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Michael J Barber

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Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|April 12, 2006
Network of European Union-funded collaborative research and development projectsMichael J Barber, Andreas Krueger, Tyll Krueger, et al.
Archives of Biochemistry and Biophysics|March 27, 2002
Heterologous expression of an endogenous rat cytochrome b(5)/cytochrome b(5) reductase fusion protein: identification of histidines 62 and 85 as the heme axial ligandsC Ainsley Davis, Ish K Dhawan, Michael K Johnson, et al.
Archives of Biochemistry and Biophysics|December 31, 2002
Biotin sulfoxide reductase: Tryptophan 90 is required for efficient substrate utilizationVeronica V Pollock, Richard C Conover, Michael K Johnson, et al.
Archives of Biochemistry and Biophysics|July 26, 2002
Bacterial expression of the molybdenum domain of assimilatory nitrate reductase: production of both the functional molybdenum-containing domain and the nonfunctional tungsten analogVeronica V Pollock, Richard C Conover, Michael K Johnson, et al.
Biochemistry|October 12, 2005
Mutagenesis of Glycine 179 modulates both catalytic efficiency and reduced pyridine nucleotide specificity in cytochrome b5 reductaseGlenn W Roma, Louis J Crowley, C Ainsley Davis, et al.
Biochemistry|November 12, 2003
The structure of the S127P mutant of cytochrome b5 reductase that causes methemoglobinemia shows the AMP moiety of the flavin occupying the substrate binding siteMaria C Bewley, C Ainsley Davis, Christopher C Marohnic, et al.
Archives of Biochemistry and Biophysics|June 8, 2002
Synthesis and bacterial expression of a gene encoding the heme domain of assimilatory nitrate reductaseMichael J Barber, Shawn K Desai, Christopher C Marohnic, et al.
Biochemistry|February 16, 2005
Cytochrome b5 reductase: role of the si-face residues, proline 92 and tyrosine 93, in structure and catalysisChristopher C Marohnic, Louis J Crowley, C Ainsley Davis, et al.
Pageof 2

Showing results (11-20 of 18) with videos related to

Sort By:
Pageof 2
You have reached the last page of results.This site can display upto 18 results.
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|April 12, 2006
Network of European Union-funded collaborative research and development projectsMichael J Barber, Andreas Krueger, Tyll Krueger, et al.
Archives of Biochemistry and Biophysics|March 27, 2002
Heterologous expression of an endogenous rat cytochrome b(5)/cytochrome b(5) reductase fusion protein: identification of histidines 62 and 85 as the heme axial ligandsC Ainsley Davis, Ish K Dhawan, Michael K Johnson, et al.
Archives of Biochemistry and Biophysics|December 31, 2002
Biotin sulfoxide reductase: Tryptophan 90 is required for efficient substrate utilizationVeronica V Pollock, Richard C Conover, Michael K Johnson, et al.
Archives of Biochemistry and Biophysics|July 26, 2002
Bacterial expression of the molybdenum domain of assimilatory nitrate reductase: production of both the functional molybdenum-containing domain and the nonfunctional tungsten analogVeronica V Pollock, Richard C Conover, Michael K Johnson, et al.
Biochemistry|October 12, 2005
Mutagenesis of Glycine 179 modulates both catalytic efficiency and reduced pyridine nucleotide specificity in cytochrome b5 reductaseGlenn W Roma, Louis J Crowley, C Ainsley Davis, et al.
Biochemistry|November 12, 2003
The structure of the S127P mutant of cytochrome b5 reductase that causes methemoglobinemia shows the AMP moiety of the flavin occupying the substrate binding siteMaria C Bewley, C Ainsley Davis, Christopher C Marohnic, et al.
Archives of Biochemistry and Biophysics|June 8, 2002
Synthesis and bacterial expression of a gene encoding the heme domain of assimilatory nitrate reductaseMichael J Barber, Shawn K Desai, Christopher C Marohnic, et al.
Biochemistry|February 16, 2005
Cytochrome b5 reductase: role of the si-face residues, proline 92 and tyrosine 93, in structure and catalysisChristopher C Marohnic, Louis J Crowley, C Ainsley Davis, et al.
Pageof 2