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Sp110 transcription is induced and required by Anaplasma phagocytophilum for infection of human promyelocytic cellsVariants in the SP110 gene are associated with genetic susceptibility to tuberculosis in West AfricaNo associations of human pulmonary tuberculosis with Sp110 variantsNovel adjunctive therapies for the treatment of tuberculosisMycobacterium tuberculosis: success through dormancyInteraction of Mycobacterium tuberculosis with host cell death pathwaysA medicinal chemists' guide to the unique difficulties of lead optimization for tuberculosisDetermination of [11C]rifampin pharmacokinetics within Mycobacterium tuberculosis-infected mice by using dynamic positron emission tomography bioimaging.The sst1 resistance locus regulates evasion of type I interferon signaling by Chlamydia pneumoniae as a disease tolerance mechanismTB drug development: immunology at the tableAre innate immune signaling pathways in plants and animals conserved?Cell death and autophagy in tuberculosisNew insights into TB physiology suggest untapped therapeutic opportunitiesGr1(int)CD11b+ myeloid-derived suppressor cells in Mycobacterium tuberculosis infectionGenetics and occupational safety and healthMycobacterium tuberculosis nuoG is a virulence gene that inhibits apoptosis of infected host cellsLocation of intra- and extracellular M. tuberculosis populations in lungs of mice and guinea pigs during disease progression and after drug treatmentSuccessful shortening of tuberculosis treatment using adjuvant host-directed therapy with FDA-approved phosphodiesterase inhibitors in the mouse modelAdjunctive TNF inhibition with standard treatment enhances bacterial clearance in a murine model of necrotic TB granulomasSecreted Mycobacterium tuberculosis Rv3654c and Rv3655c proteins participate in the suppression of macrophage apoptosisSerine protease activity contributes to control of Mycobacterium tuberculosis in hypoxic lung granulomas in miceIdentification of a Transcription Factor That Regulates Host Cell Exit and Virulence of Mycobacterium tuberculosisThe TB pandemic: an old problem seeking new solutions.The non-pathogenic mycobacteria M. smegmatis and M. fortuitum induce rapid host cell apoptosis via a caspase-3 and TNF dependent pathway.Noninvasive determination of 2-[18F]-fluoroisonicotinic acid hydrazide pharmacokinetics by positron emission tomography in Mycobacterium tuberculosis-infected miceThe 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.Intracellular growth of Mycobacterium tuberculosis after macrophage cell death leads to serial killing of host cells.A genome wide association study of pulmonary tuberculosis susceptibility in Indonesians.Protein complexes associated with the Kaposi's sarcoma-associated herpesvirus-encoded LANA.Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions.In mice, tuberculosis progression is associated with intensive inflammatory response and the accumulation of Gr-1 cells in the lungs.Spectinamides are effective partner agents for the treatment of tuberculosis in multiple mouse infection modelsIn vivo expression of innate immunity markers in patients with Mycobacterium tuberculosis infection.Induction of ER stress in macrophages of tuberculosis granulomas.The adaptor molecule CARD9 is essential for tuberculosis control.Limited activity of clofazimine as a single drug in a mouse model of tuberculosis exhibiting caseous necrotic granulomasCorrelating cellular and molecular signatures of mucosal immunity that distinguish HIV controllers from noncontrollers.Mycobacterium tuberculosis, macrophages, and the innate immune response: does common variation matter?Characterization of a novel necrotic granuloma model of latent tuberculosis infection and reactivation in mice.
