Disruption of the petal identity gene APETALA3-3 is highly correlated with loss of petals within the buttercup family (Ranunculaceae)

2013-02-02

 Disruption of the petal identity gene APETALA3-3 is highly correlated with loss of petals within the buttercup family (Ranunculaceae)

者:Rui Zhang, Chunce Guo, Wengen Zhang, Peipei Wang, Lin Li, Xiaoshan Duan, Qinggao Du, Liang Zhao, Hongyan Shan, Scott A. Hodges, Elena M. Kramer, Yi Ren, Hongzhi Kong
影响因子: 9.681
刊物名称: PNAS
出版年份: 2013
: 110  :13 页码: 5074-5079

 

文章摘要 : 

Absence of petals, or being apetalous, is usually one of the most important features that characterizes a group of flowering plants at high taxonomic ranks (i.e., family and above). The apetalous condition, however, appears to be the result of parallel or convergent evolution with unknown genetic causes. Here we show that within the buttercup family (Ranunculaceae), apetalous genera in at least seven different lineages were all derived from petalous ancestors, indicative of parallel petal losses. We also show that independent petal losses within this family were strongly associated with decreased or eliminated expression of a single floral organ identity gene, APETALA3-3 (AP3-3), apparently owing to species-specific molecular lesions. In an apetalous mutant of Nigella, insertion of a transposable element into the second intron has led to silencing of the gene and transformation of petals into sepals. In several naturally occurring apetalous genera, such as Thalictrum, Beesia, and Enemion, the gene has either been lost altogether or disrupted by deletions in coding or regulatory regions. In Clematis, a large genus in which petalous species evolved secondarily from apetalous ones, the gene exhibits hallmarks of a pseudogene. These results suggest that, as a petal identity gene, AP3-3 has been silenced or down-regulated by different mechanisms in different evolutionary lineages. This also suggests that petal identity did not evolve many times independently across the Ranunculaceae but was lost in numerous instances. The genetic mechanisms underlying the independent petal losses, however, may be complex, with disruption of AP3-3 being either cause or effect.

原文下载:2013-Zhang Rui-PNAS.pdf



附件下载:

位于北京西部香山脚下的中国科学院植物研究所是我国系统与进化生物学领域的第一个国家重点实验室

版权所有 © 系统与进化植物学国家重点实验室[中国科学院植物研究所]
ICP备16067583号-12 网站管理

联系我们

  • 地址:北京市海淀区 香山南辛村20号
  • 邮编:100093
  • 电话:010-6283 6086
  • 传真:010-6283 6095
  • 电邮:lseb@ibcas.ac.cn

语言切换