Physcomitrella MADS-box 基因调控水分供应和精子运动以进行受精。

Physcomitrella MADS-box genes regulate water supply and sperm movement for fertilization.

机构信息

Division of Evolutionary Biology, National Institute for Basic Biology, Okazaki, 444-8585, Japan.

Department of Basic Biology, School of Life Science, SOKENDAI (The Graduate University for Advanced Studies), Okazaki, 444-8585, Japan.

出版信息

Nat Plants. 2018 Jan;4(1):36-45. doi: 10.1038/s41477-017-0082-9. Epub 2018 Jan 3.

DOI:10.1038/s41477-017-0082-9

PMID:29296005

Abstract

MIKC classic (MIKC)-type MADS-box genes encode transcription factors that function in various developmental processes, including angiosperm floral organ identity. Phylogenetic analyses of the MIKC-type MADS-box family, including genes from non-flowering plants, suggest that the increased numbers of these genes in flowering plants is related to their functional divergence; however, their precise functions in non-flowering plants and their evolution throughout land plant diversification are unknown. Here, we show that MIKC-type MADS-box genes in the moss Physcomitrella patens function in two ways to enable fertilization. Analyses of protein localization, deletion mutants and overexpression lines of all six genes indicate that three MIKC-type MADS-box genes redundantly regulate cell division and growth in the stems for appropriate external water conduction, as well as the formation of sperm with motile flagella. The former function appears to be maintained in the flowering plant lineage, while the latter was lost in accordance with the loss of sperm.

摘要

MIKC 经典（MIKC）- 型 MADS 框基因编码转录因子，在各种发育过程中发挥作用，包括被子植物花器官的身份。对 MIKC 型 MADS 框家族的系统发育分析，包括非开花植物的基因，表明这些基因在开花植物中的数量增加与它们的功能分化有关；然而，它们在非开花植物中的精确功能及其在陆地植物多样化过程中的进化尚不清楚。在这里，我们表明，苔藓植物Physcomitrella patens 中的 MIKC 型 MADS 框基因以两种方式发挥作用以实现受精。对所有六个基因的蛋白定位、缺失突变体和过表达系的分析表明，三个 MIKC 型 MADS 框基因冗余地调节茎中的细胞分裂和生长，以进行适当的外部水分传导，并形成具有能动鞭毛的精子。前者的功能似乎在开花植物谱系中得以维持，而后者则随着精子的丧失而丢失。

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Physcomitrella MADS-box 基因调控水分供应和精子运动以进行受精。

Physcomitrella MADS-box genes regulate water supply and sperm movement for fertilization.

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