拟南芥MYB5转录因子对黏液合成、种皮发育和毛状体形态发生的调控[W][OA]

S. Li, Olga Nicolaou Milliken, Hanh M. Pham, Reg Seyit, Ross S Napoli, J. Preston, A. Koltunow, R. Parish
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引用次数: 184

摘要

拟南芥MYB5基因在毛状体和种子中表达,包括种皮。MYB5的组成性表达导致小毛状体和异位毛状体的形成,减少叶片毛状体总数和分枝。myb5突变体的毛状体形态变化很小,而myb23突变体的小毛状体和双分枝毛状体数量增加。myb5 myb23双突变体比单突变体产生更多的小莲座毛状体和双分枝毛状体。这些结果表明,MYB5和MYB23调控毛状体的延伸和分支。myb5和myb5、myb23种皮表皮细胞形状不规则,小柱扁平,粘液分泌量低于野生型。微阵列分析在myb5种子中发现的下调基因包括ABE1和ABE4 (α/β折叠水解酶/酯酶基因)、MYBL2和GLABRA2。同样的基因在透明种皮1 (ttg1)种子中也被下调,这表明MYB5与ttg1在种皮发育中协同作用。这些基因在叶片和根中通过MYB5的异位表达而上调。MYBL2、ABE1和ABE4启动子在种子(包括种皮)中有活性,后两者在毛状体中也有活性。介绍了参与种皮和毛状体发育的MYB5调控网络模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Arabidopsis MYB5 Transcription Factor Regulates Mucilage Synthesis, Seed Coat Development, and Trichome Morphogenesis[W][OA]
The Arabidopsis thaliana MYB5 gene is expressed in trichomes and seeds, including the seed coat. Constitutive expression of MYB5 resulted in the formation of more small trichomes and ectopic trichomes and a reduction in total leaf trichome numbers and branching. A myb5 mutant displayed minimal changes in trichome morphology, while a myb23 mutant produced increased numbers of small trichomes and two-branched trichomes. A myb5 myb23 double mutant developed more small rosette trichomes and two-branched trichomes than the single mutants. These results indicate that MYB5 and MYB23 regulate trichome extension and branching. The seed coat epidermal cells of myb5 and myb5 myb23 were irregular in shape, developed flattened columellae, and produced less mucilage than those of the wild type. Among the downregulated genes identified in the myb5 seeds using microarray analysis were ABE1 and ABE4 (α/β fold hydrolase/esterase genes), MYBL2, and GLABRA2. The same genes were also downregulated in transparent testa glabra1 (ttg1) seeds, suggesting that MYB5 collaborates with TTG1 in seed coat development. These genes were upregulated in leaves and roots by ectopically expressed MYB5. The MYBL2, ABE1, and ABE4 promoters were active in seeds, including seed coats, and the latter two also in trichomes. Models of the MYB5 regulatory networks involved in seed coat and trichome development are presented.
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