A regulatory GhBPE-GhPRGL module maintains ray petal length in Gerbera hybrida.

IF 10.6 Q1 HORTICULTURE
Rui Jiang, Weichao Yuan, Wei Yao, Xuefeng Jin, Xiaojing Wang, Yaqin Wang
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引用次数: 0

Abstract

The molecular mechanism regulating petal length in flowers is not well understood. Here we used transient transformation assays to confirm that GhPRGL (proline-rich and GASA-like)-a GASA (gibberellic acid [GA] stimulated in Arabidopsis) family gene-promotes the elongation of ray petals in gerbera (Gerbera hybrida). Yeast one-hybrid screening assay identified a bHLH transcription factor of the jasmonic acid (JA) signaling pathway, here named GhBPE (BIGPETAL), which binds to the GhPRGL promoter and represses its expression, resulting in a phenotype of shortened ray petal length when GhBPE is overexpressed. Further, the joint response to JA and GA of GhBPE and GhPRGL, together with their complementary expression profiles in the early stage of petal growth, suggests a novel GhBPE-GhPRGL module that controls the size of ray petals. GhPRGL promotes ray petal elongation in its early stage especially, while GhBPE inhibits ray petal elongation particularly in the late stage by inhibiting the expression of GhPRGL. JA and GA operate in concert to regulate the expression of GhBPE and GhPRGL genes, providing a regulatory mechanism by which ray petals could grow to a fixed length in gerbera species.

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Abstract Image

Abstract Image

调节GhBPE-GhPRGL模块维持非洲菊的射线花瓣长度。
调控花朵花瓣长度的分子机制尚不清楚。在这里,我们使用瞬时转化分析来证实GhPRGL(富含脯氨酸和GASA样)-一种在拟南芥中刺激的GASA(赤霉酸[GA])家族基因促进非洲菊(gerbera hybrida)射线花瓣的伸长。酵母一杂交筛选法鉴定了茉莉酸(JA)信号通路的bHLH转录因子,此处命名为GhBPE(BIGPETAL),它与GhPRGL启动子结合并抑制其表达,导致GhBPE过表达时射线花瓣长度缩短的表型。此外,GhBPE和GhPRGL对JA和GA的联合反应,以及它们在花瓣生长早期的互补表达谱,表明了一种控制射线花瓣大小的新型GhBPE-GhPRGL模块。GhPRGL在早期尤其促进射线花瓣的伸长,而GhBPE通过抑制GhPRGL的表达而在晚期尤其抑制射线花瓣的延伸。JA和GA协同调节GhBPE和GhPRGL基因的表达,提供了一种调节机制,通过这种机制,沙鼠的射线花瓣可以生长到固定的长度。
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来源期刊
Molecular Horticulture
Molecular Horticulture horticultural research-
CiteScore
8.00
自引率
0.00%
发文量
24
审稿时长
12 weeks
期刊介绍: Aims Molecular Horticulture aims to publish research and review articles that significantly advance our knowledge in understanding how the horticultural crops or their parts operate mechanistically. Articles should have profound impacts not only in terms of high citation number or the like, but more importantly on the direction of the horticultural research field. Scope Molecular Horticulture publishes original Research Articles, Letters, and Reviews on novel discoveries on the following, but not limited to, aspects of horticultural plants (including medicinal plants): ▪ Developmental and evolutionary biology ▪ Physiology, biochemistry and cell biology ▪ Plant-microbe and plant-environment interactions ▪ Genetics and epigenetics ▪ Molecular breeding and biotechnology ▪ Secondary metabolism and synthetic biology ▪ Multi-omics dealing with data sets of genome, transcriptome, proteome, metabolome, epigenome and/or microbiome. The journal also welcomes research articles using model plants that reveal mechanisms and/or principles readily applicable to horticultural plants, translational research articles involving application of basic knowledge (including those of model plants) to the horticultural crops, novel Methods and Resources of broad interest. In addition, the journal publishes Editorial, News and View, and Commentary and Perspective on current, significant events and topics in global horticultural fields with international interests.
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