Your search keyword '"Chu, Ruiai"' showing total 3 results

1. Redesign of a Four-helix Bundle Protein by Phage Display Coupled with Proteolysis and Structural Characterization by NMR and X-ray Crystallography

Author

Chu, Ruiai, Takei, Jiro, Knowlton, J. Randolph, Andrykovitch, Michelle, Pei, Wuhong, Kajava, Andrey V., Steinbach, Peter J., Ji, Xinhua, and Bai, Yawen

Subjects

*PROTEINS, *PROTEOLYSIS, *X-ray crystallography

Abstract

To test whether it is practical to use phage display coupled with proteolysis for protein design, we used this approach to convert a partially unfolded four-helix bundle protein, apocytochrome b562, to a stably folded four-helix bundle protein. Four residues expected to form a hydrophobic core were mutated. One residue was changed to Trp to provide a fluorescence probe for studying the protein''s physical properties and to partially fill the void left by the heme. The other three positions were randomly mutated. In addition, another residue in the region to be redesigned was substituted with Arg to provide a specific cutting site for protease Arg-c. This library of mutants was displayed on the surface of phage and challenged with protease Arg-c to select stably folded proteins. The consensus sequence that emerged from the selection included hydrophobic residues at only one of the three positions and non-hydrophobic residues at the other two. Nevertheless, the selected proteins were thermodynamically very stable. The structure of a selected protein was characterized using multi-dimensional NMR. All four helices were formed in the structure. Further, site-directed mutagenesis was used to change one of the two non-hydrophobic residues to a hydrophobic residue, which increased the stability of the protein, indicating that the selection result was not based solely on the protein''s global stability and that local structural characteristics may also govern the selection. This conclusion is supported by the crystal structure of another mutant that has two hydrophobic residues substituted for the two non-hydrophobic residues. These results suggest that the hydrophobic interactions in the core are not sufficient to dictate the selection and that the location of the cutting site of the protease also influences the selection of structures. [Copyright &y& Elsevier]

Published

2002

2. Systematic network assessment of the carcinogenic activities of cadmium.

Author

Chen, Peizhan, Duan, Xiaohua, Li, Mian, Huang, Chao, Li, Jingquan, Chu, Ruiai, Ying, Hao, Song, Haiyun, Jia, Xudong, Ba, Qian, and Wang, Hui

Subjects

*CADMIUM poisoning, *CARCINOGENESIS, *PROTEIN-protein interactions, *WESTERN immunoblotting, *PROSTATE cancer

Abstract

Cadmium has been defined as type I carcinogen for humans, but the underlying mechanisms of its carcinogenic activity and its influence on protein-protein interactions in cells are not fully elucidated. The aim of the current study was to evaluate, systematically, the carcinogenic activity of cadmium with systems biology approaches. From a literature search of 209 studies that performed with cellular models, 208 proteins influenced by cadmium exposure were identified. All of these were assessed by Western blotting and were recognized as key nodes in network analyses. The protein-protein functional interaction networks were constructed with NetBox software and visualized with Cytoscape software. These cadmium-rewired genes were used to construct a scale-free, highly connected biological protein interaction network with 850 nodes and 8770 edges. Of the network, nine key modules were identified and 60 key signaling pathways, including the estrogen, RAS, PI3K-Akt, NF-κB, HIF-1α, Jak-STAT, and TGF-β signaling pathways, were significantly enriched. With breast cancer, colorectal and prostate cancer cellular models, we validated the key node genes in the network that had been previously reported or inferred form the network by Western blotting methods, including STAT3, JNK, p38, SMAD2/3, P65, AKT1, and HIF-1α. These results suggested the established network was robust and provided a systematic view of the carcinogenic activities of cadmium in human. [ABSTRACT FROM AUTHOR]

Published

2016

3. Topological, functional, and dynamic properties of the protein interaction networks rewired by benzo(a)pyrene.

Author

Ba, Qian, Li, Junyang, Huang, Chao, Li, Jingquan, Chu, Ruiai, Wu, Yongning, and Wang, Hui

Subjects

*PROTEIN-protein interactions, *PHYSIOLOGICAL effects of benzopyrene, *TOPOLOGICAL property, *BIOLOGICAL networks, *FOODBORNE diseases, *POLLUTANTS, *HUMAN carcinogenesis

Abstract

Benzo(a)pyrene is a common environmental and foodborne pollutant that has been identified as a human carcinogen. Although the carcinogenicity of benzo(a)pyrene has been extensively reported, its precise molecular mechanisms and the influence on system-level protein networks are not well understood. To investigate the system-level influence of benzo(a)pyrene on protein interactions and regulatory networks, a benzo(a)pyrene-rewired protein interaction network was constructed based on 769 key proteins derived from more than 500 literature reports. The protein interaction network rewired by benzo(a)pyrene was a scale-free, highly-connected biological system. Ten modules were identified, and 25 signaling pathways were enriched, most of which belong to the human diseases category, especially cancer and infectious disease. In addition, two lung-specific and two liver-specific pathways were identified. Three pathways were specific in short and medium-term networks (< 48 h), and five pathways were enriched only in the medium-term network (6 h–48 h). Finally, the expression of linker genes in the network was validated by Western blotting. These findings establish the overall, tissue- and time-specific benzo(a)pyrene-rewired protein interaction networks and provide insights into the biological effects and molecular mechanisms of action of benzo(a)pyrene. [ABSTRACT FROM AUTHOR]

Published

2015