Adaptive reduction of male gamete number in the selfing plant Arabidopsis thaliana

被引:0
作者
Takashi Tsuchimatsu
Hiroyuki Kakui
Misako Yamazaki
Cindy Marona
Hiroki Tsutsui
Afif Hedhly
Dazhe Meng
Yutaka Sato
Thomas Städler
Ueli Grossniklaus
Masahiro M. Kanaoka
Michael Lenhard
Magnus Nordborg
Kentaro K. Shimizu
机构
[1] University of Zurich,Department of Evolutionary Biology and Environmental Studies & Zurich
[2] University of Zurich,Basel Plant Science Center
[3] Vienna BioCenter,Department of Plant and Microbial Biology & Zurich
[4] Chiba University,Basel Plant Science Center
[5] University of Tokyo,Gregor Mendel Institute, Austrian Academy of Sciences
[6] Yokohama City University,Department of Biology
[7] Niigata University,Department of Biological Sciences
[8] University of Potsdam,Kihara Institute for Biological Research
[9] Nagoya University,Graduate School of Science and Technology
[10] Nagoya University,Institute for Biochemistry and Biology
[11] University of Southern California,Graduate School of Science
[12] National Institute of Genetics,JST ERATO Higashiyama Live
[13] ETH Zurich,Holonics Project
来源
Nature Communications | / 11卷
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摘要
The number of male gametes is critical for reproductive success and varies between and within species. The evolutionary reduction of the number of pollen grains encompassing the male gametes is widespread in selfing plants. Here, we employ genome-wide association study (GWAS) to identify underlying loci and to assess the molecular signatures of selection on pollen number-associated loci in the predominantly selfing plant Arabidopsis thaliana. Regions of strong association with pollen number are enriched for signatures of selection, indicating polygenic selection. We isolate the gene REDUCED POLLEN NUMBER1 (RDP1) at the locus with the strongest association. We validate its effect using a quantitative complementation test with CRISPR/Cas9-generated null mutants in nonstandard wild accessions. In contrast to pleiotropic null mutants, only pollen numbers are significantly affected by natural allelic variants. These data support theoretical predictions that reduced investment in male gametes is advantageous in predominantly selfing species.
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