Qi-Feng Ma scite author profile

Qi-Feng Ma

3Publications

58Citation Statements Received

167Citation Statements Given

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155

Affiliations

University of Washington, University of California, San Francisco, University of Michigan–Ann Arbor

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NMR Studies of the Association of Cytochrome b₅ with Cytochrome c

Hom

Wolfe

et al. 2000

Biochemistry

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In an effort to gain greater insight into the molecular mechanism of the electron-transfer reactions of cytochrome b(5), the bovine cytochrome b(5)-horse cytochrome c complex has been investigated by high-resolution multidimensional NMR spectroscopy using (13)C, (15)N-labeled cytochrome b(5) expressed from a synthetic gene. Chemical shifts of the backbone (15)N, (1)H, and (13)C resonances for 81 of the 82 residues of [U-90% (13)C,U-90% (15)N]-ferrous cytochrome b(5) in a 1:1 complex with ferrous cytochrome c were compared with those of ferrous cytochrome b(5) in the absence of cytochrome c. A total of 51% of these residues showed small, but significant, changes in chemical shifts (the largest shifts were 0.1 ppm for the amide (1)H, 1.15 for (13)C(alpha), 1.03 ppm for the amide (15)N, and 0.15 ppm for the (1)H(alpha) resonances). Some of the residues exhibiting chemical shift changes are located in a region that has been implicated as the binding surface to cyt c [Salemme, F. R. (1976) J. Mol. Biol. 10, 563-568]. Surprisingly, many of the residues with changes are not located on this surface. Instead, they are located within and around a cleft observed to form in a molecular dynamics study of cytochrome b(5) [Storch, E. M., and Daggett, V. (1995) Biochemistry 34, 9682-9693](.) The rim of this cleft can readily accommodate cytochrome c. Molecular dynamics simulations of the Salemme and cleft complexes were performed for 2 ns and both complexes were stable.

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Stabilization and activation of recombinant human immunodeficiency virus-1 reverse transcriptase-P66

Rowley

Ma²,

Bathurst³

et al. 1990

Biochemical and Biophysical Research Communications

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ChemInform Abstract: Adenosine 5′‐(α,β‐Imido)triphosphate, a Substrate for T7 RNA Polymerase and Rabbit Muscle Creatine Kinase.

Babbitt

Kenyon

1988

ChemInform

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The tris(tetrabutylammonium) salt of the monoacid of imidodiphosphate is coupled directly with 5'‐tosyladenosine in MeCN at 25 °C (24 h) to give adenosine 5'‐(α,β‐imido)diphosphate as the triethylammonium salt (yield 22%) which is incubated for 24 h at 5 °C with phosphocreatine, creatine kinase in glycine buffer, pH 9, and Mg(OAc)2 to give adenosine 5'‐(α,β‐imido)triphosphate (77%).

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Qi-Feng Ma

NMR Studies of the Association of Cytochrome b₅ with Cytochrome c

Stabilization and activation of recombinant human immunodeficiency virus-1 reverse transcriptase-P66

ChemInform Abstract: Adenosine 5′‐(α,β‐Imido)triphosphate, a Substrate for T7 RNA Polymerase and Rabbit Muscle Creatine Kinase.

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Qi-Feng Ma

NMR Studies of the Association of Cytochrome b5 with Cytochrome c

Stabilization and activation of recombinant human immunodeficiency virus-1 reverse transcriptase-P66

ChemInform Abstract: Adenosine 5′‐(α,β‐Imido)triphosphate, a Substrate for T7 RNA Polymerase and Rabbit Muscle Creatine Kinase.

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Product

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NMR Studies of the Association of Cytochrome b₅ with Cytochrome c