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Sally A Lewis - One of the best experts on this subject based on the ideXlab platform.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized alpha- and beta-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. alpha- and beta-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A-E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by beta-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein beta-tubulin to hydrolyze its GTP.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized α- and β-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. α- and β-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A–E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by β-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein β-tubulin to hydrolyze its GTP.
Guoling Tian - One of the best experts on this subject based on the ideXlab platform.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized alpha- and beta-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. alpha- and beta-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A-E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by beta-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein beta-tubulin to hydrolyze its GTP.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized α- and β-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. α- and β-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A–E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by β-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein β-tubulin to hydrolyze its GTP.
Nicholas J Cowan - One of the best experts on this subject based on the ideXlab platform.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized alpha- and beta-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. alpha- and beta-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A-E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by beta-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein beta-tubulin to hydrolyze its GTP.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized α- and β-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. α- and β-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A–E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by β-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein β-tubulin to hydrolyze its GTP.
Arunashree Bhamidipati - One of the best experts on this subject based on the ideXlab platform.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized alpha- and beta-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. alpha- and beta-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A-E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by beta-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein beta-tubulin to hydrolyze its GTP.
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tubulin folding cofactors as gtpase activating proteins gtp hydrolysis and the assembly of the alpha beta tubulin heterodimer
Journal of Biological Chemistry, 1999Co-Authors: Guoling Tian, Nicholas J Cowan, Arunashree Bhamidipati, Sally A LewisAbstract:In vivo, many proteins must interact with molecular chaperones to attain their native conformation. In the case of tubulin, newly synthesized α- and β-subunits are partially folded by cytosolic chaperonin, a double-toroidal ATPase with homologs in all kingdoms of life and in most cellular compartments. α- and β-tubulin folding intermediates are then brought together by tubulin-specific chaperone proteins (named cofactors A–E) in a cofactor-containing supercomplex with GTPase activity. Here we show that tubulin subunit exchange can only occur by passage through this supercomplex, thus defining it as a dimer-Making Machine. We also show that hydrolysis of GTP by β-tubulin in the supercomplex acts as a switch for the release of native tubulin heterodimer. In this folding reaction and in the related reaction of tubulin-folding cofactors with native tubulin, the cofactors behave as GTPase-activating proteins, stimulating the GTP-binding protein β-tubulin to hydrolyze its GTP.
Nicolas Papernot - One of the best experts on this subject based on the ideXlab platform.
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Making Machine learning robust against adversarial inputs
Communications of The ACM, 2018Co-Authors: Ian Goodfellow, Patrick Mcdaniel, Nicolas PapernotAbstract:Such inputs distort how Machine-learning-based systems are able to function in the world as it is.
