boundaries in Arabidopsis flowers.兔耳基因是AGAMOUS基因的第二轮抑制因子,它维持拟南芥花中的空间边界。
Plant J. 2006 Feb;45(3):369-83. doi: 10.1111/j.1365-313X.2005.02633.x.
7
Genetic control of shoot organ boundaries.茎器官边界的遗传控制。
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8
Maize rough sheath2 and its Arabidopsis orthologue ASYMMETRIC LEAVES1 interact with HIRA, a predicted histone chaperone, to maintain knox gene silencing and determinacy during organogenesis.玉米粗糙叶鞘2及其拟南芥同源物不对称叶1与HIRA(一种预测的组蛋白伴侣)相互作用,以在器官发生过程中维持knox基因沉默和确定性。
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9
The Putative RNA-dependent RNA polymerase RDR6 acts synergistically with ASYMMETRIC LEAVES1 and 2 to repress BREVIPEDICELLUS and MicroRNA165/166 in Arabidopsis leaf development.假定的RNA依赖的RNA聚合酶RDR6与ASYMMETRIC LEAVES1和2协同作用,在拟南芥叶片发育过程中抑制BREVIPEDICELLUS和MicroRNA165/166。
Plant Cell. 2005 Aug;17(8):2157-71. doi: 10.1105/tpc.105.033449. Epub 2005 Jul 8.
10
The early extra petals1 mutant uncovers a role for microRNA miR164c in regulating petal number in Arabidopsis.早期多花瓣1突变体揭示了microRNA miR164c在调控拟南芥花瓣数量中的作用。
Curr Biol. 2005 Feb 22;15(4):303-15. doi: 10.1016/j.cub.2005.02.017.

拟南芥基因AS1、AS2和JAG负向调控边界特异性基因,以促进萼片和花瓣的发育。

Arabidopsis genes AS1, AS2, and JAG negatively regulate boundary-specifying genes to promote sepal and petal development.

作者信息

Xu Ben, Li Ziyu, Zhu Yan, Wang Hua, Ma Hong, Dong Aiwu, Huang Hai

机构信息

National Laboratory of Plant Molecular Genetics, Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences, Shanghai 200032, China.

出版信息

Plant Physiol. 2008 Feb;146(2):566-75. doi: 10.1104/pp.107.113787. Epub 2007 Dec 21.

DOI:10.1104/pp.107.113787
PMID:18156293
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2245835/
Abstract

Boundary formation is crucial for organ development in multicellular eukaryotes. In higher plants, boundaries that separate the organ primordia from their surroundings have relatively low rates of cell proliferation. This cellular feature is regulated by the actions of certain boundary-specifying genes, whose ectopic expression in organs can cause inhibition of organ growth. Here, we show that the Arabidopsis thaliana ASYMMETRIC LEAVES1 and 2 (AS1 and AS2) and JAGGED (JAG) genes function in the sepal and petal primordia to repress boundary-specifying genes for normal development of the organs. Loss-of-function as1 jag and as2 jag double mutants produced extremely tiny sepals and petals. Analysis of a cell-cycle marker HISTONE4 revealed that cell division in sepal primordia of the double mutant was inhibited. Moreover, these abnormal sepals and petals exhibited ectopic overexpression of the boundary-specifying genes PETAL LOSS (PTL) and CUP-SHAPED COTYLEDON1 [corrected] and 2 (CUC1 and CUC2). Loss of PTL or CUC1 and CUC2 functions in the as1 jag background could partially rescue the tiny sepal and petal phenotypes, supporting the model that the tiny sepal/petal phenotypes are caused, at least in part, by ectopic expression of boundary-specifying genes. Together, our data reveal a previously unrecognized fundamental regulation by which AS1, AS2, and JAG act to define sepal and petal from their boundaries.

摘要

边界形成对于多细胞真核生物的器官发育至关重要。在高等植物中,将器官原基与其周围环境分隔开的边界处细胞增殖速率相对较低。这种细胞特征受某些边界指定基因的作用调控,这些基因在器官中的异位表达可导致器官生长受到抑制。在此,我们表明拟南芥的不对称叶片1和2(AS1和AS2)以及锯齿状(JAG)基因在萼片和花瓣原基中发挥作用,抑制边界指定基因,以确保器官的正常发育。功能缺失的as1 jag和as2 jag双突变体产生极其微小的萼片和花瓣。对细胞周期标记物组蛋白4的分析表明,双突变体萼片原基中的细胞分裂受到抑制。此外,这些异常的萼片和花瓣表现出边界指定基因花瓣缺失(PTL)和杯状子叶1[校正后]和2(CUC1和CUC2)的异位过表达。在as1 jag背景中PTL或CUC1和CUC2功能的丧失可部分挽救微小萼片和花瓣的表型,这支持了微小萼片/花瓣表型至少部分是由边界指定基因的异位表达引起的模型。总之,我们的数据揭示了一种以前未被认识的基本调控机制,即AS1、AS2和JAG通过该机制从其边界定义萼片和花瓣。