VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
about
Biosynthesis and Virulent Behavior of Lipids Produced by Mycobacterium tuberculosis: LAM and Cord Factor: An OverviewSmooth Tubercle Bacilli: Neglected Opportunistic Tropical PathogensControl of M. tuberculosis ESAT-6 secretion and specific T cell recognition by PhoPThe virulence-associated two-component PhoP-PhoR system controls the biosynthesis of polyketide-derived lipids in Mycobacterium tuberculosisRedundant function of cmaA2 and mmaA2 in Mycobacterium tuberculosis cis cyclopropanation of oxygenated mycolatesOf mice, men, and elephants: Mycobacterium tuberculosis cell envelope lipids and pathogenesisThe changes in mycolic acid structures caused by hadC mutation have a dramatic effect on the virulence of Mycobacterium tuberculosis.The lta4h locus modulates susceptibility to mycobacterial infection in zebrafish and humansTumor necrosis factor signaling mediates resistance to mycobacteria by inhibiting bacterial growth and macrophage death.Why is long-term therapy required to cure tuberculosis?Genetic basis of virulence attenuation revealed by comparative genomic analysis of Mycobacterium tuberculosis strain H37Ra versus H37RvSMRT genome assembly corrects reference errors, resolving the genetic basis of virulence in Mycobacterium tuberculosis.René Dubos, tuberculosis, and the "ecological facets of virulence".Enzymatic hydrolysis of trehalose dimycolate releases free mycolic acids during mycobacterial growth in biofilms.Genomic diversity in autopsy samples reveals within-host dissemination of HIV-associated Mycobacterium tuberculosis.Low dose aerosol fitness at the innate phase of murine infection better predicts virulence amongst clinical strains of Mycobacterium tuberculosisSulfolipid deficiency does not affect the virulence of Mycobacterium tuberculosis H37Rv in mice and guinea pigsThe polyketide Pks1 contributes to biofilm formation in Mycobacterium tuberculosisComparative cell wall core biosynthesis in the mycolated pathogens, Mycobacterium tuberculosis and Corynebacterium diphtheriae.Both phthiocerol dimycocerosates and phenolic glycolipids are required for virulence of Mycobacterium marinum.INFECTION OF MICE WITH MAMMALIAN TUBERCLE BACILLI GROWN IN TWEEN-ALBUMIN LIQUID MEDIUMMultiplication and survival of tubercle bacilli in the organs of mice.Antituberculous immunity induced by methanol extracts of tubercle bacilli; its enhancement by adjuvantsGrowth characteristics of tubercle bacilli and certain other mycobacteria in HeLa cellsInhibition of tuberculin skin hypersensitivity in guinea pigs by injection of tuberculin and intact tubercle bacilli during fetal life.On the response of genetically resistant and susceptible rabbits to the quantitative inhalation of human type tubercle bacilli and the nature of resistance to tuberculosisA point mutation in the two-component regulator PhoP-PhoR accounts for the absence of polyketide-derived acyltrehaloses but not that of phthiocerol dimycocerosates in Mycobacterium tuberculosis H37Ra.Keto-mycolic acid-dependent pellicle formation confers tolerance to drug-sensitive Mycobacterium tuberculosis.TB research at UT-Houston--a review of cord factor: new approaches to drugs, vaccines and the pathogenesis of tuberculosis.Deletion of a dehydratase important for intracellular growth and cording renders rough Mycobacterium abscessus avirulentCutaneous tuberculosis. Current concepts.Immunity and Immunopathology in the Tuberculous GranulomaBacterial immunostat: Mycobacterium tuberculosis lipids and their role in the host immune response.Cord formation in MB/BacT medium is a reliable criterion for presumptive identification of Mycobacterium tuberculosis complex in laboratories with high prevalence of M. tuberculosis.Cord formation in BACTEC medium is a reliable, rapid method for presumptive identification of Mycobacterium tuberculosis complex.Microscopic cords, a virulence-related characteristic of Mycobacterium tuberculosis, are also present in nonpathogenic mycobacteria.The Cording Phenotype of Mycobacterium tuberculosis Induces the Formation of Extracellular Traps in Human Macrophages.Sublethal concentrations of antibiotics, effects on bacteria and the immune system.Analysis of the contribution of MTP and the predicted Flp pilus genes to Mycobacterium tuberculosis pathogenesis.Mycobacterium-Host Cell Relationships in Granulomatous Lesions in a Mouse Model of Latent Tuberculous Infection.
