番茄 HAIRY MERISTEM 4 基因敲除会改变韧皮部特征并影响发育

Jackson Khedia, Abhay Pratap Vishwakarma, Ortal Galsurker, Shira Corem, Suresh Kumar Gupta, Tzahi Arazi
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摘要

毛细分生组织(HAM)基因家族编码植物中的 I 型和 II 型 GRAS 结构域转录因子。II 型 HAMs 主要在分生组织中表达,受 microRNA171 的调控,对维持未分化的分生组织至关重要,这一作用在不同物种中是一致的。相反,I 型 HAMs 的功能特征却不那么明显。在这项研究中,我们调查了番茄中 I 型 HAM 的作用。利用公开的表达数据和由原生 SlHAM4 启动子驱动的 GUS 报告基因,我们确定 SlHAM4 主要在韧皮部组织中表达。CRISPR诱导的SlHAM4功能缺失突变(slham4CR)会导致一系列的芽和果实异常,而在突变体背景下通过原生启动子重新引入SlHAM4可以完全逆转这些异常。突变体的异常包括叶片和萼片基部的花青素色素增加,这让人联想到在某些拟南芥突变体中观察到的韧皮部受损的表型,以及叶片发育较简单,这与叶轴外部韧皮部面积减少有关。此外,slham4CR植株结出的果实明显较小,其中有一部分果实呈现出猫脸状疤痕,这是因为在坐果后,突变体子房的果皮发生了撕裂。对野生型和突变体子房花期的转录组分析表明,与韧皮部发育和功能有关的基因,特别是伴细胞(CC)中表达的基因出现了特定的下调。我们认为,SlHAM4 是正常韧皮部功能所必需的,部分原因是它调节了编码重要韧皮部蛋白的一系列 CCs 基因的表达。
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Knockout of the tomato HAIRY MERISTEM 4 alters phloem-characteristics and impairs development
The HAIRY MERISTEM (HAM) gene family encodes Type I and II GRAS domain transcription factors in plants. Type II HAMs, predominantly expressed in meristems and regulated by microRNA171, are essential for maintaining undifferentiated meristems, a role conserved across various species. Conversely, the functions of Type I HAMs have been less characterized. In this study, we investigated the role of SlHAM4, a Type I HAM in tomato. Using publicly available expression data and a GUS reporter gene driven by the native SlHAM4 promoter, we determined that SlHAM4 is predominantly expressed in phloem tissues. CRISPR-induced SlHAM4 loss-of- function mutations (slham4CR) resulted in a range of shoot and fruit abnormalities, which were fully reversed by reintroducing SlHAM4 under its native promoter in the mutant background. Mutant abnormalities included increased anthocyanin pigmentation in the leaf and sepal primordia, reminiscent of the phenotypes observed in certain Arabidopsis mutants with compromised phloem, and development of simpler leaves, which was associated with reduction in external phloem area in the leaf rachis. In addition, slham4CR plants produced significantly smaller fruits of which a fraction of them exhibited catface-like scars, attributed to tears which occurred in the pericarp of mutant ovaries following fruit set. Transcriptome analysis of the wild-type looking mutant ovaries at anthesis revealed specific downregulation of genes implicated in phloem development and functions, in particular those expressed in companion cells (CC). We propose that SlHAM4 is necessary for proper phloem function in part by regulating the expression of a suite of CCs genes that encode essential phloem proteins.
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