SecReT4
SecReT4 contains data from 925 references related to type IV secretion systems (T4SSs). Last Update: Aug 11, 2012

Categories (Literatures contain following contents are categorized)
reviews experimental studies bioinformatics genome sequencing T4SS component T4SS effectors
conjugation DNA uptake and release effector translocation structural study protein interaction other
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Number of references found for the 'all' category : 925

References
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(20) Ripoll-Rozada J et al (2012). Regulation of the Type IV Secretion ATPase TrwD by Magnesium: IMPLICATIONS FOR CATALYTIC MECHANISM OF THE SECRETION ATPase SUPERFAMILY. J Biol Chem. 287(21):17408-14. [PudMed:22467878]
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(31) Liu H et al (2012). Ehrlichia type IV secretion effector ECH0825 is translocated to mitochondria and curbs ROS and apoptosis by upregulating host MnSOD. Cell Microbiol. 14(7):1037-50. [PudMed:22348527]
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(35) Hu H et al (2012). Novel plasmid and its variant harboring both a bla(NDM-1) gene and type IV secretion system in clinical isolates of Acinetobacter lwoffii. Antimicrob Agents Chemother. 56(4):1698-702. [PudMed:22290961]
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(37) Bantwal R et al (2012). The peptidoglycan hydrolase TcpG is required for efficient conjugative transfer of pCW3 in Clostridium perfringens. Plasmid. 67(2):139-47. [PudMed:22244927]
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(40) Rizzato C et al (2012). Variations in Helicobacter pylori cytotoxin-associated genes and their influence in progression to gastric cancer: implications for prevention. PLoS One. 7(1):e29605. [PudMed:22235308]
(41) Neunuebel MR et al (2012). Legionella pneumophila LidA affects nucleotide binding and activity of the host GTPase Rab1. J Bacteriol. 194(6):1389-400. [PudMed:22228731]
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(44) Porter CJ et al (2012). The conjugation protein TcpC from Clostridium perfringens is structurally related to the type IV secretion system protein VirB8 from Gram-negative bacteria. Mol Microbiol. 83(2):275-88. [PudMed:22150951]
(45) Aviles-Jimenez F et al (2012). In vivo expression of Helicobacter pylori virulence genes in patients with gastritis, ulcer, and gastric cancer. Infect Immun. 80(2):594-601. [PudMed:22124657]
(46) Wang H et al (2012). Characterization of CagI in the cag pathogenicity island of Helicobacter pylori. Curr Microbiol. 64(2):191-6. [PudMed:22109855]
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(48) Gillespie JJ et al (2012). A Rickettsia genome overrun by mobile genetic elements provides insight into the acquisition of genes characteristic of an obligate intracellular lifestyle. J Bacteriol. 194(2):376-94. [PudMed:22056929]
(49) Wang HJ et al (2012). Helicobacter pylori cholesteryl glucosides interfere with host membrane phase and affect type IV secretion system function during infection in AGS cells. Mol Microbiol. 83(1):67-84. [PudMed:22053852]
(50) Morse K et al (2012). Association and evidence for linked recognition of type IV secretion system proteins VirB9-1, VirB9-2, and VirB10 in Anaplasma marginale. Infect Immun. 80(1):215-27. [PudMed:22038917]
(51) Caswell CC et al (2012). The RNA chaperone Hfq independently coordinates expression of the VirB type IV secretion system and the LuxR-type regulator BabR in Brucella abortus 2308. J Bacteriol. 194(1):3-14. [PudMed:22020650]
(52) Bi D et al (2012). ICEberg: a web-based resource for integrative and conjugative elements found in Bacteria. Nucleic Acids Res. 40(Database issue):D621-6. [PudMed:22009673]
(53) Luo ZQ (2012). Legionella secreted effectors and innate immune responses. Cell Microbiol. 14(1):19-27. [PudMed:21985602]
(54) Conradi J et al (2012). Cyclic RGD peptides interfere with binding of the Helicobacter pylori protein CagL to integrins alpha(V)beta (3) and alpha (5)beta (1). Amino Acids. 43(1):219-32. [PudMed:21915696]
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(56) Dubreuil R et al (2011). Bringing host-cell takeover by pathogenic bacteria to center stage. Cell Logist. 1(4):120-124. [PudMed:22279609]
(57) Tzivelekidis T et al (2011). Aminoacyl-tRNA-charged eukaryotic elongation factor 1A is the bona fide substrate for Legionella pneumophila effector glucosyltransferases. PLoS One. 6(12):e29525. [PudMed:22216304]
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(59) Lai CH et al (2011). Helicobacter pylori CagA-mediated IL-8 induction in gastric epithelial cells is cholesterol-dependent and requires the C-terminal tyrosine phosphorylation-containing domain. FEMS Microbiol Lett. 323(2):155-63. [PudMed:22092715]
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(63) Truttmann MC et al (2011). Bartonella henselae engages inside-out and outside-in signaling by integrin beta1 and talin1 during invasome-mediated bacterial uptake. J Cell Sci. 124(Pt 21):3591-602. [PudMed:22045736]
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(65) Wessler S et al (2011). Regulation of the actin cytoskeleton in Helicobacter pylori-induced migration and invasive growth of gastric epithelial cells. Cell Commun Signal. 9(1):27. [PudMed:22044652]
(66) Truttmann MC et al (2011). BID-F1 and BID-F2 domains of Bartonella henselae effector protein BepF trigger together with BepC the formation of invasome structures. PLoS One. 6(10):e25106. [PudMed:22043280]
(67) Aguilar J et al (2011). Membrane and core periplasmic Agrobacterium tumefaciens virulence Type IV secretion system components localize to multiple sites around the bacterial perimeter during lateral attachment to plant cells. MBio. 2(6):e00218-11. [PudMed:22027007]
(68) Berry TM et al (2011). Caught in the act: the dialogue between bacteriophage R17 and the type IV secretion machine of plasmid R1. Mol Microbiol. 82(5):1039-43. [PudMed:22023392]
(69) Jain S et al (2011). Processing and maturation of the pilin of the type IV secretion system encoded within the gonococcal genetic island. J Biol Chem. 286(51):43601-10. [PudMed:22006923]
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(73) Shaffer CL et al (2011). Helicobacter pylori exploits a unique repertoire of type IV secretion system components for pilus assembly at the bacteria-host cell interface. PLoS Pathog. 7(9):e1002237. [PudMed:21909278]
(74) Jalan N et al (2011). Comparative genomic analysis of Xanthomonas axonopodis pv. citrumelo F1, which causes citrus bacterial spot disease, and related strains provides insights into virulence and host specificity. J Bacteriol. 193(22):6342-57. [PudMed:21908674]
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