Tweten, Rodney | Profiles RNS

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Rodney Tweten to Protein Structure, Secondary

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This is a "connection" page, showing publications Rodney Tweten has written about Protein Structure, Secondary.

Rodney Tweten

Connection Strength

1.153

Protein Structure, Secondary

Arresting pore formation of a cholesterol-dependent cytolysin by disulfide trapping synchronizes the insertion of the transmembrane beta-sheet from a prepore intermediate. J Biol Chem. 2001 Mar 16; 276(11):8261-8.
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Score: 0.177
Identification of a membrane-spanning domain of the thiol-activated pore-forming toxin Clostridium perfringens perfringolysin O: an alpha-helical to beta-sheet transition identified by fluorescence spectroscopy. Biochemistry. 1998 Oct 13; 37(41):14563-74.
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Score: 0.152
The Cholesterol-dependent Cytolysin Membrane-binding Interface Discriminates Lipid Environments of Cholesterol to Support ß-Barrel Pore Insertion. J Biol Chem. 2015 Jul 17; 290(29):17733-17744.
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Score: 0.121
The Unique Molecular Choreography of Giant Pore Formation by the Cholesterol-Dependent Cytolysins of Gram-Positive Bacteria. Annu Rev Microbiol. 2015; 69:323-40.
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Score: 0.117
Monomer-monomer interactions propagate structural transitions necessary for pore formation by the cholesterol-dependent cytolysins. J Biol Chem. 2012 Jul 13; 287(29):24534-43.
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Score: 0.098
Membrane assembly of the cholesterol-dependent cytolysin pore complex. Biochim Biophys Acta. 2012 Apr; 1818(4):1028-38.
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Score: 0.092
Characterization of a streptococcal cholesterol-dependent cytolysin with a lewis y and b specific lectin domain. Biochemistry. 2008 Jul 08; 47(27):7097-107.
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Score: 0.074
Specific protein-membrane contacts are required for prepore and pore assembly by a cholesterol-dependent cytolysin. J Biol Chem. 2007 May 25; 282(21):15709-16.
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Score: 0.069
The identification and structure of the membrane-spanning domain of the Clostridium septicum alpha toxin. J Biol Chem. 2004 Apr 02; 279(14):14315-22.
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Score: 0.055
The mechanism of membrane insertion for a cholesterol-dependent cytolysin: a novel paradigm for pore-forming toxins. Cell. 1999 Oct 29; 99(3):293-9.
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Score: 0.041
Stonefish toxin defines an ancient branch of the perforin-like superfamily. Proc Natl Acad Sci U S A. 2015 Dec 15; 112(50):15360-5.
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Score: 0.031
Conformational changes during pore formation by the perforin-related protein pleurotolysin. PLoS Biol. 2015 Feb; 13(2):e1002049.
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Score: 0.030
Disulfide-bond scanning reveals assembly state and ß-strand tilt angle of the PFO ß-barrel. Nat Chem Biol. 2013 Jun; 9(6):383-9.
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Score: 0.026
Structure of the lectin regulatory domain of the cholesterol-dependent cytolysin lectinolysin reveals the basis for its lewis antigen specificity. Structure. 2012 Feb 08; 20(2):248-58.
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Score: 0.024
Membrane-dependent conformational changes initiate cholesterol-dependent cytolysin oligomerization and intersubunit beta-strand alignment. Nat Struct Mol Biol. 2004 Aug; 11(8):697-705.
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Score: 0.014
Beta-barrel pore-forming toxins: intriguing dimorphic proteins. Biochemistry. 2001 Aug 07; 40(31):9065-73.
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Score: 0.012
Mechanism of membrane insertion of a multimeric beta-barrel protein: perfringolysin O creates a pore using ordered and coupled conformational changes. Mol Cell. 2000 Nov; 6(5):1233-42.
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Score: 0.011
The molecular mechanism of pneumolysin, a virulence factor from Streptococcus pneumoniae. J Mol Biol. 1998 Nov 27; 284(2):449-61.
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Score: 0.010

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