Convergent evolution of shoots in land plants: lack of auxin polar transport in moss shoots

生长素 开枪 生物 普氏藻 苔藓 植物 孢子体 生长素极性运输 配子体 拟南芥 基因 花粉 遗传学 突变体
作者
Tomomichi Fujita,Hisako Sakaguchi,Yuji Hiwatashi,Steven J. Wagstaff,Motomi Itô,Hironori Deguchi,Toshiyuki Sato,Mitsuyasu Hasebe
出处
期刊:Evolution & Development [Wiley]
卷期号:10 (2): 176-186 被引量:122
标识
DOI:10.1111/j.1525-142x.2008.00225.x
摘要

The shoot is a repeated structure made up of stems and leaves and is the basic body plan in land plants. Vascular plants form a shoot in the diploid generation, whereas nonvascular plants such as mosses form a shoot in the haploid generation. It is not clear whether all land plants use similar molecular mechanisms in shoot development or how the genetic networks for shoot development evolved. The control of auxin distribution, especially by polar auxin transport, is essential for shoot development in flowering plants. We did not detect polar auxin transport in the gametophytic shoots of several mosses, but did detect it in the sporophytes of mosses without shoot structure. Treatment with auxin transport inhibitors resulted in abnormal embryo development, as in flowering plants, but did not cause any morphological changes in the haploid shoots. We fused the soybean auxin-inducible promoter GH3 with a GUS reporter gene and used it to indirectly detect auxin distribution in the moss Physcomitrella patens. An auxin transport inhibitor NPA did not cause any changes in the putative distribution of auxin in the haploid shoot. These results indicate that polar auxin transport is not involved in haploid shoot development in mosses and that shoots in vascular plants and mosses are most likely regulated differently during development.
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