1700264190
XIV Hudson, R.; de Graaf, R.; Rodin, M. S.; et al.( 2020). CO2 reduction driven by a pH gradient.Proceedings of the NationalAcademy of Sciences, 117 (37): 22873-22879.
1700264191
1700264192
XV 关于甲酰甲烷呋喃脱氢酶的催化原理:Wagner, T.; Ermler, U.; Shima, S.(2016). The methanogenic CO2 reduc ing-and-fixing enzyme is bifunctional and contains 46[4Fe-4S] clusters.Science, 354(6308): 114–117.
1700264193
1700264194
XVI 关于甲酰甲烷呋喃脱氢酶,参见:Wagner, T.; Ermler, U.; Shima, S.(2016). The methanogenic CO2 reducing-and-fix ing enzyme is bifunctional and contains 46[4Fe-4S] clusters.Science, 354(6308): 114–117。
1700264195
1700264196
XVII 关于钴咕啉铁硫蛋白的作用机理,参见:Svetlitchnaia, T.; Svetlitchnyi, V.; Meyer, O.; Dobbek, H.(2006). Struc tural insights into methyltransfer reactions of a corrinoid iron–sulfur protein involved in acetyl-CoA synthesis.Proceedingsof the National Academy of Sciences, 103(39): 14331-14336; Stich, T. A.; Seravalli, J.; Venkateshrao, S.; et al.(2006). Spec troscopic studies of the corrinoid/iron-sulfur protein from Moorella thermoacetica.Journal of the American Chemical Society, 128(15)
:5010–5020。
1700264197
1700264198
XVIII 关于一氧化碳脱氢/乙酰辅酶A合成酶,参见:Dobbek, H.; Svetlitchnyi, V.; Gremer, L.; et al.(2001). Crystal struc ture of a carbon monoxide dehydrogenase reveals a [Ni-4Fe-5S] cluster.Science, 293(5533): 1281–1285; Lindahl, P. A.(2009).Nickel-carbon bonds in acetyl-coenzyme a synthases/carbon monoxide dehydrogenases.Metal ions in life sciences, 6
:133-150。
1700264199
1700264200
XIX 关于乙酰辅酶A合成酶的铁硫簇A催化机制,参见:Hegg, E. L.(2004). Unraveling the Structure and mechanism of acetyl-coenzyme a synthase.Accounts of chemical research, 37(10): 775–783。
1700264201
1700264202
第十章
1700264203
1700264204
I 关于白烟囱假说对甲硫醇和硫代乙酸甲酯的倾向,参见:Martin, W.; Russell, M. J.( 2007). On the origin of biochemistry at an alkaline hydrothermal vent.Philosophical transactions of The Royal Society B Biological Sciences, 362(1486)
:1887–1925。
1700264205
1700264206
II Kitadai, N.; Maruyama, S.(2018). Origins of building blocks of life: A review.Geoscience frontiers, 9(4): 1117-1153.
1700264207
1700264208
III Camprubi, E.; Jordan, S. F.; Vasiliadou, R.; Lane, N.(2017). Iron catalysis at the origin of life.IUBMB Life, 69(6)
:373-381.
1700264209
1700264210
IV Whicher, A.; Camprubi, E.; Pinna, S.; et al.(2018) Acetyl phosphate as a primordial energy currency at the origin of life.Origins of life and evolution of biospheres,;48(2)
:159–179.
1700264211
1700264212
第四幕
1700264213
1700264214
第十一章
1700264215
1700264216
I 关于天花病毒的起源,参见:Hughes, A. L.; Irausquin, S.; Friedman, R.(2010). The evolutionary biology of pox viruses.Infection, genetics and evolution, 10 (1): 50–59。
1700264217
1700264218
II 关于最复杂的拟菌病毒基因组,参见:Abrahão, J.; Silva, L.; Silva, L. S.; et al.(2018). Tailed giant Tupanvirus possesses the most complete translational apparatus of the known virosphere.Nature communications, 9(749)。
1700264219
1700264220
III Judd, B. H. (2001). Nucleic acids as genetic material. In eLS, (Ed.). https://doi.org/10.1038/npg.els.0000807.
1700264221
1700264222
IV 库宁的论文,参见:Koonin, E.; Senkevich, T.; Dolja, V.(2006). The ancient Virus World and evolution of cells.Biologydirect, 1(29)。
1700264223
1700264224
第十二章
1700264225
1700264226
I 关于甲醛聚糖反应产生生物活性的多种单糖,以及它对RNA世界假说的意义,参见:Cleaves H. J.(2011). Formosereaction. In: Gargaud M. et al.(eds).Encyclopedia of Astrobiology. Berlin, Heidelberg: Springer; Harrison, S.; Lane, N.(2018).Life as a guide to prebiotic nucleotide synthesis.Nature communications, 9(5176).
1700264227
1700264228
II Furukawa, Yoshihiro; Chikaraishi, Yoshito; Ohkouchi, Naohiko; et al. (2019). Extraterrestrial ribose and other sugars in prim itive meteorites.Proceedings of the National Academy of Sciences, 116(49): 24440–24445.
1700264229
1700264230
III Powner, M. W.; Gerland, B.; Sutherland, J. D.(2009). Synthesis of activated pyrimidine ribonucleotides in prebiotically plausible conditions.Nature, 459(7244): 239–242.
1700264231
1700264232
IV Martin. W.; Russell. M. J.(2006). On the origin of biochemistry at an alkaline hydrothermal vent.Philosophical transactions of The Royal Society B Biological Sciences, 362(1486): 1887–1925;Harrison, S.; Lane, N.; Life as a guide to prebiotic nucleotide synthesis.Nature communications, 9(5176).
1700264233
1700264234
V Herschy, B.; Whicher, A.; Camprubi, E.; et al.(2014). An origin-of-life reactor to simulate alkaline hydrothermal vents.Journal of molecular evolution, 79(5-6)
:213–227.
1700264235
1700264236
VI Baaske, P.; Weinert, F. M.; Duhr, S.; et al.( 2007). Extreme accumulation of nucleotides in simulated hydrothermal pore systems.Proceedings of the National Academy of Sciences, 104(22): 9346-9351; Mast, C. B.; Schink, S.; Gerland, U.; Braun, D.( 2013). Escalation of polymerization in a thermal gradient.Proceedings of the National Academy of Sciences, 110(20)
:8030-8035.
1700264237
1700264238
VII White, H. B. 3rd.(1976). Coenzymes as fossils of an earlier metabolic state.Journal of molecular evolution, 7(2)
:101-104; Penny, D.( 2005). An interpretative review of the origin of life research.Biology & Philosophy, 20
:633–671.
1700264239
[
上一页 ]
[ :1.70026419e+09 ]
[
下一页 ]