P2860
Q24622311-9F672979-2656-41AD-AF25-86731E2D3C0AQ26770237-81163E7B-7534-4386-BE8C-F24B60A3E577Q28486372-DF624F7E-E71D-476A-84C9-D8834D60EA4DQ28486587-CCB24139-6A27-410C-833A-EF6499DEC4B1Q28487498-32B20F43-87CE-499C-9EFB-41EE5642121CQ28768909-7ED4A99A-D2AC-4D1F-8952-59D61B4C000EQ30381064-942A6DB5-37A5-4214-8712-4B87B392407DQ30495582-577E8F17-D81E-4C52-AF30-88ED33FEA037Q30502462-6F5D0CD8-8813-459E-B05C-FEDA9A37DA8FQ33280142-205E2124-E7F9-428A-A4CB-8FE8F9A38D23Q33347145-9440DAB9-E149-480A-B985-3C2A6492FA5BQ33568626-F5FC0C0D-31B9-412A-8D5A-09E250583BFEQ33871070-8EF7D62E-962F-47C9-91B3-7EABDADA31F0Q33885084-604092B9-62DC-4857-A0E9-DB74E28E0243Q33899729-67BBBB01-DA4F-431C-99E2-0ECF9B46914CQ34123530-FB8D2E10-3E1D-4797-9B2D-D97F0E4750B0Q35164892-0A433A4E-55EE-4C66-8144-ED924683B8C2Q35688871-7E583A1E-0299-4EBA-B1ED-03F40D9B4F1CQ35756648-97681185-5D98-4068-A19A-372F166C0EABQ35867580-73D446CC-42B1-4F47-A9C4-7ED7A3005213Q36260839-EC35F976-8650-4B69-96FB-7AB7C8AD4ABFQ36261966-81D082DD-9418-42EA-A104-3F8DC04DC4E4Q36262930-525AD0F7-D832-49AA-A167-2A69F96EE6E5Q36263265-F3DF02CB-27C4-437D-9CE3-3682C2519E8FQ36263919-4CF385F5-1C31-4FB9-914D-0590070C3DF4Q36399991-D01D0D3E-D238-4152-B998-460A75B23999Q36452856-699D8326-195F-4568-90BF-520542DA53ACQ36872718-D9D61D70-BD8A-4B27-8C6A-B0DA5307CCE0Q36929373-4B5F040B-C078-43E8-9214-C9CDC74D5091Q37126863-73C8338A-57D7-4816-B991-C028D378EC26Q37941139-B1B2D953-5606-42AE-A517-564B96E1C82CQ38265850-66C48240-50B6-437C-9985-A4AE6C2643EAQ39192734-FCEA5C35-191D-413C-99B1-09FA323F0F10Q39454175-67E7FB96-56EA-4DDE-B783-C0B19C947344Q39555608-1E99ED5A-5996-4AF8-950D-6FC863690480Q39607674-E25E28FE-EAC9-43F5-9892-04C3FEBA398BQ40140467-CE2CEE50-B959-49A5-A1E3-098F4A298EB5Q40329789-A360FA27-B8DA-43FE-96BF-31456B48AC05Q40554480-8C6E661F-6C28-4F46-B6C2-959FC7163FBEQ40728049-2124192A-94AC-4FDB-B690-78BC1BCB9F88
P2860
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
description
1947 nî lūn-bûn
@nan
1947年の論文
@ja
1947年学术文章
@wuu
1947年学术文章
@zh-cn
1947年学术文章
@zh-hans
1947年学术文章
@zh-my
1947年学术文章
@zh-sg
1947年學術文章
@yue
1947年學術文章
@zh
1947年學術文章
@zh-hant
name
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@ast
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@en
type
label
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@ast
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@en
prefLabel
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@ast
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@en
P2093
P2860
P356
P1476
VIRULENCE AND MORPHOLOGICAL CHARACTERISTICS OF MAMMALIAN TUBERCLE BACILLI
@en
P2093
P2860
P304
P356
10.1084/JEM.86.2.175
P407
P577
1947-07-01T00:00:00Z