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162 results on '"Sha, Bingdong"'

7. Peptide substrate identification for yeast Hsp40 Ydj1 by screening the phage display library

Author

Li Jingzhi and Sha Bingdong

Subjects
Molecular chaperones, Protein folding, Heat-shock proteins 70, Peptide library, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

We have identified a peptide substrate for molecular chaperone Hsp40 Ydj1 by utilizing the combination of phage display library screening and isothemol titration calirimetry (ITC). The initial peptide substrate screening for Hsp40 Ydj1 has been carried out by utilizing a 7-mer phage display library. The peptide sequences from the bio-panning were synthesized and object to the direct affinity measurement for Hsp40 Ydj1 by isothemol titration calirimetry studies. The peptide which has the measurable affinity with Ydj1 shows enriched hydrophobic residues in the middle of the substrate fragment. The peptide substrate specificity for molecular chaperone Hsp40 has been analyzed.

Published
2004
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10. β-amyloid redirects norepinephrine signaling to activate the pathogenic GSK3β/tau cascade

Author

Zhang, Fang, primary, Gannon, Mary, additional, Chen, Yunjia, additional, Yan, Shun, additional, Zhang, Sixue, additional, Feng, Wendy, additional, Tao, Jiahui, additional, Sha, Bingdong, additional, Liu, Zhenghui, additional, Saito, Takashi, additional, Saido, Takaomi, additional, Keene, C. Dirk, additional, Jiao, Kai, additional, Roberson, Erik D., additional, Xu, Huaxi, additional, and Wang, Qin, additional

Published
2020
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12. Crystal structure of the Saccharomyces cerevisiae phosphatidylinositol-transfer protein

Author

Sha, Bingdong, Phillips, Scott E., Bankaitis, Vytas A., and Luo, Ming

Subjects
Proteins -- Analysis, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The yeast phosphatidylinositol-transfer protein (Sec14) is made up of 12 alpha-helices, six beta-strands, eight 3(sub10)-helices and has two clear domains. Two bound molecules of beta-OG were identified in the Sec14 electronic density map, and the detergent acyl chains extend away from the Sec14 interior. In contrast, the headgroups are oriented inwards. This research gives the first structural information about the function of a phosphatidylinositol-transfer protein.

Published
1998

13. Crystallized N-terminal domain of influenza virus matrix protein M1 and method of determining and using same

Author

Luo, Ming and Sha, Bingdong

Subjects
Life Sciences (General)
Abstract

The matrix protein, M1, of influenza virus strain A/PR/8/34 has been purified from virions and crystallized. The crystals consist of a stable fragment (18 Kd) of the M1 protein. X-ray diffraction studies indicated that the crystals have a space group of P3.sub.t 21 or P3.sub.2 21. Vm calculations showed that there are two monomers in an asymmetric unit. A crystallized N-terminal domain of M1, wherein the N-terminal domain of M1 is crystallized such that the three dimensional structure of the crystallized N-terminal domain of M1 can be determined to a resolution of about 2.1 .ANG. or better, and wherein the three dimensional structure of the uncrystallized N-terminal domain of M1 cannot be determined to a resolution of about 2.1 .ANG. or better. A method of purifying M1 and a method of crystallizing M1. A method of using the three-dimensional crystal structure of M1 to screen for antiviral, influenza virus treating or preventing compounds. A method of using the three-dimensional crystal structure of M1 to screen for improved binding to or inhibition of influenza virus M1. The use of the three-dimensional crystal structure of the M1 protein of influenza virus in the manufacture of an inhibitor of influenza virus M1. The use of the three-dimensional crystal structure of the M1 protein of influenza virus in the screening of candidates for inhibition of influenza virus M1.

Published
2000

17. Protein kinase 2 (CK2) controls CD4+T cell effector function in the pathogenesis of colitis

Author

Yang, Wei, Gibson, Sara A., Yan, Zhaoqi, Wei, Hairong, Tao, Jiahui, Sha, Bingdong, Qin, Hongwei, and Benveniste, Etty N.

Abstract

Crohn's disease (CD), one of the major forms of inflammatory bowel disease (IBD), is characterized by chronic inflammation of the gastrointestinal tract and associated with aberrant CD4+T-helper type 1 (Th1) and Th17 responses. Protein kinase 2 (CK2) is a conserved serine–threonine kinase involved in signal transduction pathways, which regulate immune responses. CK2 promotes Th17 cell differentiation and suppresses the generation of Foxp3+regulatory T cells. The function of CK2 in CD4+T cells during the pathogenesis of CD is unknown. We utilized the T cell-induced colitis model, transferring CD45RBhi-naive CD4+T cells from CK2αfl/flcontrols and CK2αfl/fldLck-Cre mice into Rag1−/−mice. CD4+T cells from CK2αfl/fldLck-Cre mice failed to induce wasting disease and significant intestinal inflammation, which was associated with decreased interleukin-17A-positive (IL-17A+), interferon-γ-positive (IFN-γ+), and double-positive IL-17A+IFN-γ+CD4+T cells in the spleen and colon. We determined that CK2α regulates CD4+T cell proliferation through a cell-intrinsic manner. CK2α is also important in controlling CD4+T cell responses by regulating NFAT2, which is vital for T cell activation and proliferation. Our findings indicate that CK2α contributes to the pathogenesis of colitis by promoting CD4+T cell proliferation and Th1 and Th17 responses, and that targeting CK2 may be a novel therapeutic treatment for patients with CD.

Published
2020
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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.

Author

Li, Jingzhi, Sha, Bingdong, Wang, Peng, Weaver, Clarissa, and Lucius, Aaron

Subjects
*HEAT shock proteins, *CRYSTAL structure, *PEPTIDES
Abstract

Hsp104 is a yeast member of the Hsp100 family which functions as a molecular chaperone to disaggregate misfolded polypeptides. To understand the mechanism by which the Hsp104 N-terminal domain (NTD) interacts with its peptide substrates, crystal structures of the Hsp104 NTDs from Saccharomyces cerevisiae (ScHsp104NTD) and Candida albicans (CaHsp104NTD) have been determined at high resolution. The structures of ScHsp104NTD and CaHsp104NTD reveal that the yeast Hsp104 NTD may utilize a conserved putative peptide-binding groove to interact with misfolded polypeptides. In the crystal structures ScHsp104NTD forms a homodimer, while CaHsp104NTD exists as a monomer. The consecutive residues Gln105, Gln106 and Lys107, and Lys141 around the putative peptide-binding groove mediate the monomer-monomer interactions within the ScHsp104NTD homodimer. Dimer formation by ScHsp104NTD suggests that the Hsp104 NTD may specifically interact with polyQ regions of prion-prone proteins. The data may reveal the mechanism by which Hsp104 NTD functions to suppress and/or dissolve prions. [ABSTRACT FROM AUTHOR]

Published
2017
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45. Crystal Structure of the Cytoskeleton-associated Protein Glycine-rich (CAP-Gly) Domain

Author

Li, Songlin, primary, Finley, Jim, additional, Liu, Zhi-Jie, additional, Qiu, Shi-Hong, additional, Chen, Hongli, additional, Luan, Chi-Hao, additional, Carson, Mike, additional, Tsao, Jun, additional, Johnson, David, additional, Lin, Guangda, additional, Zhao, Jun, additional, Thomas, Willie, additional, Nagy, Lisa A., additional, Sha, Bingdong, additional, DeLucas, Lawrence J., additional, Wang, Bi-Cheng, additional, and Luo, Ming, additional

Published
2002
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