Mutant analysis reveals a specific requirement for protein P30 in Mycoplasma pneumoniae gliding motility.
about
Potential Molecular Targets for Narrow-Spectrum Agents to Combat Mycoplasma pneumoniae Infection and DiseaseIntegrated Information and Prospects for Gliding Mechanism of the Pathogenic Bacterium Mycoplasma pneumoniae.Differences in the transcriptome signatures of two genetically related Entamoeba histolytica cell lines derived from the same isolate with different pathogenic properties.Terminal organelle development in the cell wall-less bacterium Mycoplasma pneumoniae.First identification of proteins involved in motility of Mycoplasma gallisepticumMycoplasma pneumoniae, an underutilized model for bacterial cell biologyNew insights into the pathogenesis and detection of Mycoplasma pneumoniae infectionsDomain analysis of protein P30 in Mycoplasma pneumoniae cytadherence and gliding motilityTransposon mutagenesis identifies genes associated with Mycoplasma pneumoniae gliding motility.Loss of co-chaperone TopJ impacts adhesin P1 presentation and terminal organelle maturation in Mycoplasma pneumoniae.Processing is required for a fully functional protein P30 in Mycoplasma pneumoniae gliding and cytadherenceProtein P200 is dispensable for Mycoplasma pneumoniae hemadsorption but not gliding motility or colonization of differentiated bronchial epithelium.Vaccination of BALB/c mice with an avirulent Mycoplasma pneumoniae P30 mutant results in disease exacerbation upon challenge with a virulent strain.Insights into the function of Mycoplasma pneumoniae protein P30 from orthologous gene replacement.P65 truncation impacts P30 dynamics during Mycoplasma pneumoniae gliding.Functional analysis of the Mycoplasma genitalium MG312 protein reveals a specific requirement of the MG312 N-terminal domain for gliding motility.Proteins P24 and P41 function in the regulation of terminal-organelle development and gliding motility in Mycoplasma pneumoniae.Cloning, expression, and immunological characterization of the P30 protein of Mycoplasma pneumoniae.Mycoplasmas: a distinct cytoskeleton for wall-less bacteria.Epidemiology, clinical manifestations, pathogenesis and laboratory detection of Mycoplasma pneumoniae infections.In vitro spatial and temporal analysis of Mycoplasma pneumoniae colonization of human airway epithelium.Periodicity in Attachment Organelle Revealed by Electron Cryotomography Suggests Conformational Changes in Gliding Mechanism of Mycoplasma pneumoniaeMycoplasma pulmonis Vsa proteins and polysaccharide modulate adherence to pulmonary epithelial cellsCytoskeletal protein P41 is required to anchor the terminal organelle of the wall-less prokaryote Mycoplasma pneumoniae.Strategy to create chimeric proteins derived from functional adhesin regions of Mycoplasma pneumoniae for vaccine development.Three-dimensional structure of Mycoplasma pneumoniae's attachment organelle and a model for its role in gliding motility.Functional domain analysis of the Mycoplasma pneumoniae co-chaperone TopJ.Electron cryotomography of Mycoplasma pneumoniae mutants correlates terminal organelle architectural features and function.Mycoplasma pneumoniae J-domain protein required for terminal organelle function.Variable Selection and Biomarker Correlation in the Analysis of Mycoplasma pneumoniae Strains by Surface-Enhanced Raman Spectroscopy
P2860
Q26768548-24C7DA55-66EA-4E35-AF43-6BF8DD234D0CQ27324432-702E5D65-638A-4D20-ACF6-73F70414A7B4Q30437015-D17B2C84-286C-4E87-80B2-9CF527B50F38Q30478293-15141247-1294-4620-AC49-2EDF0B2ABFA3Q30595702-D929A61F-D222-455A-9829-15335C014DF1Q34593195-ED09816F-E07C-480A-B5CC-78DD82D0249BQ34657784-02AE31D6-6EA5-4198-96B3-069CFF881DF1Q34740858-8F6B8B2C-FC98-4528-A3C3-05BF00D0DA2DQ35075307-C2B26C92-6DDC-4EA7-A970-D99367CFCE8AQ35098722-C1BDEE0E-84B8-4576-8DE8-28BAA44AE236Q35272754-06194E43-A737-46A2-93BF-CDC57524F597Q35689120-4AA4B6A3-3F6B-416D-9C27-5A0C959A8EDAQ35805427-0421A22B-6040-4E8B-9353-2174755563B8Q35963829-88100577-829A-474F-A931-01CCBED7EFE7Q36018277-992C1702-70D7-4530-A322-3598C621B84BQ36098434-23E46DF9-47CE-4CD7-BAA7-08BA2F9AB891Q36314247-89CC42A3-FEF7-4CA4-AB8B-BD45F9DB80F7Q36452356-1A604290-8DC1-45B7-A24B-1C9850B91DE8Q36597269-D4095425-7943-4046-A467-A19C7258CA41Q37255258-D5246543-3EE0-46FC-B383-1D30F89D38C5Q37546457-572E0A18-EBB4-4BC4-BC2A-60871EE38C83Q38292860-2AF7DA9D-5330-4671-9A69-DA61139F3B74Q39377238-E85578CF-A3A3-4E96-B423-FBDB387FF83BQ39778307-0409CAC4-B8D3-4BE0-9F69-F652F2663F6BQ39814617-42D92B80-411C-4AF0-8307-229F4BAF42D8Q42492775-73431A23-BD3A-4AF5-AE6A-23B096685FC5Q43058418-6D2E15EF-C6FF-4AE1-854D-1C5DFABF57CEQ52374752-74903835-647A-45AB-B6CF-3CDAA7087B2AQ55054484-5C73273E-A494-45F6-A53F-762AC7CE1ACBQ58125944-543F9BB4-E70D-4C7D-AB75-34F96598E52A
P2860
Mutant analysis reveals a specific requirement for protein P30 in Mycoplasma pneumoniae gliding motility.
description
2005 nî lūn-bûn
@nan
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին 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
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@ast
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@en
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@nl
type
label
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@ast
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@en
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@nl
prefLabel
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@ast
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@en
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@nl
P2093
P2860
P1476
Mutant analysis reveals a spec ...... a pneumoniae gliding motility.
@en
P2093
Benjamin M Hasselbring
Duncan C Krause
Jarrat L Jordan
P2860
P304
P356
10.1128/JB.187.18.6281-6289.2005
P407
P577
2005-09-01T00:00:00Z