Three-dimensional structure of the toxin-delivery particle antifeeding prophage of Serratia entomophila. - Test2 - elhamkhani - TriplyDB

Three-dimensional structure of the toxin-delivery particle antifeeding prophage of Serratia entomophila.

Three-dimensional structure of the toxin-delivery particle antifeeding prophage of Serratia entomophila.

http://www.wikidata.org/entity/Q37132104

about

Type VI secretion system: secretion by a contractile nanomachine Priming and polymerization of a bacterial contractile tail structure Structure of the T4 baseplate and its function in triggering sheath contraction Three-dimensional reconstruction of helical polymers.Ambiguities in helical reconstruction.Tyrosine glycosylation of Rho by Yersinia toxin impairs blastomere cell behaviour in zebrafish embryos.Different Ancestries of R Tailocins in Rhizospheric Pseudomonas Isolates.Bacterial glycosyltransferase toxins.Afp14 is involved in regulating the length of Anti-feeding prophage (Afp).Cryo-EM structure of the extended type VI secretion system sheath-tube complex.Guidelines for using Bsoft for high resolution reconstruction and validation of biomolecular structures from electron micrographs.Refined Cryo-EM Structure of the T4 Tail Tube: Exploring the Lowest Dose Limit.A phage tail-derived element with wide distribution among both prokaryotic domains: a comparative genomic and phylogenetic study.Cryo-EM reconstruction of Type VI secretion system baseplate and sheath distal end.Artificial bio-nanomachines based on protein needles derived from bacteriophage T4.The Francisella Type VI Secretion System.Secretion Systems and Secreted Proteins in Gram-Negative Entomopathogenic Bacteria: Their Roles in Insect Virulence and Beyond.Crystal Structures of R-Type Bacteriocin Sheath and Tube Proteins CD1363 and CD1364 From in the Pre-assembled State Comparative Genomics of - Dual Endosymbiosis in a Plant-Parasitic Nematode

P2860

Q26787001-EE3419BB-FFD8-4780-8F87-2059B4CDB186 Q27704180-781C6752-427B-4072-8BB0-64533033933E Q27704894-2DCA3026-E71B-44D4-BE3F-77743B7058D1 Q30300082-6BFAC0FB-8446-429C-8D19-C4FDEA98E5B4 Q30301150-72A2639F-B240-4FE8-AE59-0C857D1975BB Q30659385-9B7B3DA4-9B47-4BE1-9EE9-22EDD019B971 Q36386119-2F8C7E37-FB1A-4FB9-8E6D-7415B2DDD6C4 Q38601591-8EA70F8A-5A3D-4692-A12F-5CD01E27576E Q41416000-C48ACF3A-9E54-4E71-B53B-16929FA46E95 Q41596293-6182DDD0-1452-4F09-ACF0-40A75014E21F Q41596490-7CFA96F7-3A95-4333-8394-6FAD7A20230A Q41596981-E7FDC557-E31C-4D1A-B915-774769567DAE Q42771486-292F540B-C173-4447-A0F9-731FB2341C78 Q47279275-230BB397-75B6-4F6E-991B-A82AD38DD66F Q47339063-6430D2A3-CD2D-40F2-AB93-B085E9FC81CA Q54217552-6DABF166-5439-462C-9787-C40DB0E00424 Q55499055-7BB24887-A579-4128-AEDB-AD1504A840DD Q58801464-FCF1C6DD-15B9-4614-996E-0935890AEF13 Q59136359-A95C6A45-A54E-46CA-B603-D246142E083A

P2860

Three-dimensional structure of the toxin-delivery particle antifeeding prophage of Serratia entomophila.

http://www.wikidata.org/entity/Q37132104

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 15 July 2013

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Three-dimensional structure of ...... phage of Serratia entomophila.

@en

Three-dimensional structure of ...... phage of Serratia entomophila.

@nl

type

label

Three-dimensional structure of ...... phage of Serratia entomophila.

@en

Three-dimensional structure of ...... phage of Serratia entomophila.

