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9 resultat
D-proline-based peptidomimetic inhibitors of anthrax lethal factor.
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In this work we reported the generation of d-proline-derived hydroxamic acids as inhibitors of anthrax lethal factor (LF), taking advantage of a pyrrolidine ring as the central scaffold and a hydroxamate group as the Zn(2+) chelating agent. The introduction of two hydrophobic groups addressing the
Molecular characterization of B. anthracis isolates from the anthrax outbreak among cattle in Karnataka, India
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Background: Anthrax, a zoonotic disease is caused by the Gram positive bacterium Bacillus anthracis. During January 2013, an anthrax outbreak among cattle was reported in Gundlupet Taluk, neighboring Bandipur National Park and tiger
Anthrax lethal factor cleaves regulatory subunits of phosphoinositide-3 kinase to contribute to toxin lethality
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Anthrax lethal toxin (LT), produced by Bacillus anthracis, comprises a receptor-binding moiety, protective antigen and the lethal factor (LF) proteasep>1,2 p>. Although LF is known to cleave mitogen-activated protein kinase kinases (MEKs/MKKs) and some variants of the NLRP1 inflammasome
Treatment and prophylaxis of anthrax by new neurosecretory cytokines.
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In 1881, Louis Pasteur described the Bacillus anthracis vaccine, which plays an important role for the treatment and prophylaxis of anthrax. Currently, treatment for anthrax infection involves the use of several different antibiotics, used in combination with vaccines, which possess potential
Anthrax lethal factor proteolysis and inactivation of MAPK kinase.
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Anthrax lethal toxin produced by the bacterium Bacillus anthracis is the major cause of death in animals infected with anthrax. One component of this toxin, lethal factor (LF), inactivates members of the mitogen-activated protein kinase kinase or MEK family through proteolysis of their NH(2)
Susceptibility of mitogen-activated protein kinase kinase family members to proteolysis by anthrax lethal factor.
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The lethal factor (LF) produced by toxigenic strains of Bacillus anthracis is a Zn(2+)-endopeptidase that cleaves the mitogen-activated protein kinase kinases (MAPKKs) MEK1, MEK2 and MKK3. Using genetic and biochemical approaches, we have extended the study of LF proteolytic specificity to all known
Crystal structure of prolyl 4-hydroxylase from Bacillus anthracis.
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Prolyl 4-hydroxylases (P4H) catalyze the post-translational hydroxylation of proline residues and play a role in collagen production, hypoxia response, and cell wall development. P4Hs belong to the group of Fe(II)/alphaKG oxygenases and require Fe(II), alpha-ketoglutarate (alphaKG), and O(2) for
Expression, purification, crystallization and preliminary X-ray studies of a prolyl-4-hydroxylase protein from Bacillus anthracis.
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Collagen prolyl-4-hydroxylase (C-P4H) catalyzes the hydroxylation of specific proline residues in procollagen, which is an essential step in collagen biosynthesis. A new form of P4H from Bacillus anthracis (anthrax-P4H) that shares many characteristics with the type I C-P4H from human has recently
Characterization of Bacillus anthracis germinant receptors in vitro.
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Bacillus anthracis begins its infectious cycle as a metabolically dormant cell type, the endospore. Upon entry into a host, endospores rapidly differentiate into vegetative bacilli through the process of germination, thus initiating anthrax. Elucidation of the signals that trigger germination and
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