Strickler scite author profile

Viomycin and capreomycin belong to the tuberactinomycin family of antibiotics, which are among the most effective antibiotics against multidrug-resistant tuberculosis. Here we present two crystal structures of the 70S ribosome complexed with three tRNAs and bound to either viomycin or capreomycin at 3.3 and 3.5 Å resolution, respectively. Both antibiotics bind to the same site on the ribosome, which lies at the interface between helix 44 (h44) of the small ribosomal subunit and Helix 69 (H69) of the large ribosomal subunit. The structures of these complexes suggest that the tuberactinomycins inhibit translocation by stabilizing the tRNA in the A site in the pre-translocation state. In addition these structures show that the tuberactinomycins bind adjacent to the paromomycin and hygromycin B antibiotics, which may enable the development of new derivatives of tuberactinomycins that are effective against drug resistant strains.

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Crystal structure of human type II inosine monophosphate dehydrogenase: Implications for ligand binding and drug design

Colby

Vanderveen

Strickler

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

138

127

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Inosine monophosphate dehydrogenase (IM-PDH) controls a key metabolic step in the regulation of cell growth and differentiation. This step is the NAD-dependent oxidation of inosine 5 monophosphate (IMP) to xanthosine 5 monophosphate, the rate-limiting step in the synthesis of the guanine nucleotides. Two isoforms of IMPDH have been identified, one of which (type II) is significantly up-regulated in neoplastic and differentiating cells. As such, it has been identified as a major target in antitumor and immunosuppressive drug design. We present here the 2.9-Å structure of a ternary complex of the human type II isoform of IMPDH. The complex contains the substrate analogue 6-chloropurine riboside 5-monophosphate (6-Cl-IMP) and the NAD analogue selenazole-4-carboxamide adenine dinucleotide, the selenium derivative of the active metabolite of the antitumor drug tiazofurin. The enzyme forms a homotetramer, with the dinucleotide binding at the monomer-monomer interface. The 6 chloro-substituted purine base is dehalogenated, forming a covalent adduct at C6 with Cys-331. The dinucleotide selenazole base is stacked against the 6-Cl-IMP purine ring in an orientation consistent with the B-side stereochemistry of hydride transfer seen with NAD. The adenosine end of the ligand interacts with residues not conserved between the type I and type II isoforms, suggesting strategies for the design of isoform-specific agents.

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Crystal Structure and Amide H/D Exchange of Binary Complexes of Alcohol Dehydrogenase from Bacillus stearothermophilus: Insight into Thermostability and Cofactor Binding^,

et al. 2004

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The crystal structure of NAD(+)-dependent alcohol dehydrogenase from Bacillus stearothermophilus strain LLD-R (htADH) was determined using X-ray diffraction data at a resolution of 2.35 A. The structure of homotetrameric htADH is highly homologous to those of bacterial and archaeal homotetrameric alcohol dehydrogenases (ADHs) and also to the mammalian dimeric ADHs. There is one catalytic zinc atom and one structural zinc atom per enzyme subunit. The enzyme was crystallized as a binary complex lacking the nicotinamide adenine dinucleotide (NAD(+)) cofactor but including a zinc-coordinated substrate analogue trifluoroethanol. The binary complex structure is in an open conformation similar to ADH structures without the bound cofactor. Features important for the thermostability of htADH are suggested by a comparison with a homologous mesophilic enzyme (55% identity), NAD(+)-dependent alcohol dehydrogenase from Escherichia coli. To gain insight into the conformational change triggered by NAD(+) binding, amide hydrogen-deuterium exchange of htADH, in the presence and absence of NAD(+), was studied by HPLC-coupled electrospray mass spectrometry. When the deuteron incorporation of the protein-derived peptides was analyzed, it was found that 9 of 21 peptides show some decrease in the level of deuteron incorporation upon NAD(+) binding, and another 4 peptides display slower exchange rates. With one exception (peptide number 8), none of the peptides that are altered by bound NAD(+) are in contact with the alcohol-substrate-binding pocket. Furthermore, peptides 5 and 8, which are located outside the NAD(+)-binding pocket, are notable by displaying changes upon NAD(+) binding. This suggests that the transition from the open to the closed conformation caused by cofactor binding has some long-range effects on the protein structure and dynamics.

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Strickler

The structures of the anti-tuberculosis antibiotics viomycin and capreomycin bound to the 70S ribosome

Crystal structure of human type II inosine monophosphate dehydrogenase: Implications for ligand binding and drug design

Crystal Structure and Amide H/D Exchange of Binary Complexes of Alcohol Dehydrogenase from Bacillus stearothermophilus: Insight into Thermostability and Cofactor Binding^,

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Strickler

The structures of the anti-tuberculosis antibiotics viomycin and capreomycin bound to the 70S ribosome

Crystal structure of human type II inosine monophosphate dehydrogenase: Implications for ligand binding and drug design

Crystal Structure and Amide H/D Exchange of Binary Complexes of Alcohol Dehydrogenase from Bacillus stearothermophilus: Insight into Thermostability and Cofactor Binding,

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Product

Resources

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Crystal Structure and Amide H/D Exchange of Binary Complexes of Alcohol Dehydrogenase from Bacillus stearothermophilus: Insight into Thermostability and Cofactor Binding^,