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

Chao Fang; Yanming Ma; Lichai Yuan; Zheng Wang; Rui Yang; Zhengkui Zhou; Tengfei Liu; Zhixi Tian

doi:10.1016/j.jgg.2016.01.005

Volume 43 Issue 4

Apr. 2016

Turn off MathJax

Article Contents

Article Navigation > Journal of Genetics and Genomics > 2016 > 43(4): 217-221

PDF( 452 KB)

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

doi: 10.1016/j.jgg.2016.01.005

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

More Information

Corresponding author: E-mail address: zxtian@genetics.ac.cn (Zhixi Tian)
Received Date: 2015-10-08
Accepted Date: 2016-01-08
Rev Recd Date: 2016-01-06

Available Online: 2016-01-28

Publish Date: 2016-04-20

Abstract

FullText(HTML)

References(20)

References

[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