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保守的RY重复序列介导发育调节因子PvALF对种子特异性启动子的反式激活作用。

Conserved RY-repeats mediate transactivation of seed-specific promoters by the developmental regulator PvALF.

作者信息

Bobb A J, Chern M S, Bustos M M

机构信息

Department of Biological Sciences, University of Maryland Baltimore County, 1000 Hilltop Circle, Baltimore, MD 21250, USA.

出版信息

Nucleic Acids Res. 1997 Feb 1;25(3):641-7. doi: 10.1093/nar/25.3.641.

DOI:10.1093/nar/25.3.641
PMID:9016607
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC146457/
Abstract

Transcription of genes DLEC2 and PHSbeta is specifically and coordinately regulated during maturation of Phaseolus embryos. Over-expression of the seed- specific factor PvALF in cotyledon cells results in transactivation of either promoter. PvALF is related to the VP1 protein of maize, which transactivates gene expression via G-boxes, Sph elements and AT-rich sequences. We used deletions and base substitutions in the DLEC2 and PHSbeta promoters to demonstrate that several conserved RY-repeats were necessary for PvALF induction of both genes. A comprehensive mutational and transactivation analysis was used to define functionally the sequence of the DLEC2 repeat RY3 asG/CCATGCxxG/C. We also found that an interaction between RY3 and the 3'-flanking tetranucleotide CCAC increased PvALF transactivation. A preferred spacing and phasing requirement for the RY3 and CCAC motifs suggested the possibility of interactions between cellular factors that recognize either element. The high conservation of Sph-RY motifs in seed-specific promoters from monocots and dicots indicates that organ and temporal specification by factors similar to VP1 and PvALF is common among seed plants.

摘要

在菜豆胚胎成熟过程中,基因DLEC2和PHSβ的转录受到特异性且协同的调控。子叶细胞中种子特异性因子PvALF的过表达导致两个启动子的反式激活。PvALF与玉米的VP1蛋白相关,VP1蛋白通过G-boxes、Sph元件和富含AT的序列反式激活基因表达。我们在DLEC2和PHSβ启动子中使用缺失和碱基替换,以证明几个保守的RY重复序列对于PvALF诱导这两个基因是必需的。通过全面的突变和反式激活分析,将DLEC2重复序列RY3的功能序列定义为G/CCATGCxxG/C。我们还发现RY3与3'-侧翼四核苷酸CCAC之间的相互作用增强了PvALF的反式激活作用。RY3和CCAC基序的优选间距和相位要求表明,识别任一元件的细胞因子之间可能存在相互作用。单子叶植物和双子叶植物种子特异性启动子中Sph-RY基序的高度保守表明,类似于VP1和PvALF的因子对器官和时间的特异性在种子植物中很常见。

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