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Results: 1-11 |
Results: 11
The 2.0 angstrom structure of human ferrochelatase, the terminal enzyme ofheme biosynthesis
Authors: Wu, CK Dailey, HA Rose, JP Burden, A Sellers, VM Wang, BC
Citation: Ck. Wu et al., The 2.0 angstrom structure of human ferrochelatase, the terminal enzyme ofheme biosynthesis, NAT ST BIOL, 8(2), 2001, pp. 156-160
Crystal structure of the transcription factor sc-mtTFB offers insights into mitochondrial transcription
Authors: Schubot, FD Chen, CJ Rose, JP Dailey, TA Dailey, HA Wang, BC
Citation: Fd. Schubot et al., Crystal structure of the transcription factor sc-mtTFB offers insights into mitochondrial transcription, PROTEIN SCI, 10(10), 2001, pp. 1980-1988
Expression and characterization of the terminal heme synthetic enzymes from the hyperthermophile Aquifex aeolicus
Authors: Wang, KF Dailey, TA Dailey, HA
Citation: Kf. Wang et al., Expression and characterization of the terminal heme synthetic enzymes from the hyperthermophile Aquifex aeolicus, FEMS MICROB, 202(1), 2001, pp. 115-119
Human ferrochelatase: Characterization of substrate-iron binding and proton-abstracting residues
Authors: Sellers, VM Wu, CK Dailey, TA Dailey, HA
Citation: Vm. Sellers et al., Human ferrochelatase: Characterization of substrate-iron binding and proton-abstracting residues, BIOCHEM, 40(33), 2001, pp. 9821-9827
Ferrochelatase at the millennium: structures, mechanisms and [2Fe-2S] clusters
Authors: Dailey, HA Dailey, TA Wu, CK Medlock, AE Wang, KF Rose, JP Wang, BC
Citation: Ha. Dailey et al., Ferrochelatase at the millennium: structures, mechanisms and [2Fe-2S] clusters, CELL MOL L, 57(13-14), 2000, pp. 1909-1926
N-methylprotoporphyrin is a more potent inhibitor of recombinant human than of recombinant chicken ferrochelatase
Authors: Gamble, JT Dailey, HA Marks, GS
Citation: Jt. Gamble et al., N-methylprotoporphyrin is a more potent inhibitor of recombinant human than of recombinant chicken ferrochelatase, DRUG META D, 28(4), 2000, pp. 373-375
Use of recombinant human ferrochelatase as a sensitive bioassay for N-alkylprotoporphyrin IX formed after interaction of porphyrinogenic xenobiotics with rat liver microsomes
Authors: Gamble, JT Wong, SGW Dailey, HA Marks, GS
Citation: Jt. Gamble et al., Use of recombinant human ferrochelatase as a sensitive bioassay for N-alkylprotoporphyrin IX formed after interaction of porphyrinogenic xenobiotics with rat liver microsomes, CAN J PHYSL, 78(7), 2000, pp. 578-581
Examination of the activity of carboxyl-terminal chimeric constructs of human and yeast ferrochelatases
Authors: Medlock, AE Dailey, HA
Citation: Ae. Medlock et Ha. Dailey, Examination of the activity of carboxyl-terminal chimeric constructs of human and yeast ferrochelatases, BIOCHEM, 39(25), 2000, pp. 7461-7467
Multiple regulatory steps in erythroid heme biosynthesis
Authors: Woodard, SI Dailey, HA
Citation: Si. Woodard et Ha. Dailey, Multiple regulatory steps in erythroid heme biosynthesis, ARCH BIOCH, 384(2), 2000, pp. 375-378
Purification, crystallization and preliminary X-ray analysis of Drosophilamelanogaster ferrochelatase
Authors: Wang, KF Wu, CK Sellers, VM Rose, JP Wang, BC Dailey, HA
Citation: Kf. Wang et al., Purification, crystallization and preliminary X-ray analysis of Drosophilamelanogaster ferrochelatase, ACT CRYST D, 55, 1999, pp. 1201-1203
Human ferrochelatase: crystallization, characterization of the [2Fe-2S] cluster and determination that the enzyme is a homodimer
Authors: Burden, AE Wu, CK Dailey, TA Busch, JLH Dhawan, IK Rose, JP Wang, BC Dailey, HA
Citation: Ae. Burden et al., Human ferrochelatase: crystallization, characterization of the [2Fe-2S] cluster and determination that the enzyme is a homodimer, BBA-PROT ST, 1435(1-2), 1999, pp. 191-197
Risultati: 1-11 |