Time course and cellular localization of SARS-CoV nucleoprotein and RNA in lungs from fatal cases of SARS.
about
Pathology, molecular biology, and pathogenesis of avian influenza A (H5N1) infection in humansChromosome 14 transfer and functional studies identify a candidate tumor suppressor gene, mirror image polydactyly 1, in nasopharyngeal carcinomaMolecular pathology of emerging coronavirus infectionsSevere acute respiratory syndrome-associated coronavirus nucleocapsid protein interacts with Smad3 and modulates transforming growth factor-beta signalingVirus-infected alveolar epithelial cells direct neutrophil chemotaxis and inhibit their apoptosisRecent insights into pulmonary repair following virus-induced inflammation of the respiratory tract.The M, E, and N structural proteins of the severe acute respiratory syndrome coronavirus are required for efficient assembly, trafficking, and release of virus-like particles.MyD88 is required for protection from lethal infection with a mouse-adapted SARS-CoV.Dynamic innate immune responses of human bronchial epithelial cells to severe acute respiratory syndrome-associated coronavirus infection.SARS-CoV pathogenesis is regulated by a STAT1 dependent but a type I, II and III interferon receptor independent mechanism.Respiratory viral infections in infants: causes, clinical symptoms, virology, and immunology.Benefits of random-priming: exhaustive survey of a cDNA library from lung tissue of a SARS patient.Rat respiratory coronavirus infection: replication in airway and alveolar epithelial cells and the innate immune response.Pathology and pathogenesis of severe acute respiratory syndromeAutocrine interferon priming in macrophages but not dendritic cells results in enhanced cytokine and chemokine production after coronavirus infectionThe SARS coronavirus E protein interacts with PALS1 and alters tight junction formation and epithelial morphogenesis.Epithelial cells lining salivary gland ducts are early target cells of severe acute respiratory syndrome coronavirus infection in the upper respiratory tracts of rhesus macaques.Applications of the phytomedicine Echinacea purpurea (Purple Coneflower) in infectious diseases.Molecular determinants of severe acute respiratory syndrome coronavirus pathogenesis and virulence in young and aged mouse models of human disease.Molecular pathology in the lungs of severe acute respiratory syndrome patients.A novel subset of putative stem/progenitor CD34+Oct-4+ cells is the major target for SARS coronavirus in human lung.Comparative pathology of rhesus macaque and common marmoset animal models with Middle East respiratory syndrome coronavirusIntranasal treatment with poly(I•C) protects aged mice from lethal respiratory virus infections.Mechanisms of zoonotic severe acute respiratory syndrome coronavirus host range expansion in human airway epithelium.SARS coronavirus and innate immunity.SARS-CoV replicates in primary human alveolar type II cell cultures but not in type I-like cells.Tropism of and innate immune responses to the novel human betacoronavirus lineage C virus in human ex vivo respiratory organ culturesDifferentiated phenotypes of primary murine alveolar epithelial cells and their susceptibility to infection by respiratory viruses.Spatiotemporal interplay of severe acute respiratory syndrome coronavirus and respiratory mucosal cells drives viral dissemination in rhesus macaques.Avian influenza: update on pathogenesis and laboratory diagnosis.Differential virological and immunological outcome of severe acute respiratory syndrome coronavirus infection in susceptible and resistant transgenic mice expressing human angiotensin-converting enzyme 2.The battle between influenza and the innate immune response in the human respiratory tract.Host-pathogen interactions during coronavirus infection of primary alveolar epithelial cells.Studies of severe acute respiratory syndrome coronavirus pathology in human cases and animal models.Neutralizing human monoclonal antibodies to severe acute respiratory syndrome coronavirus: target, mechanism of action, and therapeutic potential.Pathogenesis of Middle East respiratory syndrome coronavirus.Antibody-dependent infection of human macrophages by severe acute respiratory syndrome coronavirus.MAVS-mediated apoptosis and its inhibition by viral proteins.Lethal infection of K18-hACE2 mice infected with severe acute respiratory syndrome coronavirus.Significant alterations of biodistribution and immune responses in Balb/c mice administered with adenovirus targeted to CD40(+) cells.
