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Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
by Lamb, Don C , Rosam, Mathias , Barth, Anders , Krader, Daniela , Agam, Ganesh , Zeymer, Cathleen , Reinstein, Jochen , Nickels, Christina , Hendrix, Jelle , Schneider, Markus , Antes, Iris , Buchner, Johannes , Back, Katrin C , Hochmair, Janine
in Adenosine diphosphate / Adenosine triphosphatase / Adenosine triphosphate / Amino acids / Binding / Chaperones / Chemistry / Coupling (molecular) / Crystal structure / Experiments / Fluorescence resonance energy transfer / Hsp70 protein / Molecular biology / Nef protein / Proteins / Sedimentation & deposition / Substrates / Yeast
2018
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Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
by Lamb, Don C , Rosam, Mathias , Barth, Anders , Krader, Daniela , Agam, Ganesh , Zeymer, Cathleen , Reinstein, Jochen , Nickels, Christina , Hendrix, Jelle , Schneider, Markus , Antes, Iris , Buchner, Johannes , Back, Katrin C , Hochmair, Janine
in Adenosine diphosphate / Adenosine triphosphatase / Adenosine triphosphate / Amino acids / Binding / Chaperones / Chemistry / Coupling (molecular) / Crystal structure / Experiments / Fluorescence resonance energy transfer / Hsp70 protein / Molecular biology / Nef protein / Proteins / Sedimentation & deposition / Substrates / Yeast
2018
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Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
by Lamb, Don C , Rosam, Mathias , Barth, Anders , Krader, Daniela , Agam, Ganesh , Zeymer, Cathleen , Reinstein, Jochen , Nickels, Christina , Hendrix, Jelle , Schneider, Markus , Antes, Iris , Buchner, Johannes , Back, Katrin C , Hochmair, Janine
in Adenosine diphosphate / Adenosine triphosphatase / Adenosine triphosphate / Amino acids / Binding / Chaperones / Chemistry / Coupling (molecular) / Crystal structure / Experiments / Fluorescence resonance energy transfer / Hsp70 protein / Molecular biology / Nef protein / Proteins / Sedimentation & deposition / Substrates / Yeast
2018

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Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate
Journal Article

Bap (Sil1) regulates the molecular chaperone BiP by coupling release of nucleotide and substrate

Lamb, Don C,
Rosam, Mathias,
Barth, Anders,
Krader, Daniela,
Agam, Ganesh,
Zeymer, Cathleen,
Reinstein, Jochen,
Nickels, Christina,
Hendrix, Jelle,
Schneider, Markus,
Antes, Iris,
Buchner, Johannes,
Back, Katrin C,
Hochmair, Janine
2018
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Overview
BiP is the endoplasmic member of the Hsp70 family. BiP is regulated by several co-chaperones including the nucleotide-exchange factor (NEF) Bap (Sil1 in yeast). Bap is a two-domain protein. The interaction of the Bap C-terminal domain with the BiP ATPase domain is sufficient for its weak NEF activity. However, stimulation of the BiP ATPase activity requires full-length Bap, suggesting a complex interplay of these two factors. Here, single-molecule FRET experiments with mammalian proteins reveal that Bap affects the conformation of both BiP domains, including the lid subdomain, which is important for substrate binding. The largely unstructured Bap N-terminal domain promotes the substrate release from BiP. Thus, Bap is a conformational regulator affecting both nucleotide and substrate interactions. The preferential interaction with BiP in its ADP state places Bap at a late stage of the chaperone cycle, in which it coordinates release of substrate and ADP, thereby resetting BiP for ATP and substrate binding.
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Publisher
Nature Publishing Group
Subject

Adenosine diphosphate

/ Adenosine triphosphatase

/ Adenosine triphosphate

/ Amino acids

/ Binding

/ Chaperones

/ Chemistry

/ Coupling (molecular)

/ Crystal structure

/ Experiments

/ Fluorescence resonance energy transfer

/ Hsp70 protein

/ Molecular biology

/ Nef protein

/ Proteins

/ Sedimentation & deposition

/ Substrates

/ Yeast

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