Differential infection of polarized epithelial cell lines by sialic acid-dependent and sialic acid-independent rotavirus strains. - Wikidata - thesis-toulmin - TriplyDB

Differential infection of polarized epithelial cell lines by sialic acid-dependent and sialic acid-independent rotavirus strains.

Differential infection of polarized epithelial cell lines by sialic acid-dependent and sialic acid-independent rotavirus strains.

http://www.wikidata.org/entity/Q33850214

about

The rhesus rotavirus VP4 sialic acid binding domain has a galectin fold with a novel carbohydrate binding site.Effects on sialic acid recognition of amino acid mutations in the carbohydrate-binding cleft of the rotavirus spike protein Molecular basis for disruption of E-cadherin adhesion by botulinum neurotoxin A complex Activation of the endoplasmic reticulum calcium sensor STIM1 and store-operated calcium entry by rotavirus requires NSP4 viroporin activity.SERCA2 regulates non-CF and CF airway epithelial cell response to ozone Intestinal epithelia activate anti-viral signaling via intracellular sensing of rotavirus structural components.High-resolution molecular and antigen structure of the VP8* core of a sialic acid-independent human rotavirus strain.Group A rotavirus infection and age-dependent diarrheal disease in rats: a new animal model to study the pathophysiology of rotavirus infection VLA-2 (alpha2beta1) integrin promotes rotavirus entry into cells but is not necessary for rotavirus attachment.Initial interaction of rotavirus strains with N-acetylneuraminic (sialic) acid residues on the cell surface correlates with VP4 genotype, not species of origin.Specificity and affinity of sialic acid binding by the rhesus rotavirus VP8* core Requirement for vacuolar H+ -ATPase activity and Ca2+ gradient during entry of rotavirus into MA104 cells Dissecting rotavirus particle-raft interaction with small interfering RNAs: insights into rotavirus transit through the secretory pathway.Active viremia in rotavirus-infected mice.Rhesus rotavirus entry into a polarized epithelium is endocytosis dependent and involves sequential VP4 conformational changes.Rhesus rotavirus trafficking during entry into MA104 cells is restricted to the early endosome compartment.Modeling of the rotavirus group C capsid predicts a surface topology distinct from other rotavirus species Lymphotoxin alpha-deficient mice clear persistent rotavirus infection after local generation of mucosal IgA Cholangiocyte expression of alpha2beta1-integrin confers susceptibility to rotavirus-induced experimental biliary atresia.The chemical neurobiology of carbohydrates Innate Immunity in the Female Reproductive Tract: Role of Sex Hormones in Regulating Uterine Epithelial Cell Protection Against Pathogens.Relative roles of GM1 ganglioside, N-acylneuraminic acids, and α2β1 integrin in mediating rotavirus infection.Glycosphingolipids as receptors for non-enveloped viruses.STD NMR spectroscopy and molecular modeling investigation of the binding of N-acetylneuraminic acid derivatives to rhesus rotavirus VP8* core.Herpes simplex virus type 1 glycoprotein E mediates retrograde spread from epithelial cells to neurites.Reovirus preferentially infects the basolateral surface and is released from the apical surface of polarized human respiratory epithelial cells.Mechanisms of antidiarrhoeal effects by diosmectite in human intestinal cells.Differential expression of sialic acid and N-acetylgalactosamine residues on the cell surface of intestinal epithelial cells according to normal or metastatic potential.Reovirus intermediate subviral particles constitute a strategy to infect intestinal epithelial cells by exploiting TGF-β dependent pro-survival signaling.Specific binding of Autographa californica M nucleopolyhedrovirus occlusion-derived virus to midgut cells of Heliothis virescens larvae is mediated by products of pif genes Ac119 and Ac022 but not by Ac115.A new generation of carbohydrate-based therapeutics: recombinant mucin-type fusion proteins as versatile inhibitors of protein-carbohydrate interactions.Inflammation Controls Sensitivity of Human and Mouse Intestinal Epithelial Cells to Galectin-1.Rotavirus cell entry

