Chloroplast DNA Underwent Independent Selection from Nuclear Genes during Soybean Domestication and Improvement

Chao Fang^{a, b},
Yanming Ma^{a, c},
Lichai Yuan^d,
Zheng Wang^a,
Rui Yang^a,
Zhengkui Zhou^a,
Tengfei Liu^{a, b},
Zhixi Tian^{a
, ,}

a.
State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China
b.
University of Chinese Academy of Sciences, Beijing 100049, China
c.
Beijing University of Agriculture, Beijing 102206, China
d.
The Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences, Beijing 100193, China

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Corresponding author: E-mail address: zxtian@genetics.ac.cn (Zhixi Tian)

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参考文献(20)

[1]	Belfort, M., Reaban, M.E., Coetzee, T. et al. Prokaryotic introns and inteins: a panoply of form and function J. Bacteriol., 177 (1995),pp. 3897-3903
[2]	Birky, C.W., Fuerst, P., Maruyama, T. Organelle gene diversity under migration, mutation, and drift: equilibrium expectations, approach to equilibrium, effects of heteroplasmic cells, and comparison to nuclear genes Genetics, 121 (1989),pp. 613-627
[3]	Carter, T.E.J., Nelson, R.L., Sneller, C.H. et al.
[4]	Corriveau, J.L., Coleman, A.W. Rapid screening method to detect potential biparental inheritance of plastid DNA and results for over 200 angiosperm species Am. J. Bot., 75 (1988),pp. 1443-1458
[5]	Cullis, C.A., Vorster, B.J., Van Der Vyver, C. et al. Transfer of genetic material between the chloroplast and nucleus: how is it related to stress in plants? Ann. Bot., 103 (2009),pp. 625-633
[6]	Diamond, J. Evolution, consequences and future of plant and animal domestication Nature, 418 (2002),pp. 700-707
[7]	Gai, J.Y., Zhao, T.J.
[8]	Goksoyr, J. Evolution of eucaryotic cells Nature, 214 (1967),p. 1161
[9]	Guo, J.A., Wang, Y.S., Song, C. et al. Ann. Bot., 106 (2010),pp. 505-514
[10]	Heins, L., Soll, J. Chloroplast biogenesis: mixing the prokaryotic and the eukaryotic? Curr. Biol., 8 (1998),pp. R215-R217
[11]	Keeling, P.J. The endosymbiotic origin, diversification and fate of plastids Philos. Trans. R. Soc. Lond. B Biol. Sci., 365 (2010),pp. 729-748
[12]	Martin, W., Herrmann, R.G. Gene transfer from organelles to the nucleus: how much, what happens, and why? Plant Physiol., 118 (1998),pp. 9-17
[13]	Martin, W., Rujan, T., Richly, E. et al. Proc. Natl. Acad. Sci. USA, 99 (2002),pp. 12246-12251
[14]	Provan, J., Powell, W., Hollingsworth, P.M. Chloroplast microsatellites: new tools for studies in plant ecology and evolution Trends Ecol. Evol., 16 (2001),pp. 142-147
[15]	Raubeson, L.A., Jasen, R.K.
[16]	Saski, C., Lee, S.B., Daniell, H. et al. Plant Mol. Biol., 59 (2005),pp. 309-322
[17]	Schmutz, J., Cannon, S.B., Schlueter, J. et al. Genome sequence of the palaeopolyploid soybean Nature, 463 (2010),pp. 178-183
[18]	Wilson, R.F.
[19]	Wolfe, K.H., Li, W.H., Sharp, P.M. Rates of nucleotide substitution vary greatly among plant mitochondrial, chloroplast, and nuclear DNAs Proc. Natl. Acad. Sci. USA, 84 (1987),pp. 9054-9058
[20]	Zhou, Z., Jiang, Y., Wang, Z. et al. Resequencing 302 wild and cultivated accessions identifies genes related to domestication and improvement in soybean Nat. Biotechnol., 33 (2015),pp. 408-414