REFERENCE LIST
COI Enzyme Structure - Prokaryotes

Backgren C, Hummer G, Wikstrom M, Puustinen A 2000. Proton translocation by cytochrome c oxidase can take place without the conserved glutamic acid in subunit I. Biochemistry 39: 7863-7867

Branden M, Sigurdson H, Namslauer A, Gennis RB, Adelroth P, Brzezinski P 2001. On the role of the K-proton transfer pathway in cytochrome c oxidase. Proceedings of the National Academy of Sciences 98: 5013-5018

Bratton MR, Hiser L, Antholine WE, Hoganson C, Hosler JP 2000. Identification of the structural subunits required for formation of the metal centers in subunit I of cytochrome c oxidase of Rhodobacter sphaeroides. Biochemistry 39: 12989-12995

Buse G, Soulimane T, Dewor M, Meyer HE, Bluggel M 1999. Evidence for a copper-coordinated histidine-tyrosine cross-link in the active site of cytochrome oxidase. Protein Science 8: 985-990

Castresana J, Moreira D 1999. Respiratory chains in the last common ancestor of living organisms. Journal of Molecular Evolution 49: 453-460

Das TK, Pecoraro C, Tomson FL, Gennis RB, Rousseau DL 1998. The post-translational modification in cytochrome c oxidase is required to establish a functional environment of the catalytic site. Biochemistry 37: 14471-14476

Dennison C, Canters G 1996. The CuA site of cytochrome c oxidase. Recuil des Travaux Chimiques des Pays-Bas 115: 345-351

Fetter JR, Quian J, Shapleigh J, Thomas JW, Garcia-Horsman A, Schmidt E, Hosler J, Babcock GT, Gennis RB, Ferguson-Miller S 1995. Possible proton relay pathways in cytochrome c oxidase. Proceedings of the National Academy of Sciences USA 92: 1604-1608

Gagnon RE, Gagnon FA, Macnab AJ 1996. Comparison of 13 published cytochrome c oxidase near-infrared spectoscopy algorithms. European Journal of Applied Physiology 74: 487-495

Gennis RB 1998. Exploring the proton channels of cytochrome oxidase . BOOK: biological electron transfer chains: genetics, composition and mode of operation

Gromiha MM 1999. A simple method for predicting transmembrane alpha helices with better accuracy. Protein Engineering 12: 557-561

Hiser L, Hosler JP 2001. Heme a is not essential for assembly of the subunits of cytochrome c oxidase of Rhodobacter sphaeroides. The Journal of Biological Chemistry 276: 45403-45407

Hofacker I, Schulten K 1998. Oxygen and proton pathways in cytochrome c oxidase. Proteins 30: 100-107

Hosler JP, Shapleigh JP, Mitchell DM, Kim Y, Pressler MA, Georgiou C, Babcock GT, Alben JO, Ferguson-Miller S, Gennis RB 1996. Polar residues in helix VIII of subunit I of cytochrome c oxidase influence the activity and the structure of the active site. Biochemistry 35: 10776-10783

Javapour MM, Eilers M, Groesbeek M, Smith SO 1999. Helix packing in polytopic membrane proteins: role of glycine in transmembrane helix association. Biophysical Journal 77: 1609-1618

Karpefors M 2000. Control mechanisms of electron and proton transfer in cytochrome c oxidase. Chalmers dissertations, Chalmers University of Technology

Lee HM, Das TK, Rousseau DL, Mills D, Ferguson-Miller S, Gennis RB 2000. Mutations in the putative h-channel in the cytochrome c oxidase from rhodobacter sphaeroides show that this channel is not important for proton conduction but reveal modulation of the properties of heme a. Biochemistry 39: 2989-2996

Liebl U, Lipowski G, Negrerie M, Lambry JC, Martin JL, Vos MH 1999. Coherent reaction dynamics in a bacterial cytochrome c oxidase. Nature 401: 181-184

Luecke H, Richter HT, Lanyi JK 1998. Proton transfer pathways in bacteriorhodopsin at 2.3 angstrom resolution. Science 280: 1934-1937

Musser SM, Chan SI 1998. Evolution of the cytochrome c oxidase proton pump. Journal of Molecular Evolution 46: 508-520

Warne A, Wang DN, Sarste M 1995. Purificaiton and two-dimensional crystallization of bacterial cytochrom oxidases. European Journal of Biochemistry 234: 443-451

Witt H, Zickermann V, Ludwig B 1995. Site-directed mutagenesis of cytochrome c oxidase reveals two acidic residues involved in the binding of cytochrome c. Biochimica et Biophysical Acta 1230: 74-76