P2860
Q21261760-9399C005-4CB4-428E-866A-0AE6B5C8FD56Q24550940-80601316-214A-4846-80F6-84C172CF4E32Q24654917-3D618CB1-7147-41AA-8EAE-EAD078CEE6A1Q26829957-1E198A01-D5D0-45DA-9477-8BD01EDFDB6BQ26852023-6F104EEB-C8E1-4E3B-8FF3-5E25FBBC34F3Q26852548-47014F9A-0DDA-40AD-8031-FA22A735CCCDQ27004482-F54BD7CA-D6A4-44C0-9C4E-FEAEDA7F151CQ27324299-8C2BDE96-1CD4-40E2-8741-12F4DB183C20Q27333845-B62209AB-DD38-4261-91D6-31C5519AF08EQ28083600-1254450A-A496-40A6-B137-5AFD9430A2E6Q28273570-C461E887-81EC-40F9-9B8A-89DA58EDF511Q28387214-B70AB4DD-20B9-4E99-8B3F-CDD96767B1C0Q28388477-F9A433FD-E1A3-4ACF-928F-C34C0F9506A1Q28390496-DA390C63-4337-4C21-9ED8-F5E11AC755FEQ28397523-D2C58165-3627-46DB-B865-58203C03E3CDQ28469257-D29635D2-8D04-491C-A78A-AF8BDA62789FQ28477456-B19B6671-EE74-419A-B785-051265B12652Q28480511-DA970412-3295-4C1A-9318-8C8931FED939Q28480761-05BC1315-BD77-4379-9BFC-EEFC368D53AFQ28487022-6BA67166-B20F-4B29-8CCE-B8D790CC6E23Q28505858-E5145D3D-EA86-4AB6-A44C-2749F5D72720Q28552188-744957F4-1AB5-44A4-94E9-EC89A9C918E9Q30360726-AE4411B5-9036-4840-84B9-88C0C59E4C5CQ30393496-42CEF7F7-0519-42FE-837D-A739FB1D2054Q30421576-6B478D27-A5E9-477D-A5EE-3A721001D276Q30495582-5EB1C1F8-A8E3-44FE-BACD-BAE28BCBA886Q30502462-47B9B3EF-D14F-4599-97B9-45D992C8F35AQ30839454-59492C9C-9717-483E-AD77-FC5AFD292C0FQ31044800-E0965BEA-9033-4B88-AD87-74886EC069EDQ33282107-40B25447-6586-4B48-98D6-478DCD033FC4Q33474863-BCB5B968-205B-4796-A045-FCFC1AB26BD8Q33573396-0508913F-6E24-40AC-A421-FAB2D3B982D2Q33589762-6BC2EAF2-F72B-492E-A258-A59D42DE2EBDQ33662586-D75F46DC-48B8-4EA2-BDCE-E5D80783C5BFQ33697646-0BC02B7B-43D0-4799-960F-6011D0326D11Q33794955-242CF8A8-15B9-4689-A4B4-94164A58AE85Q33798468-60104D8A-ED8C-4BFB-8A34-9F0D0C1E7801Q33805995-CDD0A3A2-9F02-4394-B341-B3E829F0F0BAQ33811658-7D41B006-AE07-4455-899A-59006297B360Q33826578-8671ACFF-8307-4F5A-9FC8-D8D1566566CB
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Ipr1 gene mediates innate immunity to tuberculosis
@nl
Ipr1 gene mediates innate immunity to tuberculosis.
@ast
Ipr1 gene mediates innate immunity to tuberculosis.
@en
type
label
Ipr1 gene mediates innate immunity to tuberculosis
@nl
Ipr1 gene mediates innate immunity to tuberculosis.
@ast
Ipr1 gene mediates innate immunity to tuberculosis.
@en
prefLabel
Ipr1 gene mediates innate immunity to tuberculosis
@nl
Ipr1 gene mediates innate immunity to tuberculosis.
@ast
Ipr1 gene mediates innate immunity to tuberculosis.
@en
P2093
P2860
P3181
P356
P1433
P1476
Ipr1 gene mediates innate immunity to tuberculosis.
@en
P2093
Barry R Bloom
Bo-Shiun Yan
Darren E Higgins
Hongwei Zhou
Lester Kobzik
Mauricio Rojas
Yuriy V Shebzukhov
P2860
P2888
P304
P3181
P356
10.1038/NATURE03419
P407
P577
2005-04-01T00:00:00Z
P5875
P6179
1018450159