about
Evolution of cytochrome oxidase, an enzyme older than atmospheric oxygenRestoration of a lost metal-binding site: construction of two different copper sites into a subunit of the E. coli cytochrome o quinol oxidase complex.Arabidopsis alternative oxidase sustains Escherichia coli respiration.Noninvasive auto-photoreduction used as a tool for studying structural changes in heme-copper oxidases by FTIR spectroscopyResolution of the aerobic respiratory system of the thermoacidophilic archaeon, Sulfolobus sp. strain 7. I. The archaeal terminal oxidase supercomplex is a functional fusion of respiratory complexes III and IV with no c-type cytochromes.Cytochrome oxidase evolved by tinkering with denitrification enzymes.Metabolic pathways in Paracoccus denitrificans and closely related bacteria in relation to the phylogeny of prokaryotes.The roles of the two proton input channels in cytochrome c oxidase from Rhodobacter sphaeroides probed by the effects of site-directed mutations on time-resolved electrogenic intraprotein proton transfer.Biogenesis of respiratory cytochromes in bacteria.Kinetics of CO binding to putative Na(+)-motive oxidases of the o-type from Bacillus FTU and of the d-type from Escherichia coli.Kinetics of CO binding to H(+)-motive oxidases of the caa3-type from Bacillus FTU and of the o-type from Escherichia coli.Molecular genetic and protein chemical characterization of the cytochrome ba3 from Thermus thermophilus HB8.Molecular genetics of the genus Paracoccus: metabolically versatile bacteria with bioenergetic flexibility.Outer membrane changes in a toluene-sensitive mutant of toluene-tolerant Pseudomonas putida IH-2000The terminal quinol oxidase of the hyperthermophilic archaeon Acidianus ambivalens exhibits a novel subunit structure and gene organization.Cytochrome aa3 gene regulation in members of the family Rhizobiaceae: comparison of copper and oxygen effects in Bradyrhizobium japonicum and Rhizobium tropici.Bioenergetics: the evolution of molecular mechanisms and the development of bioenergetic concepts.Biosynthesis and functional role of haem O and haem A.Comparison of ubiquinol and cytochrome c terminal oxidases. An alternative view.An archaebacterial terminal oxidase combines core structures of two mitochondrial respiratory complexes.'CO2-ligated' cytochrome c oxidase: characterization and comparison with the Cl- -ligated enzymeHigh-yield purification of cytochrome aa3 and cytochrome caa3 oxidases from Bacillus subtilis plasma membranes.Role of copper during carbon monoxide binding to terminal oxidases.A second terminal oxidase in Sulfolobus acidocaldarius.The purified SoxABCD quinol oxidase complex of Sulfolobus acidocaldarius contains a novel haem.The terminal oxidases of Paracoccus denitrificans.Probing substrate binding site of the Escherichia coli quinol oxidases using synthetic ubiquinol analogues.Redox FTIR difference spectroscopy using caged electrons reveals contributions of carboxyl groups to the catalytic mechanism of haem-copper oxidases.The reaction of hydrogen peroxide with pulsed cytochrome bo from Escherichia coli.Cyanide-reactive sites in cytochrome bd complex from E. coli.The cupredoxin fold is found in the soluble CuA and CyoA domains of two terminal oxidases
P2860
Q24595471-9141BA29-EFA2-4568-B92E-6E3654EA1979Q30195281-3CE06CA0-66D4-4CA1-9396-E9E85127AE6AQ31001653-F4432E4B-8FE6-432F-B220-6ACD0A88FC42Q31052473-F91228C8-F9F3-4AC1-96DA-9D996012320AQ34062182-4D56FE97-49EB-4369-9940-B40D358A6A7FQ34337943-EAA5DDE5-B13F-41B6-BDC5-25425ABFF849Q36065016-A88940C8-7309-474C-9F84-BA743878CF0FQ36550302-98251969-B137-48B2-8C57-04007F9C3E37Q36574350-E5399457-2E0A-4397-AB4D-7C5A0D889B58Q36766685-8D1D0B74-5A8C-4520-9209-8DA9A3721501Q36766689-1EB1DEE6-52F6-40D2-A51B-6B059AFBD3FCQ38292043-ECBFAF9B-8258-421F-B878-8AB3F6EAA2B8Q39523442-B0E0B91B-522F-4F16-8BCA-46B8712ED6A9Q39547341-9775BFEA-2DDD-4F61-A329-06AF2B88AB57Q39844603-56EC38C2-D31D-47B9-9E22-EE9D2D8EC5BCQ39913842-C4AAD889-3AA5-401B-BB34-5818D6A406A8Q40577891-6EBEFEF9-0F1F-4EC7-9E4E-F115E39688F1Q40609423-316996AA-D033-457E-BA88-9583D0251B70Q40856201-37F434FC-7823-4A95-B487-ACEC38611D53Q41517843-E6DF9912-E768-43DB-BDB8-2BD4D2F4D1DCQ42077054-F6A9B1C0-F45E-4E81-8CFE-6238564F6BC4Q42821681-D2865CE5-0E40-4A24-A0C0-27AD393B15A9Q47895793-A552335A-261C-4982-A8EA-E79538F17F7AQ48079953-5A8CCEEF-29C7-4252-ACB8-7B78B2857D24Q54026689-32C78656-EBC9-4A74-A517-4BA872913E58Q54198432-B1540781-F475-4C73-8D51-399E6B72D96EQ54576702-3E52B0ED-F473-47D0-B74E-797D76E323D6Q54576771-7FBBAE50-CC62-41C1-A796-F91AC7DDC587Q54622584-0C55D919-A268-49EC-A51F-F0B5045FD470Q54653246-F4AE5F94-C48F-4CCC-A954-174E9CD1BE69Q57822202-CABDFD61-3883-430A-BEF6-63A64D0769B3
P2860
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年学术文章
@wuu
1991年学术文章
@zh-cn
1991年学术文章
@zh-hans
1991年学术文章
@zh-my
1991年学术文章
@zh-sg
1991年學術文章
@yue
1991年學術文章
@zh
1991年學術文章
@zh-hant
name
The happy family of cytochrome oxidases.
@ast
The happy family of cytochrome oxidases.
@en
type
label
The happy family of cytochrome oxidases.
@ast
The happy family of cytochrome oxidases.
@en
prefLabel
The happy family of cytochrome oxidases.
@ast
The happy family of cytochrome oxidases.
@en
P2093
P356
P1476
The happy family of cytochrome oxidases.
@en
P2093
P304
P356
10.1042/BST0190608
P577
1991-08-01T00:00:00Z