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Gene duplication and evolution in recurring polyploidization-diploidization cycles in plants.植物中重复的多倍体化-二倍体化循环中的基因复制和进化。
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Expansion and Functional Divergence of the SHORT VEGETATIVE PHASE (SVP) Genes in Eudicots.被子植物 SVP 基因的扩张和功能分化。
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木豆中MADS盒基因家族在花期转换过程中的作用鉴定与特征分析

Identification and characterization of MADS box gene family in pigeonpea for their role during floral transition.

作者信息

Kumar Kuldeep, Srivastava Harsha, Das Antara, Tribhuvan Kishor U, Durgesh Kumar, Joshi Rekha, Sevanthi Amitha Mithra, Jain Pradeep Kumar, Singh Nagendra Kumar, Gaikwad Kishor

机构信息

ICAR-National Institute for Plant Biotechnology, New Delhi, 110012 India.

ICAR-Indian Institute of Pulses Research, Kanpur, 208024 Uttar Pradesh India.

出版信息

3 Biotech. 2021 Feb;11(2):108. doi: 10.1007/s13205-020-02605-7. Epub 2021 Feb 1.

DOI:10.1007/s13205-020-02605-7
PMID:33569264
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7851294/
Abstract

UNLABELLED

MADS box genes are class of transcription factors involved in various physiological and developmental processes in plants. To understand their role in floral transition-related pathways, a genome-wide identification was done in , identifying 102 members which were classified into two different groups based on their gene structure. The status of all these genes was further analyzed in three wild species i.e. , and which revealed absence of 31-34 MADS box genes in them hinting towards their role in domestication and evolution. We could locate only a single copy of both FLOWERING LOCUS C () and SHORT VEGETATIVE PHASE () genes, while three paralogs of SUPPRESSOR OF ACTIVATION OF CONSTANS 1 () were found in genome. One of those paralogs i.e. CcMADS1.5 was found to be missing in all three wild relatives, also forming separate clade in phylogeny. This gene was also lacking the characteristic MADS box domain in it. Expression profiling of major MADS box genes involved in flowering was done in different tissues viz shoot apical meristem, vegetative leaf, reproductive meristem, and reproductive bud. Gene-based time tree of and gene dictates their divergence from before 71 and 23 million year ago (mya), respectively. This study provides valuable insights into the functional characteristics, expression pattern, and evolution of MADS box proteins in grain legumes with emphasis on , which may help in further characterizing these genes.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s13205-020-02605-7.

摘要

未标注

MADS盒基因是一类参与植物各种生理和发育过程的转录因子。为了解它们在花转变相关途径中的作用,在[具体物种]中进行了全基因组鉴定,鉴定出102个成员,根据其基因结构将它们分为两个不同的组。在三种野生种即[具体野生种1]、[具体野生种2]和[具体野生种3]中进一步分析了所有这些基因的状态,结果显示它们中缺少31 - 34个MADS盒基因,这暗示了它们在驯化和进化中的作用。我们仅能定位到开花位点C(FLOWERING LOCUS C,FLC)和短营养生长期(SHORT VEGETATIVE PHASE,SVP)基因的单个拷贝,而在[具体物种]基因组中发现了CONSTANS 1激活抑制因子(SUPPRESSOR OF ACTIVATION OF CONSTANS 1,SOC1)的三个旁系同源基因。其中一个SOC1旁系同源基因即CcMADS1.5在所有三个野生近缘种中均缺失,在系统发育中也形成了单独的分支。这个基因也缺少其特征性的MADS盒结构域。对参与开花的主要MADS盒基因在不同组织即茎尖分生组织、营养叶、生殖分生组织和生殖芽中进行了表达谱分析。FLC和SVP基因基于基因的时间树表明它们分别在7100万年前和2300万年前与[具体参照物种]发生分化。本研究为豆科作物中MADS盒蛋白的功能特性、表达模式和进化提供了有价值的见解,重点是[具体物种],这可能有助于进一步表征这些基因。

补充信息

在线版本包含可在10.1007/s13205 - 020 - 02605 - 7获取的补充材料。