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Items: 1 to 20 of 70

1.

Plasticity of proton pathways in haem-copper oxygen reductases.

Pereira MM, Gomes CM, Teixeira M.

FEBS Lett. 2002 Jul 3;522(1-3):14-8. Review.

2.

Comparative genomics and site-directed mutagenesis support the existence of only one input channel for protons in the C-family (cbb3 oxidase) of heme-copper oxygen reductases.

Hemp J, Han H, Roh JH, Kaplan S, Martinez TJ, Gennis RB.

Biochemistry. 2007 Sep 4;46(35):9963-72. Epub 2007 Aug 4.

PMID:
17676874
3.

Substitutions for glutamate 101 in subunit II of cytochrome c oxidase from Rhodobacter sphaeroides result in blocking the proton-conducting K-channel.

Tomson FL, Morgan JE, Gu G, Barquera B, Vygodina TV, Gennis RB.

Biochemistry. 2003 Feb 18;42(6):1711-7.

PMID:
12578386
4.

Heme-copper oxidases with modified D- and K-pathways are yet efficient proton pumps.

Gomes CM, Backgren C, Teixeira M, Puustinen A, Verkhovskaya ML, Wikström M, Verkhovsky MI.

FEBS Lett. 2001 May 25;497(2-3):159-64.

5.

The caa(3) terminal oxidase of Rhodothermus marinus lacking the key glutamate of the D-channel is a proton pump.

Pereira MM, Verkhovskaya ML, Teixeira M, Verkhovsky MI.

Biochemistry. 2000 May 30;39(21):6336-40.

PMID:
10828946
6.
7.

Structural elements involved in electron-coupled proton transfer in cytochrome c oxidase.

Namslauer A, Brzezinski P.

FEBS Lett. 2004 Jun 1;567(1):103-10. Review.

8.

Proton translocation by bacteriorhodopsin and heme-copper oxidases.

Wikström M.

Curr Opin Struct Biol. 1998 Aug;8(4):480-8. Review.

PMID:
9729741
9.

An elementary reaction step of the proton pump is revealed by mutation of tryptophan-164 to phenylalanine in cytochrome c oxidase from Paracoccus denitrificans.

Ribacka C, Verkhovsky MI, Belevich I, Bloch DA, Puustinen A, Wikström M.

Biochemistry. 2005 Dec 20;44(50):16502-12.

PMID:
16342941
10.

Evolutionary migration of a post-translationally modified active-site residue in the proton-pumping heme-copper oxygen reductases.

Hemp J, Robinson DE, Ganesan KB, Martinez TJ, Kelleher NL, Gennis RB.

Biochemistry. 2006 Dec 26;45(51):15405-10. Epub 2006 Dec 19.

11.

Proton-coupled electron transfer drives the proton pump of cytochrome c oxidase.

Belevich I, Verkhovsky MI, Wikström M.

Nature. 2006 Apr 6;440(7085):829-32.

PMID:
16598262
12.

The histidine cycle: a new model for proton translocation in the respiratory heme-copper oxidases.

Morgan JE, Verkhovsky MI, Wikström M.

J Bioenerg Biomembr. 1994 Dec;26(6):599-608. Review.

PMID:
7721721
13.

A mutation in subunit I of cytochrome oxidase from Rhodobacter sphaeroides results in an increase in steady-state activity but completely eliminates proton pumping.

Pawate AS, Morgan J, Namslauer A, Mills D, Brzezinski P, Ferguson-Miller S, Gennis RB.

Biochemistry. 2002 Nov 12;41(45):13417-23.

PMID:
12416987
15.

Design principles of proton-pumping haem-copper oxidases.

Brzezinski P, Adelroth P.

Curr Opin Struct Biol. 2006 Aug;16(4):465-72. Epub 2006 Jul 13. Review.

PMID:
16842995
16.

A novel scenario for the evolution of haem-copper oxygen reductases.

Pereira MM, Santana M, Teixeira M.

Biochim Biophys Acta. 2001 Jun 1;1505(2-3):185-208. Review.

17.
18.

The cytochrome ba3 oxygen reductase from Thermus thermophilus uses a single input channel for proton delivery to the active site and for proton pumping.

Chang HY, Hemp J, Chen Y, Fee JA, Gennis RB.

Proc Natl Acad Sci U S A. 2009 Sep 22;106(38):16169-73. doi: 10.1073/pnas.0905264106. Epub 2009 Sep 10.

19.

The K(C) channel in the cbb3-type respiratory oxygen reductase from Rhodobacter capsulatus is required for both chemical and pumped protons.

Yıldız GG, Gennis RB, Daldal F, Öztürk M.

J Bacteriol. 2014 May;196(10):1825-32. doi: 10.1128/JB.00005-14. Epub 2014 Feb 21.

20.

Looking for the minimum common denominator in haem-copper oxygen reductases: towards a unified catalytic mechanism.

Pereira MM, Sousa FL, Veríssimo AF, Teixeira M.

Biochim Biophys Acta. 2008 Jul-Aug;1777(7-8):929-34. doi: 10.1016/j.bbabio.2008.05.441. Epub 2008 May 26. Review.

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