- Inhibition and structure-activity studies of methionine hydroxamic acid derivatives with bacterial peptide deformylase
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The posttranslational deformylation of N-formyl-Met-polypeptides by the metalloenzyme, peptide defomylase, is essential for bacterial growth. Methionine hydroxamic acid derivatives were found to inhibit recombinant Escherichia coli peptide deformylase activity containing either zinc or cobalt. The binding of methionine hydroxamate and hydrazide inhibitors to cobalt-substituted deformylase caused spectral changes consistent with the formation of a pentacoordinate metal complex similar to that of actinonin, a psuedopeptide hydroxamate inhibitor. The spectral and kinetic data support the binding of these N-substituted L-methionine derivatives in a reverse orientation with respect to N-formyl-Met-peptide substrates within the active site. Based on this hypothesis a second generation of N-substituted methionyl hydroxamic acids were evaluated and found to possess greater inhibitory potency. These results may provide the basis for the design of more potent and selective deformylase inhibitors as potential antibacterial agents.
- Grant, Stephan K.,Green, Barbara Gordon,Kozarich, John W.
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- Identification and characterization of prokaryotic dipeptidyl-peptidase 5 from porphyromonas gingivalis
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Porphyromonas gingivalis, a Gram-negative asaccharolytic anaerobe, is a major causative organism of chronic periodontitis. Because the bacterium utilizes amino acids as energy and carbon sources and incorporates them mainly as dipeptides, a wide variety of dipeptide production processes mediated by dipeptidyl-peptidases (DPPs) should be beneficial for the organism. In the present study, we identified the fourth P. gingivalis enzyme, DPP5. In a dpp4-7-11-disrupted P. gingivalis ATCC 33277, a DPP7-like activity still remained. PGN-0756 possessed an activity indistinguishable from that of the mutant, and was identified as a bacterial orthologue of fungal DPP5, because of its substrate specificity and 28.5% amino acid sequence identity with an Aspergillus fumigatus entity. P. gingivalis DPP5 was composed of 684 amino acids with a molecular mass of 77,453, and existed as a dimer while migrating at 66 kDa on SDS-PAGE. It preferred Ala and hydrophobic residues, had no activity toward Pro at the P1 position, and no preference for hydrophobic P2 residues, showed an optimal pH of 6.7 in the presence of NaCl, demonstrated Km and kcat/Km values for Lys-Ala-MCA of 688 μM and 11.02 μM-1 s-1, respectively, and was localized in the periplasm. DPP5 elaborately complemented DPP7 in liberation of dipeptides with hydrophobic P1 residues. Examinations of DPP- and gingipain gene-disrupted mutants indicated that DPP4, DPP5, DPP7, and DPP11 together with Arg- and Lys-gingipains cooperatively liberate most dipeptides from nutrient oligopeptides. This is the first study to report that DPP5 is expressed not only in eukaryotes, but also widely distributed in bacteria and archaea.
- Ohara-Nemoto, Yuko,Rouf, Shakh M. A.,Naito, Mariko,Yanase, Amie,Tetsuo, Fumi,Ono, Toshio,Kobayakawa, Takeshi,Shimoyama, Yu,Kimura, Shigenobu,Nakayama, Koji,Saiki, Keitarou,Konishi, Kiyoshi,Nemoto, Takayuki K.
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p. 5436 - 5448
(2014/03/21)
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- Peptide bond formation by aminolysin-A catalysis: A simple approach to enzymatic synthesis of diverse short oligopeptides and biologically active puromycins
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A new S9 family aminopeptidase derived from the actinobacterial thermophile Acidothermus cellulolyticus was cloned and engineered into a transaminopeptidase by site-directed mutagenesis of catalytic Ser491 into Cys. The engineered biocatalyst, designated aminolysin-A, can catalyze the formation of peptide bonds to give linear homo-oligopeptides, hetero-dipeptides, and cyclic dipeptides using cost-effective substrates in a one-pot reaction. Aminolysin-A can recognize several C-terminal-modified amino acids, including the l- and d-forms, as acyl donors as well as free amines, including amino acids and puromycin aminonucleoside, as acyl acceptors. The absence of amino acid esters prevents the formation of peptides; therefore, the reaction mechanism involves aminolysis and not a reverse reaction of hydrolysis. The aminolysin system will be a beneficial tool for the preparation of structurally diverse peptide mimetics by a simple approach.
- Usuki, Hirokazu,Yamamoto, Yukihiro,Arima, Jiro,Iwabuchi, Masaki,Miyoshi, Shozo,Nitoda, Teruhiko,Hatanaka, Tadashi
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p. 2327 - 2335
(2011/05/02)
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- DPP4 INHIBITOR AND PHARMACEUTICAL APPLICATION THEREOF
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The present invention provides a Dpp4 inhibitor which comprises a leucine derivative of the following formula (1) or a methionine derivative of the following formula (2): wherein each R1 and R3 represents a hydrogen atom (H) and an L-amino acid residue; R2 represents a hydroxyl group (OH), alkoxy group having 1 to 6 carbon atoms, amino group (NH2), alkylamino group having 1 to 6 carbon atoms, glycine residue, β-alanine residue, L-amino acid (except for proline, alanine and phenylalanine) residue or L-amino-acid amide (except for proline amide, alanine amide and phenylalanine amide) residue; and R4 represents a hydroxyl group (OH), alkoxy group having 1 to 6 carbon atoms, amino group (NH2), alkylamino group having 1 to 6 carbon atoms, glycine residue, β-alanine residue, L-amino acid (except for proline and alanine) residue or L-amino-acid amide (except for proline amide and alanine amide) residue. These derivatives also act as autophagy regulators.
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Page/Page column 8
(2008/06/13)
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- Cell adhesion and extracellular matrix proteins
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Various embodiments of the invention provide human cell adhesion and extracellular matrix proteins (CADECM) and polynucleotides which identify and encode CADECM. Embodiments of the invention also provide expression vectors, host cells, antibodies, agonists, and antagonists. Other embodiments provide methods for diagnosing, treating, or preventing disorders associated with aberrant expression of CADECM.
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