Y. enterocolitica invariably produces urease which has been reported to enable biovar 1B and biovar 4 strains to survive in the acidic environment of the stomach [20, 21]. However, the role of urease in the survival of biovar 1A strains has not www.selleckchem.com/products/azd9291.html been investigated. The objective of this study was to determine the genetic organization of urease (ure) gene cluster, factors affecting urease activity, and the survival of biovar 1A strain of Y. enterocolitica in acidic pH in vitro. Methods Bacterial strains and growth conditions Y. enterocolitica biovar 1A (serovar O:6,30) isolated from the stools of a diarrheic patient and deposited
with Yersinia National Reference Laboratory and WHO Collaborating Center, NCT-501 research buy Pasteur Institute (Paris) under reference number IP27403 was used to characterize ure gene complex and the enzyme urease. The details of other Y. enterocolitica strains used in this study namely serovars, source of isolation, country of origin, reference laboratory accession numbers and clonal groups have been reported previously [22]. Y. enterocolitica 8081 (bioserovar 1B/O:8) was obtained from M. Skurnik (Haartman Institute, Helsinki, Finland). Y. enterocolitica IP26329 (bioserovar 2/O:9), IP26249 (bioserovar 2/O:5,27), and IP134 (bioserovar 4/O:3) were obtained from E. Carniel (Yersinia National Reference Laboratory and WHO Collaborating Center, Pasteur Institute, France). All strains were grown overnight at 28°C
AR-13324 in Luria broth (HiMedia, Mumbai, India). DNA extraction, primers and Polymerase Chain Reaction Genomic DNA was isolated from overnight grown cultures using DNeasy tissue kit (Qiagen GmbH) as reported earlier [14]. Urease gene sequences of Y. enterocolitica tuclazepam biovar 1B
and biovar 4 with GenBank accession numbers L24101[23] and Z18865[24] respectively were used to design primers U1 and U2 using PrimerSelect 5.03 software (DNASTAR Inc., Madison, USA) such that the structural genes (ureA, ureB, ureC) may be amplified as one amplicon. As these primers failed to consistently amplify the ureABC region of biovar 1A strains, primers for amplification of each of the structural genes separately were designed from the following sequences in the database (accession numbers are given in parentheses): Y. enterocolitica biovar 1B (L24101, AM286415), Y. enterocolitica biovar 4 (Z18865), Y. aldovae (AY363680), Y. bercovieri (AY363681), Y. frederiksenii (AY363682), Y. intermedia (AY363683), Y. kristensenii (AY363684), Y. mollaretii (AY363685), Y. rohdei (AY363686), Y. pestis (AE017042, AL590842, AE009952, AF095636) and Y. pseudotuberculosis (U40842, BX936398). These sequences were also used to design primers for ure accessory (ureE, ureF, ureG, ureD) and urea transport (yut) genes. The most conserved regions for each of the genes were identified using MegAlign (DNASTAR) or ClustalW version 1.83 (accessible at http://www.ebi.ac.uk/tools/clustalW).