@nl

prefLabel

Three-dimensional structure of ...... phage of Serratia entomophila.

@en

Three-dimensional structure of ...... phage of Serratia entomophila.

@nl

P1433

Q37132104-43397642-9C15-4CB6-8D56-FC9932497A92

P1476

Q37132104-95B3174D-81C4-4A22-85A6-978D9476FF4A

P2093

Q37132104-397F89EB-626C-47D1-828F-929F5676CC35

Q37132104-44C84EBF-ECA0-449E-AB0B-182C1392FDAE

Q37132104-744AF7A4-B71F-4AFF-9468-6D97FCEE103E

Q37132104-81586D25-3026-4C61-8911-F330488511F5

Q37132104-B62E5C94-336F-40B3-A299-EFE699988C46

Q37132104-B678116E-0606-4B73-BCDE-2142865C6605

Q37132104-DCF32868-1C59-4A1A-9C59-580B4CC5309F

Q37132104-EDA32A34-096F-4AC3-8F0B-BBB2862FAD7B

P2860

Q37132104-052D6A13-18DB-4A16-9EB4-7658FD7A7D2D

Q37132104-0BD2C531-31FA-4508-A4E9-B37C9E1EE983

Q37132104-153F2E49-76CA-4049-9FD0-AA645B48F463

Q37132104-17D7EB58-38FA-4562-A21B-9711D02E6EB0

Q37132104-1C55FB36-E9CF-4D9D-9E6F-6B3046DB1029

Q37132104-287FCF9D-ED7C-44A1-9C1C-FC401F860496

Q37132104-36C7CA76-0D19-4A57-8910-599D33EA88C5

Q37132104-38399F90-9199-4DF7-8175-3821DA5A99C9

Q37132104-3BE9FDCF-C6C7-4FDE-95F3-EF5476B7DAD1

Q37132104-4455ECCC-6B3A-4284-8420-2D84C1F9A4E6

P304

Q37132104-5B0F190E-A614-4EC2-801D-6ACCA104AE98

P31

Q37132104-5041C072-2AD3-4555-BA27-4D0C2C297DE0

P356

Q37132104-B1039645-97EE-4C39-B6F5-E0A6B51F98DC

P407

Q37132104-172322D6-5CFC-44C9-A872-6400A6350BE6

P433

Q37132104-E6616397-F8C0-42EE-8F02-13E383914556

P478

Q37132104-E7E278D0-02C8-4542-BC87-0E4A4F9F47D8

P577

Q37132104-372D2552-C76B-4858-92EA-28A3B410A678

P698

Q37132104-45749C40-2729-46CB-BB3A-9EE747164B15

P932

Q37132104-51463EE2-691D-4537-98A8-F643DAD94BEE

P356

JBC.M113.456145

P1433

Journal of Biological Chemistry

P1476

Three-dimensional structure of ...... phage of Serratia entomophila.

@en

P2093

Alok K Mitra

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

Anindito Sen

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

Daria Rybakova

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

Dennis C Winkler

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

Hari P Venugopal

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

J Bernard Heymann

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

Joseph D Bartho

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

Mark R H Hurst

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

P2860

Gapped BLAST and PSI-BLAST: a new generation of protein database search programs

A virulence locus of Pseudomonas aeruginosa encodes a protein secretion apparatus

Structure of the cell-puncturing device of bacteriophage T4

The tail sheath structure of bacteriophage T4: a molecular machine for infecting bacteria.

Type VI secretion apparatus and phage tail-associated protein complexes share a common evolutionary origin

UCSF Chimera--a visualization system for exploratory research and analysis

Prevention of overfitting in cryo-EM structure determination

Bsoft: image processing and molecular modeling for electron microscopy

Automated electron microscope tomography using robust prediction of specimen movements

Type VI secretion requires a dynamic contractile phage tail-like structure.

P304

25276-25284

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

P31

scholarly article

P356

10.1074/JBC.M113.456145

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

P407

P433

35

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

P478

288

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

P577

2013-07-15T00:00:00Z

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

P698

23857636

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

P932

3757192

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