P2860

Q27638080-AC0947A5-18D2-4976-A6E2-353C5384024A Q27652708-22A9E0E8-DD23-4B25-BE4E-8125C692B82A Q27684403-40C7DAD9-DF61-44CE-8A09-FB67DFECC9DF Q30557597-E6901BA1-12CD-45B3-9E59-F12728EC82A8 Q34077907-F6F940C4-E5DA-48B0-A876-240E61D70D2C Q34213447-4AF03C88-F872-47D5-840F-CAEDB3682D92 Q34302070-362E0F9C-7164-4EA4-A57C-4221D286798C Q34326366-6381BE75-20AA-42D4-9754-9DD5E5B61688 Q34329341-EA9BEE2F-5370-48D2-8904-0F7121F30DB5 Q34335469-6FDCB552-3B2E-425F-A4A3-2FA537367AC3 Q34348035-11F386DA-50CB-4050-8D33-469557885586 Q34351223-691BDB5A-F765-4190-9430-54C52B3EA41F Q34545950-5D6C4689-F66A-40E0-A656-0013C8A13BA6 Q34716764-21EE9F71-1A54-4E89-8054-44EACC9491AC Q34742949-E3E233BA-A7EF-44EA-98CA-40BB496B208A Q35826922-3E47A579-C248-4E90-94D6-9C0368FF1B29 Q36373266-662A388A-68EE-4B57-A7EC-0678FEB0628E Q36506867-24AE8ED0-11E6-4838-A7C0-E544D6C6C53C Q36807785-97F0ABE7-4FA8-4EAC-AFF4-60CCB2523007 Q37152815-3A503A36-CF7F-4C40-97D2-827D03A8020A Q37280601-66D15DA1-8FE8-42C5-AA25-F592E6AD1F61 Q37713926-FDA51546-5764-4C82-B52A-7465407798F0 Q37945203-9D413F62-FC62-46F8-8737-348018CC7030 Q38309625-736633C5-15A2-435E-B87E-5132C8D55A71 Q39874187-83A0EE0D-98AA-4474-AFB5-C1C722E57DE6 Q39991054-1DDBF0AD-4418-48BD-AB37-96BA209D60D2 Q40224326-40DD8B51-3E98-481F-8E28-EF25798DAB4C Q40564410-BDDFE83F-9258-4565-AD06-01FD950A9A99 Q40639992-63F4F4FB-9F0A-49E6-980A-B5A96F4E2D85 Q40670658-0D020E0D-D609-4FD3-9A31-355A3DCE1832 Q51171028-339EDF7D-FA0B-4089-94E4-A62F5EEC5748 Q53278465-08CBD532-E664-4B60-9CB2-E1A2E428289F Q57584216-CA0D8656-B11B-4FEC-BC97-B168F7116E9C

P2860

Differential infection of polarized epithelial cell lines by sialic acid-dependent and sialic acid-independent rotavirus strains.

http://www.wikidata.org/entity/Q33850214

description

2001 nî lūn-bûn

@nan

2001 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2001 թվականի դեկտեմբերին հրատարակված գիտական հոդված

@hy

2001年の論文

@ja

2001年論文

@yue

2001年論文

@zh-hant

2001年論文

@zh-hk

2001年論文

@zh-mo

2001年論文

@zh-tw

2001年论文

@wuu

name

Differential infection of pola ...... independent rotavirus strains.

@ast

Differential infection of pola ...... independent rotavirus strains.

@en

type

label

Differential infection of pola ...... independent rotavirus strains.

@ast

Differential infection of pola ...... independent rotavirus strains.

@en

prefLabel

Differential infection of pola ...... independent rotavirus strains.

@ast

Differential infection of pola ...... independent rotavirus strains.

