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Multiple peptidoglycan modification networks modulate helicobacter pylori's cell shape,motility,and colonization potential
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نویسنده
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sycuro l.k. ,wyckoff t.j. ,biboy j. ,born p. ,pincus z. ,vollmer w. ,salama n.r.
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منبع
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plos pathogens - 2012 - دوره : 8 - شماره : 3
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چکیده
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Helical cell shape of the gastric pathogen helicobacter pylori has been suggested to promote virulence through viscosity-dependent enhancement of swimming velocity. however,h. pylori csd1 mutants,which are curved but lack helical twist,show normal velocity in viscous polymer solutions and the reason for their deficiency in stomach colonization has remained unclear. characterization of new rod shaped mutants identified csd4,a dl-carboxypeptidase of peptidoglycan (pg) tripeptide monomers and csd5,a putative scaffolding protein. morphological and biochemical studies indicated csd4 tripeptide cleavage and csd1 crosslinking relaxation modify the pg sacculus through independent networks that coordinately generate helical shape. csd4 mutants show attenuation of stomach colonization,but no change in proinflammatory cytokine induction,despite four-fold higher levels of nod1-agonist tripeptides in the pg sacculus. motility analysis of similarly shaped mutants bearing distinct alterations in pg modifications revealed deficits associated with shape,but only in gel-like media and not viscous solutions. as gastric mucus displays viscoelastic gel-like properties,our results suggest enhanced penetration of the mucus barrier underlies the fitness advantage conferred by h. pylori's characteristic shape. © 2012 sycuro et al.
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آدرس
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molecular and cellular biology graduate program,fred hutchinson cancer research center,seattle,wa,united states,division of human biology,fred hutchinson cancer research center,seattle,wa, United States, division of human biology,fred hutchinson cancer research center,seattle,wa,united states,division of science and mathematics,university of minnesota,morris,mn, United States, centre for bacterial cell biology,institute for cell and molecular biosciences,newcastle university,newcastle upon tyne, United Kingdom, centre for bacterial cell biology,institute for cell and molecular biosciences,newcastle university,newcastle upon tyne,united kingdom,max planck institute of molecular cell biology and genetics,dresden, Germany, department of molecular,cellular and developmental biology,yale university,new haven,ct, United States, centre for bacterial cell biology,institute for cell and molecular biosciences,newcastle university,newcastle upon tyne, United Kingdom, molecular and cellular biology graduate program,fred hutchinson cancer research center,seattle,wa, United States
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Authors
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