162 results on '"Sha, Bingdong"'
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2. The Arf-GEF GBF1 undergoes multi-domain structural shifts to activate Arf at the Golgi
3. Prickle and Ror modulate Dishevelled-Vangl interaction to regulate non-canonical Wnt signaling during convergent extension
4. Protein kinase 2 (CK2) controls CD4+ T cell effector function in the pathogenesis of colitis
5. AI-Based Protein Interaction Screening and Identification (AISID)
6. A CK2-dependent mechanism for activation of the JAK-STAT signaling pathway
7. Peptide substrate identification for yeast Hsp40 Ydj1 by screening the phage display library
8. Trimethylamine N-Oxide Binds and Activates PERK to Promote Metabolic Dysfunction
9. Structural Insight into the Protective Role of P58(IPK) during Unfolded Protein Response
10. β-amyloid redirects norepinephrine signaling to activate the pathogenic GSK3β/tau cascade
11. Endoplasmic Reticulum Stress Signaling Pathways: Activation and Diseases
12. Crystal structure of the Saccharomyces cerevisiae phosphatidylinositol-transfer protein
13. Crystallized N-terminal domain of influenza virus matrix protein M1 and method of determining and using same
14. The Crystal Structure of the Influenza Matrix Protein M1 at Neutral pH: M1–M1 Protein Interfaces Can Rotate in the Oligomeric Structures of M1
15. Protein kinase 2 (CK2) controls CD4+ T cell effector function in the pathogenesis of colitis.
16. The luminal domain of the ER stress sensor protein PERK binds misfolded proteins and thereby triggers PERK oligomerization
17. Protein kinase 2 (CK2) controls CD4+T cell effector function in the pathogenesis of colitis
18. Crystal structures of Hsp104 N-terminal domains fromSaccharomyces cerevisiaeandCandida albicanssuggest the mechanism for the function of Hsp104 in dissolving prions
19. The ER stress sensor PERK luminal domain functions as a molecular chaperone to interact with misfolded proteins
20. The structure of Tim50(164–361) suggests the mechanism by which Tim50 receives mitochondrial presequences
21. Crystal structures of Hsp104 N-terminal domains from Saccharomyces cerevisiae and Candida albicans suggest the mechanism for the function of Hsp104 in dissolving prions.
22. Structural analysis of the Sil1–Bip complex reveals the mechanism for Sil1 to function as a nucleotide-exchange factor
23. Structural Basis for the Function of Tim50 in the Mitochondrial Presequence Translocase
24. Membrane Binding Mechanism of Yeast Mitochondrial Peripheral Membrane Protzein TIM44
25. The structure of the PERK kinase domain suggests the mechanism for its activation
26. The structural plasticity of Tom71 for mitochondrial precursor translocations
27. Crystal Structure of P58(IPK) TPR Fragment Reveals the Mechanism for its Molecular Chaperone Activity in UPR
28. Recognition of Histone H3K4 Trimethylation by the Plant Homeodomain of PHF2 Modulates Histone Demethylation
29. The Crystal Structures of Yeast Get3 Suggest a Mechanism for Tail-Anchored Protein Membrane Insertion
30. Molecular Chaperone Hsp70/Hsp90 Prepares the Mitochondrial Outer Membrane Translocon Receptor Tom71 for Preprotein Loading
31. Heat Shock Protein 40: Structural Studies and Their Functional Implications
32. Preliminary X-ray crystallographic studies of yeast Get3
33. Preliminary X-ray crystallographic studies of mouse UPR responsive protein P58(IPK) TPR fragment
34. The crystal structure of the putative peptide-binding fragment from the human Hsp40 protein Hdj1
35. Crystal structure of yeast Sis1 peptide-binding fragment and Hsp70 Ssa1 C-terminal complex
36. Crystal structure of yeast mitochondrial outer membrane translocon member Tom70p
37. Crystal Structure of Yeast Mitochondrial Peripheral Membrane Protein Tim44p C-terminal Domain
38. Preliminary X-ray crystallographic studies of yeast mitochondrial protein Tom70p
39. Preliminary crystallographic studies of yeast mitochondrial peripheral membrane protein Tim44p
40. Structure-based mutagenesis studies of the peptide substrate binding fragment of type I heat-shock protein 40
41. The Crystal Structure of the C-terminal Fragment of Yeast Hsp40 Ydj1 Reveals Novel Dimerization Motif for Hsp40
42. The Crystal Structure of the Yeast Hsp40 Ydj1 Complexed with Its Peptide Substrate
43. Preliminary X-ray crystallographic studies of yeast Hsp40 Ydj1 complexed with its peptide substrate
44. Crystal Structure of the E. coli Hsp100 ClpB N-Terminal Domain
45. Crystal Structure of the Cytoskeleton-associated Protein Glycine-rich (CAP-Gly) Domain
46. Cloning, expression, purification and preliminary X-ray crystallographic studies ofEscherichia coliHsp100 nucleotide-binding domain 2 (NBD2)
47. Crystal Structure of E.coli Hsp100 ClpB Nucleotide-binding Domain 1 (NBD1) and Mechanistic Studies on ClpB ATPase Activity
48. Direct interactions between molecular chaperones heat-shock protein (Hsp) 70 and Hsp40: yeast Hsp70 Ssa1 binds the extreme C-terminal region of yeast Hsp40 Sis1
49. Direct interactions between molecular chaperones heat-shock protein (Hsp) 70 and Hsp40: yeast Hsp70 Ssa1 binds the extreme C-terminal region of yeast Hsp40 Sis1
50. Cloning, expression, purification and preliminary X-ray crystallographic studies ofEscherichia coliHsp100 ClpB N-terminal domain
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