Your search keyword '"Cell homeostasis"' showing total 2 results

1. Identification and Characterization of HSP90 Gene Family Reveals Involvement of HSP90, GRP94, and Not TRAP1 in Heat Stress Response in Chlamys farreri

Author

Xiaoting Huang, Mingyi Sui, Zhenmin Bao, Xiujiang Hou, Qiang Xing, Haitao Yu, Zujing Yang, Chang Cui, and Yuqing Hu

Subjects

cell homeostasis, Chlamys farreri, QH426-470, Article, Transcriptome, heat stress, Heat shock protein, Genetics, Animals, Homeostasis, Gene family, HSP90 Heat-Shock Proteins, Gene, Genetics (clinical), chemistry.chemical_classification, Membrane Glycoproteins, biology, Fishes, Hsp90, Amino acid, Cell biology, heat shock proteins 90, Open reading frame, chemistry, biology.protein, Protein folding, Heat-Shock Response

Abstract

Heat shock proteins 90 (HSP90s) are a class of ubiquitous, highly conserved, and multi-functional molecular chaperones present in all living organisms. They assist protein folding processes to form functional proteins. In the present study, three HSP90 genes, CfHSP90, CfGRP94 and CfTRAP1, were successfully identified in the genome of Chlamys farreri. The length of CfHSP90, CfGRP94 and CfTRAP1 were 7211 bp, 26,457 bp, and 28,699 bp, each containing an open reading frame (ORF) of 2181 bp, 2397 bp, and 2181 bp, and encoding proteins of 726, 798, and 726 amino acids, respectively. A transcriptomic database demonstrated that CfHSP90 and CfGRP94 were the primary functional executors with high expression during larval development and in adult tissues, while CfTRAP1 expression was low. Furthermore, all of the three CfHSP90s showed higher expression in gonads and ganglia as compared with other tissues, which indicated their probable involvement in gametogenesis and nerve signal transmission in C. farreri. In addition, under heat stress, the expressions of CfHSP90 and CfGRP94 were significantly up-regulated in the mantle, gill, and blood, but not in the heart. Nevertheless, the expression of CfTRAP1 did not change significantly in the four tested tissues. Taken together, in coping with heat stress, CfHSP90 and CfGRP94 could help correct protein folding or salvage damaged proteins for cell homeostasis in C. farreri. Collectively, a comprehensive analysis of CfHSP90s in C. farreri was conducted. The study indicates the functional diversity of CfHSP90s in growth, development, and environmental response, and our findings may have implications for the subsequent in-depth exploration of HSP90s in invertebrates.

Published

2021

2. Identification and Characterization of HSP90 Gene Family Reveals Involvement of HSP90, GRP94 and Not TRAP1 in Heat Stress Response in Chlamys farreri.

Author

Yu, Haitao, Yang, Zujing, Sui, Mingyi, Cui, Chang, Hu, Yuqing, Hou, Xiujiang, Xing, Qiang, Huang, Xiaoting, and Bao, Zhenmin

Subjects

*HEAT shock proteins, *CHLAMYS, *GONADS, *MOLECULAR chaperones, *GENE families, *PROTEIN folding, *MOLECULAR cloning

Abstract

Heat shock proteins 90 (HSP90s) are a class of ubiquitous, highly conserved, and multi-functional molecular chaperones present in all living organisms. They assist protein folding processes to form functional proteins. In the present study, three HSP90 genes, CfHSP90, CfGRP94 and CfTRAP1, were successfully identified in the genome of Chlamys farreri. The length of CfHSP90, CfGRP94 and CfTRAP1 were 7211 bp, 26,457 bp, and 28,699 bp, each containing an open reading frame (ORF) of 2181 bp, 2397 bp, and 2181 bp, and encoding proteins of 726, 798, and 726 amino acids, respectively. A transcriptomic database demonstrated that CfHSP90 and CfGRP94 were the primary functional executors with high expression during larval development and in adult tissues, while CfTRAP1 expression was low. Furthermore, all of the three CfHSP90s showed higher expression in gonads and ganglia as compared with other tissues, which indicated their probable involvement in gametogenesis and nerve signal transmission in C. farreri. In addition, under heat stress, the expressions of CfHSP90 and CfGRP94 were significantly up-regulated in the mantle, gill, and blood, but not in the heart. Nevertheless, the expression of CfTRAP1 did not change significantly in the four tested tissues. Taken together, in coping with heat stress, CfHSP90 and CfGRP94 could help correct protein folding or salvage damaged proteins for cell homeostasis in C. farreri. Collectively, a comprehensive analysis of CfHSP90s in C. farreri was conducted. The study indicates the functional diversity of CfHSP90s in growth, development, and environmental response, and our findings may have implications for the subsequent in-depth exploration of HSP90s in invertebrates. [ABSTRACT FROM AUTHOR]

Published

2021