Different siderophores contribute to the high-pathogenicity phenotype in Yersinia

Different siderophores contribute to the high-pathogenicity phenotype in Yersinia

capture and transport in bacteria. At least one endogenous siderophore system, yersiniabactin, is known to be involved in iron acquisition in highly virulent Yersiniae . Its inactivation in Y. pestis and Y. enterocolitica subsp. enterocolitica results in significant attenuation of virulence. However...

Full description

Bibliographic Details
Main Authors: A. Rakin, D. Garzetti
Format: Article
Language:Russian
Published: Federal Government Health Institution, Russian Research Anti-Plague Institute “Microbe” 2013-09-01
Series:Проблемы особо опасных инфекций
Subjects:
патогенные иерсинии
фенотип высокой патогенности
сидерофоры
pathogenic yersiniae
high-pathogenicity phenotype
siderophores
Online Access:https://journal.microbe.ru/jour/article/view/62
id doaj-8e6cac12192d46d99a7df42e65501bff
record_format Article
spelling doaj-8e6cac12192d46d99a7df42e65501bff2021-07-22T07:51:35ZrusFederal Government Health Institution, Russian Research Anti-Plague Institute “Microbe”Проблемы особо опасных инфекций0370-10692658-719X2013-09-0103586210.21055/0370-1069-2013-3-58-6262Different siderophores contribute to the high-pathogenicity phenotype in YersiniaA. Rakin0D. Garzetti1Max von Pettenkofer-InstituteMax von Pettenkofer-Institutecapture and transport in bacteria. At least one endogenous siderophore system, yersiniabactin, is known to be involved in iron acquisition in highly virulent Yersiniae . Its inactivation in Y. pestis and Y. enterocolitica subsp. enterocolitica results in significant attenuation of virulence. However, the yersiniabactin is not present in all highly virulent Yersiniae. Indeed, the large group of Y. pseudotuberculosis serotypes O2, O3, O4, O5 as well as serotype O1 Far East Scarlet like fever (FESLF) strains carry an alternative, iron acquisition system, pseudochelin, encoded by the Yersinia non-ribosomal peptide ynp locus. Thus, the yersiniabactin activity is not the only one associated with the high-pathogenicity phenotype of the human pathogenic Yersiniae .https://journal.microbe.ru/jour/article/view/62патогенные иерсиниифенотип высокой патогенностисидерофорыpathogenic yersiniaehigh-pathogenicity phenotypesiderophores
collection DOAJ
language Russian
format Article
sources DOAJ
author A. Rakin
D. Garzetti
spellingShingle A. Rakin
D. Garzetti
Different siderophores contribute to the high-pathogenicity phenotype in Yersinia
Проблемы особо опасных инфекций
патогенные иерсинии
фенотип высокой патогенности
сидерофоры
pathogenic yersiniae
high-pathogenicity phenotype
siderophores
author_facet A. Rakin
D. Garzetti
author_sort A. Rakin
title Different siderophores contribute to the high-pathogenicity phenotype in Yersinia
title_short Different siderophores contribute to the high-pathogenicity phenotype in Yersinia
title_full Different siderophores contribute to the high-pathogenicity phenotype in Yersinia
title_fullStr Different siderophores contribute to the high-pathogenicity phenotype in Yersinia
title_full_unstemmed Different siderophores contribute to the high-pathogenicity phenotype in Yersinia
title_sort different siderophores contribute to the high-pathogenicity phenotype in yersinia
publisher Federal Government Health Institution, Russian Research Anti-Plague Institute “Microbe”
series Проблемы особо опасных инфекций
issn 0370-1069
2658-719X
publishDate 2013-09-01
description capture and transport in bacteria. At least one endogenous siderophore system, yersiniabactin, is known to be involved in iron acquisition in highly virulent Yersiniae . Its inactivation in Y. pestis and Y. enterocolitica subsp. enterocolitica results in significant attenuation of virulence. However, the yersiniabactin is not present in all highly virulent Yersiniae. Indeed, the large group of Y. pseudotuberculosis serotypes O2, O3, O4, O5 as well as serotype O1 Far East Scarlet like fever (FESLF) strains carry an alternative, iron acquisition system, pseudochelin, encoded by the Yersinia non-ribosomal peptide ynp locus. Thus, the yersiniabactin activity is not the only one associated with the high-pathogenicity phenotype of the human pathogenic Yersiniae .
topic патогенные иерсинии
фенотип высокой патогенности
сидерофоры
pathogenic yersiniae
high-pathogenicity phenotype
siderophores
url https://journal.microbe.ru/jour/article/view/62
work_keys_str_mv AT arakin differentsiderophorescontributetothehighpathogenicityphenotypeinyersinia
AT dgarzetti differentsiderophorescontributetothehighpathogenicityphenotypeinyersinia
_version_ 1721291874432450560

Similar Items