Quasispecies development of Helicobacter pylori observed in paired isolates obtained years apart from the same host.
about
Helicobacter pylori persistence: biology and diseasePathogenesis of Helicobacter pylori infectionGain and loss of multiple genes during the evolution of Helicobacter pyloriMicroevolution of Helicobacter pylori during prolonged infection of single hosts and within familiesRepeat-associated plasticity in the Helicobacter pylori RD gene family.Role of large sequence polymorphisms (LSPs) in generating genomic diversity among clinical isolates of Mycobacterium tuberculosis and the utility of LSPs in phylogenetic analysis.The impact of parietal cells on Helicobacter pylori tropism and host pathology: an analysis using gnotobiotic normal and transgenic mice.Quantitative analysis of representative proteome components and clustering of Helicobacter pylori clinical strains.Genetic microheterogeneity and phenotypic variation of Helicobacter pylori arginase in clinical isolates.Horizontal versus familial transmission of Helicobacter pylori.Lipopolysaccharide diversity evolving in Helicobacter pylori communities through genetic modifications in fucosyltransferases.Natural transformation of helicobacter pylori involves the integration of short DNA fragments interrupted by gaps of variable sizeA changing gastric environment leads to adaptation of lipopolysaccharide variants in Helicobacter pylori populations during colonizationPopulation structure of Helicobacter pylori among ethnic groups in Malaysia: recent acquisition of the bacterium by the Malay population.Occurrence of Mutations in the Antimicrobial Target Genes Related to Levofloxacin, Clarithromycin, and Amoxicillin Resistance in Helicobacter pylori Isolates from Buenos Aires City.Host-dependent Lewis (Le) antigen expression in Helicobacter pylori cells recovered from Leb-transgenic mice.High frequency of gastric colonization with multiple Helicobacter pylori strains in Venezuelan subjects.Relationship between the severity of hepatitis C virus-related liver disease and the presence of Helicobacter species in the liver: a prospective study.Polymorphisms of Helicobacter pylori HP0638 reflect geographic origin and correlate with cagA status.Helicobacter pylori genetic diversity within the gastric niche of a single human hostRecombination and mutation during long-term gastric colonization by Helicobacter pylori: estimates of clock rates, recombination size, and minimal age.Helicobacter pylori intrafamilial infections: change in source of infection of a child from father to mother after eradication therapy.Comparison of genetic divergence and fitness between two subclones of Helicobacter pyloriDynamics of bacterial phenotype selection in a colonized host.Pathogen evolution in vivo: genome dynamics of two isolates obtained 9 years apart from a duodenal ulcer patient infected with a single Helicobacter pylori strain.Helicobacter pylori genetic diversity and risk of human disease.pathogenesis of Helicobacter pylori-induced gastric inflammation.East Asian genotypes of Helicobacter pylori strains in Amerindians provide evidence for its ancient human carriage.In silico evolutionary analysis of Helicobacter pylori outer membrane phospholipase A (OMPLA)An enzymatic ruler modulates Lewis antigen glycosylation of Helicobacter pylori LPS during persistent infection.Phylogeographic evidence of cognate recognition site patterns and transformation efficiency differences in H. pylori: theory of strain dominance.Helicobacter pylori persistence: an overview of interactions between H. pylori and host immune defensesA repetitive DNA element regulates expression of the