@en

P1433

Q33850214-696547E2-BDCF-42C9-953F-857FB97211BE

P1476

Q33850214-D3B5851D-3CC7-43CE-9E57-A5C28A4EC2B1

P2093

Q33850214-3C2CAE0D-F760-484D-A889-C899683F74BD

Q33850214-E8474CB4-A606-4B38-BD02-E017A48053C5

Q33850214-FD711E73-9F78-4F07-AABA-1DDA7AB54D17

P2860

Q33850214-0608CD6E-E668-449B-9049-12417BA80048

Q33850214-07D6613D-CA48-47D5-9BA5-2EAD77387786

Q33850214-0B032F0F-8977-4488-B827-F158E989FEBA

Q33850214-0B8B01B3-B4F2-452B-926B-9FC41406FA67

Q33850214-0D7F2D3A-4FCD-4AC5-82BF-D34C72ED489D

Q33850214-121B7C97-67A8-43D9-AE3B-F04490D86C67

Q33850214-12AFB883-B661-4D63-B8B6-0454B9228B1B

Q33850214-1C6085C8-F80C-4A60-AF2B-32001A80E4E8

Q33850214-21576096-6C76-4E08-AD16-2895A94D6307

Q33850214-234C9DDD-47F5-4644-BAE0-7B179C37ED86

P304

Q33850214-225B2E73-C007-4B8C-94F6-0D90EC63046B

P31

Q33850214-EB3C25A1-1E1E-4D39-A808-4943E34D17EF

P356

Q33850214-79264893-43BA-4814-AC90-7E3B7012735A

P433

Q33850214-5AEB81F5-22D6-467B-91C3-561CBDC99AB7

P478

Q33850214-D220157C-DD98-4B80-8EB8-BCF9255012F2

P577

Q33850214-1AD0277B-C316-442B-B0AE-403B7C97F01F

P698

Q33850214-17012FB0-5972-45E9-8A35-2E335034E092

P932

Q33850214-A3AD729B-43AF-4CDE-9A07-B010A995FD17

P356

JVI.75.23.11834-11850.2001

P1433

Journal of Virology

P1476

Differential infection of pola ...... independent rotavirus strains.

@en

P2093

M Ciarlet

http://www.w3.org/2001/XMLSchema#string

M K Estes

http://www.w3.org/2001/XMLSchema#string

S E Crawford

http://www.w3.org/2001/XMLSchema#string

P2860

Integrins: versatility, modulation, and signaling in cell adhesion

Expression and intracellular transport of microvillus membrane hydrolases in human intestinal epithelial cells

Rotavirus infection reduces sucrase-isomaltase expression in human intestinal epithelial cells by perturbing protein targeting and organization of microvillar cytoskeleton.

Apically exposed, tight junction-associated beta1-integrins allow binding and YopE-mediated perturbation of epithelial barriers by wild-type Yersinia bacteria.

Signal transduction pathways involved in enterohemorrhagic Escherichia coli-induced alterations in T84 epithelial permeability.

The VP5 domain of VP4 can mediate attachment of rotaviruses to cells.

Rotavirus-induced structural and functional alterations in tight junctions of polarized intestinal Caco-2 cell monolayers.

Infection of polarized cultures of human intestinal epithelial cells with hepatitis A virus: vectorial release of progeny virions through apical cellular membranes.

Direct inhibitory effect of rotavirus NSP4(114-135) peptide on the Na(+)-D-glucose symporter of rabbit intestinal brush border membrane

NSP4 enterotoxin of rotavirus induces paracellular leakage in polarized epithelial cells

P304

11834-11850

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1128/JVI.75.23.11834-11850.2001

http://www.w3.org/2001/XMLSchema#string

P433

23

http://www.w3.org/2001/XMLSchema#string

P478

75

http://www.w3.org/2001/XMLSchema#string

P577

2001-12-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

11689665

http://www.w3.org/2001/XMLSchema#string

P932

114770

http://www.w3.org/2001/XMLSchema#string