1700002410
1700002411
Yamaguchi A, Yamamoto M, Takai K, Ishii T, Hashimoto K, Nakamura R. Electrochemical CO2 reduction by Nicontaining iron sulfides: how is CO2 electrochemically reduced at bisulfide-bearing deep sea hydrothermal precipitates? Electrochimica Acta141: 311–18 (2014).
1700002412
1700002413
银河系中蛇纹岩化作用发生的概率
1700002414
1700002415
de Leeuw NH, Catlow CR, King HE, Putnis A, Muralidharan K, Deymier P, Stimpfl M, Drake MJ. Where on Earth has our water come from? Chemical Communications46: 8923–25 (2010).
1700002416
1700002417
Petigura EA, Howard AW, Marcy GW. Prevalence of Earth-sized planets orbiting Sunlike stars. Proceedings National Academy Sciences USA110: 19273–78 (2013).
1700002418
1700002419
4 细胞的诞生
1700002420
1700002421
水平基因转移的问题与物种形成
1700002422
1700002423
Doolittle WF. Phylogenetic classification and the universal tree. Science284: 2124–28 (1999).
1700002424
1700002425
Lawton G. Why Darwin was wrong about the tree of life. New Scientist2692: 34–39 (2009).
1700002426
1700002427
Mallet J. Why was Darwin’s view of species rejected by twentieth century biologists? Biology and Philosophy25: 497–527 (2010).
1700002428
1700002429
Martin WF. Early evolution without a tree of life. Biology Direct6: 36 (2011).
1700002430
1700002431
Nelson-Sathi S et al. Origins of major archaeal clades correspond to gene acquisitions from bacteria. Naturedoi: 10.1038/nature13805 (2014).
1700002432
1700002433
基于不到1%基因绘制的“通用生命树”
1700002434
1700002435
Ciccarelli FD, Doerks T, von Mering C, Creevey CJ, Snel B, et al. Toward automatic reconstruction of a highly resolved tree of life. Science311: 1283–87 (2006).
1700002436
1700002437
Dagan T, Martin W. The tree of one percent. Genome Biology7: 118 (2006).
1700002438
1700002439
古菌和细菌中保留的基因
1700002440
1700002441
Charlebois RL, Doolittle WF. Computing prokaryotic gene ubiquity: Rescuing the core from extinction. Genome Research14: 2469–77 (2004).
1700002442
1700002443
Koonin EV. Comparative genomics, minimal gene-sets and the last universal common ancestor. Nature Reviews Microbiology 1: 127–36 (2003).
1700002444
1700002445
Sousa FL, Thiergart T, Landan G, Nelson-Sathi S, Pereira IAC, Allen JF, Lane N, Martin WF. Early bioenergetic evolution. Philosophical Transactions of the Royal Society B368: 20130088 (2013).
1700002446
1700002447
露卡自相矛盾的特征
1700002448
1700002449
Dagan T, Martin W. Ancestral genome sizes specify the minimum rate of lateral gene transfer during prokaryote evolution. Proceedings National Academy Sciences USA104: 870–75 (2007).
1700002450
1700002451
Edgell DR, Doolittle WF. Archaea and the origin(s) of DNA replication proteins. Cell89: 995–98 (1997).
1700002452
1700002453
Koga Y, Kyuragi T, Nishihara M, Sone N. Did archaeal and bacterial cells arise independently from noncellular precursors? A hypothesis stating that the advent of membrane phospholipid with enantiomeric glycerophosphate backbones caused the separation of the two lines of descent. Journal of Molecular Evolution46: 54–63 (1998).
1700002454
1700002455
Leipe DD, Aravind L, Koonin EV. Did DNA replication evolve twice independently? Nucleic Acids Research27: 3389–3401 (1999).
1700002456
1700002457
Martin W, Russell MJ. On the origins of cells: a hypothesis for the evolutionary transitions from abiotic geochemistry to chemoautotrophic prokaryotes, and from prokaryotes to nucleated cells. Philosophical Transactions Royal Society B358: 59–83 (2003).
1700002458
1700002459
膜脂质的问题
[
上一页 ]
[ :1.70000241e+09 ]
[
下一页 ]