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Results: 1-21 |
Results: 21
Crystal structure of molybdopterin synthase and its evolutionary relationship to ubiquitin activation
Authors: Rudolph, MJ Wuebbens, MM Rajagopalan, KV Schindelin, H
Citation: Mj. Rudolph et al., Crystal structure of molybdopterin synthase and its evolutionary relationship to ubiquitin activation, NAT ST BIOL, 8(1), 2001, pp. 42-46
The crystal structure of Escherichia coli MoeA and its relationship to themultifunctional protein gephyrin
Authors: Xiang, S Nichols, J Rajagopalan, KV Schindelin, H
Citation: S. Xiang et al., The crystal structure of Escherichia coli MoeA and its relationship to themultifunctional protein gephyrin, STRUCTURE, 9(4), 2001, pp. 299-310
Molybdopterin synthase mutations in a mild case of molybdenum cofactor deficiency
Authors: Johnson, JL Coyne, KE Rajagopalan, KV Van Hove, JLK Mackay, M Pitt, J Boneh, A
Citation: Jl. Johnson et al., Molybdopterin synthase mutations in a mild case of molybdenum cofactor deficiency, AM J MED G, 104(2), 2001, pp. 169-173
Molybdopterin from molybdenum and tungsten enzymes
Authors: Schindelin, H Kisker, C Rajagopalan, KV
Citation: H. Schindelin et al., Molybdopterin from molybdenum and tungsten enzymes, ADV PROTEIN, 58, 2001, pp. 47-94
Mechanism of ubiquitin activation revealed by the structure of a bacterialMoeB-MoaD complex
Authors: Lake, MW Wuebbens, MM Rajagopalan, KV Schindelin, H
Citation: Mw. Lake et al., Mechanism of ubiquitin activation revealed by the structure of a bacterialMoeB-MoaD complex, NATURE, 414(6861), 2001, pp. 325-329
Characterization of Escherichia coli MoeB and its involvement in the activation of molybdopterin synthase for the biosynthesis of the molybdenum cofactor
Authors: Leimkuhler, S Wuebbens, MM Rajagopalan, KV
Citation: S. Leimkuhler et al., Characterization of Escherichia coli MoeB and its involvement in the activation of molybdopterin synthase for the biosynthesis of the molybdenum cofactor, J BIOL CHEM, 276(37), 2001, pp. 34695-34701
In vitro incorporation of nascent molybdenum cofactor into human sulfite oxidase
Authors: Leimkuhler, S Rajagopalan, KV
Citation: S. Leimkuhler et Kv. Rajagopalan, In vitro incorporation of nascent molybdenum cofactor into human sulfite oxidase, J BIOL CHEM, 276(3), 2001, pp. 1837-1844
A sulfurtransferase is required in the transfer of cysteine sulfur in the in vitro synthesis of molybdopterin from precursor Z in Escherichia coli
Authors: Leimkuhler, S Rajagopalan, KV
Citation: S. Leimkuhler et Kv. Rajagopalan, A sulfurtransferase is required in the transfer of cysteine sulfur in the in vitro synthesis of molybdopterin from precursor Z in Escherichia coli, J BIOL CHEM, 276(25), 2001, pp. 22024-22031
An active site tyrosine influences the ability of the dimethyl sulfoxide reductase family of molybdopterin enzymes to reduce S-oxides
Authors: Johnson, KE Rajagopalan, KV
Citation: Ke. Johnson et Kv. Rajagopalan, An active site tyrosine influences the ability of the dimethyl sulfoxide reductase family of molybdopterin enzymes to reduce S-oxides, J BIOL CHEM, 276(16), 2001, pp. 13178-13185
Insights into molybdenum cofactor deficiency provided by the crystal structure of the molybdenum cofactor biosynthesis protein MoaC
Authors: Wuebbens, MM Liu, MTW Rajagopalan, KV Schindelin, H
Citation: Mm. Wuebbens et al., Insights into molybdenum cofactor deficiency provided by the crystal structure of the molybdenum cofactor biosynthesis protein MoaC, STRUCT F D, 8(7), 2000, pp. 709-718
Thermal and X-ray diffraction studies on the phase equilibria in the system UO2(NO3)(2)center dot 6H(2)O-NaNO3
Authors: Kalekar, BB Rajagopalan, KV Pillai, CGS Ravindran, PV Mathur, PK