P2860
Q22255463-68F5EE96-FCFA-4029-855A-FA7B881CD17BQ24323224-58CAA1CE-BB76-4F5A-ACC4-3ED4D5EF97D1Q26824463-7A7EB147-C158-430C-B0D8-BC6DB159D165Q28259664-7B1175B9-46E3-474B-8D70-16F4639E24AAQ28575244-A4C52480-F4C2-4EC9-A0E8-BFED5262BEECQ30419007-0F05B78D-4240-47AB-A608-4BCA6BC1E244Q30484261-45121007-3D7C-4178-BD5D-65BEAC23AF7AQ33392688-F9D3A3C9-90D6-4547-9CDD-8D3FC0956167Q33525586-6A1AD075-F031-4054-A882-9D2F9F73D970Q33553351-BB9A66C3-C13C-4254-9E88-EF2B647C133FQ33591243-FA292960-BAFD-4B5B-B288-C93C7E76A3E3Q33822676-0C91EF33-30A8-4574-BF4C-A58C2818DB3DQ33920480-66F2B7EC-94C9-4E8D-992D-6C39C04D38E1Q34003202-8644AC22-1894-4A63-AD62-486CAA3B7A3BQ34210525-63DA4538-30EE-46CF-8CB3-EB80EE173C11Q34313436-3955281D-F51C-4A29-B76B-781328FBA710Q35076542-1F766FDC-54BA-432E-95F9-2D55A892B7B1Q35494999-3331ACFC-71E9-4B0C-A7B1-CCBE9D1B7C4CQ35665893-B758F5DF-E162-4127-92EE-EDF0AEEB3EBFQ35750156-6A021C99-8FAC-46EC-BD7A-71864125687CQ36229119-1B84ED23-5A0E-4A31-8FDD-FD8DA31EA29DQ36289647-F7851729-C779-45AD-B852-BF6AC17D0D1FQ36363186-542B4C46-E4A8-44E5-9083-0BA4F69E008FQ36483886-6D5471BC-A738-4BEE-A6AB-FD675A24F047Q36539000-D4688BB2-98BE-45B2-899B-631C3AA8D4E5Q36559927-B438E148-9499-4124-B06A-A04898DAF920Q36911737-1C904AEF-301D-457C-9B45-61F72272332AQ36931120-3EAB8F35-57CF-4A96-ADEE-B52A4A9A1C1BQ36989569-8D9E1505-6751-4090-ACD5-0A821070BFDEQ37119128-C63CD193-F075-4357-B4E8-2F11C5CCDEA7Q37191869-4E74D656-0050-4EA4-BF63-80FD49C6A2CAQ37192137-CCB7B03A-64E5-410C-B6CD-E94ECFE153C4Q37415531-2FB1EFDA-AEB3-44F8-8126-6550414E67FFQ37776085-E1A36754-354B-472E-B8DE-06C3C2509FB9Q37929687-A27C3B00-D47D-4FD3-8C6F-7B80457F8DF8Q38258027-56AAB6D6-219A-47B7-8A8A-BA830A70CCC2Q39526647-B051D191-142E-40E9-8379-97D5C8E05702Q39858569-5B3C7194-C377-4A82-8FEC-BEF099F4C4ABQ42020947-62502834-1C53-49AC-966D-29372DF67F0CQ45873308-F20F2E73-AB02-4672-BF5C-AD1D36A6E391
P2860
Time course and cellular localization of SARS-CoV nucleoprotein and RNA in lungs from fatal cases of SARS.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Time course and cellular local ...... lungs from fatal cases of SARS
@nl
Time course and cellular local ...... ungs from fatal cases of SARS.
@ast
Time course and cellular local ...... ungs from fatal cases of SARS.
@en
type
label
Time course and cellular local ...... lungs from fatal cases of SARS
@nl
Time course and cellular local ...... ungs from fatal cases of SARS.
@ast
Time course and cellular local ...... ungs from fatal cases of SARS.
@en
prefLabel
Time course and cellular local ...... lungs from fatal cases of SARS
@nl
Time course and cellular local ...... ungs from fatal cases of SARS.
@ast
Time course and cellular local ...... ungs from fatal cases of SARS.
@en
P2093
P2860
P50
P921
P1433
P1476
Time course and cellular local ...... ungs from fatal cases of SARS.
@en
P2093
John M Nicholls
Kwok H Chan
Maria Wong
Swan Lip Beh
P2860
P356
10.1371/JOURNAL.PMED.0030027
P407
P577
2006-01-03T00:00:00Z