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MADS-box基因家族基因重复及其功能的多样性 总被引:7,自引:0,他引:7
基因的重复(duplication)及其功能的多样性(diversification)为生物体新的形态进化提供了原材料。MADS-box基因在植物(特别是被子植物)的进化过程中发生了大规模的基因重复事件而形成一个多基因家族。MADS-box基因家族的不同成员在植物生长发育过程中起着非常重要的作用,在调控开花时间、决定花分生组织和花器官特征以及调控根、叶、胚珠及果实的发育中起着广泛的作用。探讨MADS-box基因家族的进化历史有助于深入了解基因重复及随后其功能分化的过程和机制。本文综述了MADS-box基因家族基因重复及其功能分化式样的研究进展。 相似文献
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基因的重复(duplication)及其功能的多样性(diversification)为生物体新的形态进化提供了原材料。MADS-box基因在植物(特别是被子植物)的进化过程中发生了大规模的基因重复事件而形成一个多基因家族。MADS-box基因家族的不同成员在植物生长发育过程中起着非常重要的作用, 在调控开花时间、决定花分生组织和花器官特征以及调控根、叶、胚珠及果实的发育中起着广泛的作用。探讨MADS-box基因家族的进化历史有助于深入了解基因重复及随后其功能分化的过程和机制。本文综述了MADS-box基因家族基因重复及其功能分化式样的研究进展。 相似文献
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Analysis of the petunia MADS-box transcription factor family 总被引:9,自引:0,他引:9
Immink RG Ferrario S Busscher-Lange J Kooiker M Busscher M Angenent GC 《Molecular genetics and genomics : MGG》2003,268(5):598-606
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De Bodt S Raes J Florquin K Rombauts S Rouzé P Theissen G Van de Peer Y 《Journal of molecular evolution》2003,56(5):573-586
Abstract
The type I MADS-box genes constitute a largely unexplored subfamily of the extensively studied MADS-box gene family, well
known for its role in flower development. Genes of the type I MADS-box subfamily possess the characteristic MADS box but are
distinguished from type II MADS-box genes by the absence of the keratin-like box. In this in silico study, we have structurally annotated all 47 members of the type I MADS-box gene family in Arabidopsis thaliana and exerted a thorough analysis of the C-terminal regions of the translated proteins. On the basis of conserved motifs in
the C-terminal region, we could classify the gene family into three main groups, two of which could be further subdivided.
Phylogenetic trees were inferred to study the evolutionary relationships within this large MADS-box gene subfamily. These
suggest for plant type I genes a dynamic of evolution that is significantly different from the mode of both animal type I
(SRF) and plant type II (MIKC-type) gene phylogeny. The presence of conserved motifs in the majority of these genes, the identification
of Oryza sativa MADS-box type I homologues, and the detection of expressed sequence tags for Arabidopsis thaliana and other plant type I genes suggest that these genes are indeed of functional importance to plants. It is therefore even
more intriguing that, from an experimental point of view, almost nothing is known about the function of these MADS-box type
I genes. 相似文献
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Molecular and phylogenetic analyses of the complete MADS-box transcription factor family in Arabidopsis: new openings to the MADS world 总被引:25,自引:0,他引:25 下载免费PDF全文
Parenicová L de Folter S Kieffer M Horner DS Favalli C Busscher J Cook HE Ingram RM Kater MM Davies B Angenent GC Colombo L 《The Plant cell》2003,15(7):1538-1551
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Since the time of Darwin, biologists have studied the origin and evolution of the Orchidaceae, one of the largest families of flowering plants. In the last two decades, the extreme diversity and specialization of floral morphology and the uncoupled rate of morphological and molecular evolution that have been observed in some orchid species have spurred interest in the study of the genes involved in flower development in this plant family. As part of the complex network of regulatory genes driving the formation of flower organs, the MADS-box represents the most studied gene family, both from functional and evolutionary perspectives. Despite the absence of a published genome for orchids, comparative genetic analyses are clarifying the functional role and the evolutionary pattern of the MADS-box genes in orchids. Various evolutionary forces act on the MADS-box genes in orchids, such as diffuse purifying selection and the relaxation of selective constraints, which sometimes reveals a heterogeneous selective pattern of the coding and non-coding regions. The emerging theory regarding the evolution of floral diversity in orchids proposes that the diversification of the orchid perianth was a consequence of duplication events and changes in the regulatory regions of the MADS-box genes, followed by sub- and neo-functionalization. This specific developmental-genetic code is termed the "orchid code." 相似文献
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Hileman LC Sundstrom JF Litt A Chen M Shumba T Irish VF 《Molecular biology and evolution》2006,23(11):2245-2258
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MADS-Box gene diversity in seed plants 300 million years ago 总被引:17,自引:0,他引:17
Becker A Winter KU Meyer B Saedler H Theissen G 《Molecular biology and evolution》2000,17(10):1425-1434
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