Helicobacter pylori sialic acid binding adhesin by a rheostat-like mechanism.Analysis of a single Helicobacter pylori strain over a 10-year period in a primate modelProgressive genomic convergence of two Helicobacter pylori strains during mixed infection of a patient with chronic gastritisGenotypic and phenotypic variation of Lewis antigen expression in geographically diverse Helicobacter pylori isolates.Helicobacter pylori babA2, cagA, and s1 vacA genes work synergistically in causing intestinal metaplasia.Cytokine gene polymorphisms influence mucosal cytokine expression, gastric inflammation, and host specific colonisation during Helicobacter pylori infection.A whole-genome microarray reveals genetic diversity among Helicobacter pylori strainsGenetic analysis of Helicobacter pylori strain populations colonizing the stomach at different times postinfection
P2860
Q24618823-91DEFE1A-E48A-4140-987F-DFBC2195C4B2Q24679810-73A01314-48FD-4DF3-AD29-72472E4D45B5Q24814896-E1A2FFB8-1A6E-488B-B4C4-457CA87C93D8Q28750235-C7BA7A28-8FBB-4F3F-B8D1-395985974DB5Q30436271-98880FAC-D7D9-4B76-A823-903F12D0CECDQ30479107-58E4D0E8-261A-473E-B756-C63AFD17350AQ33186337-3E230EAD-FDDC-42FD-A8AF-89B2F1C09D34Q33262632-A740A84D-170C-4DE6-8DB8-84BEBC8C8DAEQ33281120-F1978F8A-74D7-44F9-B6BE-60E2E2AD358AQ33379079-DFA22935-5F38-43A9-97A6-DDA233536806Q33388233-2BA62AFA-C2D6-48BF-81B7-97416DEEEFD9Q33417645-50DCDD84-62C5-4A1B-9322-A4F58BC2C090Q33466063-79EF3481-CD82-48B3-A208-B955505FE964Q33470760-A09D15D8-428F-4F1B-9E6E-9DD7E37FEB11Q33580515-3AA38C60-2F24-4D98-8F6C-CA9A093F7E6EQ33590475-22D5D0F4-2256-4BFC-AF8F-1AE76CDF9ADDQ33856405-24CB7E81-15AA-4216-88D2-8D7C2CD3982FQ33866459-48FE57A7-672B-47DB-8CDD-5076DCC0DDF5Q33946188-C19EDCEB-C23E-4F1B-8EB5-F9BC53413842Q33952093-8261D206-00C4-4332-9931-168FD78FA00CQ33952890-3A67718D-83EB-4B78-BAD4-A4BFD8AA2D99Q33999247-C75C526A-B1E7-4973-A077-B5F1C869A6B1Q34009899-4A1FB0E8-2932-4EED-9881-269C09B97292Q34016678-77C96D75-3D4F-42AD-B530-E7C2E682AE2BQ34041758-D4C0AD80-48FF-432B-8F31-D7D845BF66BFQ34206353-D23A23C8-0ED2-4C6B-9ED3-32F62E6C17F8Q34365936-49DD68FA-E608-425C-8118-6A03D85D4619Q34381395-AD30AEB6-2570-4456-B510-63071A7F9B6FQ34413936-E0904187-9F01-43CA-A51E-1182962BCAE1Q34479753-B85694E0-7F9A-4BCF-8147-830C3397BA8DQ34992372-B049996A-A0BE-469B-A75F-CA3630D17C1EQ35070861-F42B1E0A-3F37-41C3-B199-D04FEFEE7212Q35200615-81430993-4407-4E60-9724-AE0EC52FB5AEQ35223571-6B16900B-797D-4987-BBBC-D4C26C191D1BQ35351292-4952DB64-301C-4B9E-BF77-8C44E427A1BBQ35585294-9C395C38-D546-4C43-9313-4974A6E0C4B4Q35586754-8F7041F9-C9C1-4D85-A6E9-3C01667D56A5Q35596757-1B24017F-D75E-463C-A6A4-1DE1946C42C9Q35852799-CEE53559-20FE-4149-8E28-BD70733A2790Q35879190-03477C22-BF7E-4BE4-AB7E-D683B49B46EC
P2860
Quasispecies development of Helicobacter pylori observed in paired isolates obtained years apart from the same host.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2000
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Quasispecies development of He ...... ears apart from the same host.
@en
Quasispecies development of He ...... ears apart from the same host.
@nl
type
label
Quasispecies development of He ...... ears apart from the same host.
@en
Quasispecies development of He ...... ears apart from the same host.
@nl
prefLabel
Quasispecies development of He ...... ears apart from the same host.
@en
Quasispecies development of He ...... ears apart from the same host.
@nl
P2093
P2860
P356
P1476
Quasispecies development of He ...... ears apart from the same host.
@en
P2093
A van Der Ende
D A Israel
E J Kuipers
J G Kusters
J Höök-Nikanne
M M Gerrits
R W van Der Hulst
S A Thompson
P2860
P304
P356
10.1086/315173
P407
P577
2000-01-01T00:00:00Z