Citation: Bb. Kalekar et al., Thermal and X-ray diffraction studies on the phase equilibria in the system UO2(NO3)(2)center dot 6H(2)O-NaNO3, J NUCL MAT, 279(2-3), 2000, pp. 245-252
Mechanism of assembly of the bis(molybdopterin guanine dinucleotide)molybdenum cofactor in Rhodobacter sphaeroides dimethyl sulfoxide reductase
Authors: Temple, CA Rajagopalan, KV
Citation: Ca. Temple et Kv. Rajagopalan, Mechanism of assembly of the bis(molybdopterin guanine dinucleotide)molybdenum cofactor in Rhodobacter sphaeroides dimethyl sulfoxide reductase, J BIOL CHEM, 275(51), 2000, pp. 40202-40210
The crystal structure of the Escherichia coli MobA protein provides insight into molybdopterin guanine dinucleotide biosynthesis
Authors: Lake, MW Temple, CA Rajagopalan, KV Schindelin, H
Citation: Mw. Lake et al., The crystal structure of the Escherichia coli MobA protein provides insight into molybdopterin guanine dinucleotide biosynthesis, J BIOL CHEM, 275(51), 2000, pp. 40211-40217
Crystal structure of the gephyrin-related molybdenum cofactor biosynthesisprotein MogA from Escherichia coli
Authors: Liu, MTW Wuebbens, MM Rajagopalan, KV Schindelin, H
Citation: Mtw. Liu et al., Crystal structure of the gephyrin-related molybdenum cofactor biosynthesisprotein MogA from Escherichia coli, J BIOL CHEM, 275(3), 2000, pp. 1814-1822
Resonance Raman characterization of biotin sulfoxide reductase - Comparingoxomolybdenum enzymes in the Me2SO reductase family
Authors: Garton, SD Temple, CA Dhawan, IK Barber, MJ Rajagopalan, KV Johnson, MK
Citation: Sd. Garton et al., Resonance Raman characterization of biotin sulfoxide reductase - Comparingoxomolybdenum enzymes in the Me2SO reductase family, J BIOL CHEM, 275(10), 2000, pp. 6798-6805
Structure of the molybdenum site of Rhodobacter sphaeroides biotin sulfoxide reductase
Authors: Temple, CA George, GN Hilton, JC George, MJ Prince, RC Barber, MJ Rajagopalan, KV
Citation: Ca. Temple et al., Structure of the molybdenum site of Rhodobacter sphaeroides biotin sulfoxide reductase, BIOCHEM, 39(14), 2000, pp. 4046-4052
Optimization of expression of human sulfite oxidase and its molybdenum domain
Authors: Temple, CA Graf, TN Rajagopalan, KV
Citation: Ca. Temple et al., Optimization of expression of human sulfite oxidase and its molybdenum domain, ARCH BIOCH, 383(2), 2000, pp. 281-287
The 1.3 angstrom crystal structure of Rhodobacter sphaeroides dimethyl sulfoxide reductase reveals two distinct molybdenum coordination environments
Authors: Li, HK Temple, C Rajagopalan, KV Schindelin, H
Citation: Hk. Li et al., The 1.3 angstrom crystal structure of Rhodobacter sphaeroides dimethyl sulfoxide reductase reveals two distinct molybdenum coordination environments, J AM CHEM S, 122(32), 2000, pp. 7673-7680
Isolated sulfite oxidase deficiency - Review of two cases in one family
Authors: Edwards, MC Johnson, JL Marriage, B Graf, TN Coyne, KE Rajagopalan, KV MacDonald, IM
Citation: Mc. Edwards et al., Isolated sulfite oxidase deficiency - Review of two cases in one family, OPHTHALMOL, 106(10), 1999, pp. 1957-1961
Re-design of Rhodobacter sphaeroides dimethyl sulfoxide reductase - Enhancement of adenosine N-1-oxide reductase activity
Authors: Hilton, JC Temple, CA Rajagopalan, KV
Citation: Jc. Hilton et al., Re-design of Rhodobacter sphaeroides dimethyl sulfoxide reductase - Enhancement of adenosine N-1-oxide reductase activity, J BIOL CHEM, 274(13), 1999, pp. 8428-8436
Structure of the molybdenum site of dimethyl sulfoxide reductase
Authors: George, GN Hilton, J Temple, C Prince, RC Rajagopalan, KV
Citation: Gn. George et al., Structure of the molybdenum site of dimethyl sulfoxide reductase, J AM CHEM S, 121(6), 1999, pp. 1256-1266
Risultati: 1-21 |