Abstract
The Chinese giant salamander (Andrias davidianus, CGS) is the largest extant amphibian species in the world. Global quantitative proteome analysis of multiple tissues would indicate tissue-specific physiological processes and clarify the function of each protein from a whole-organism perspective. This study performed proteome analysis of eleven tissues collected from adult CGSs using iTRAQ coupled with LC-MS/MS technology. Based on the predicted protein database from previously obtained CGS transcriptome data, 2153 proteins were identified for subsequent analysis. A weighted gene co-expression network analysis (WGCNA) clustered 2153 proteins into 17 co-expressed modules, which will be useful for predicting the functions of unannotated proteins. The protein levels of molecular complexes with housekeeping functions, such as ribosomes, spliceosomes and mitochondrial respiratory chain complexes, were tightly regulated in different tissues of the CGS, as they are in mammalian tissues. Transcription regulator, pathway and bio-functional analysis of tissue-specific proteins showed that highly expressed proteins largely reflected the physiological functions of specific tissues. Our data, as an initial atlas of protein expression of an amphibian species, will be useful for further molecular biology research on CGS.
Highlights
The Chinese giant salamander (Andrias davidianus, CGS), endemic to Mainland China, is the largest extant amphibian species in the world
A false discovery rate (FDR) ≤ 0.01 was utilized to filter out the data, and a total of 4607 proteins with quantitative information were identified
We conducted the first quantitative proteome analysis of eleven adult CGS tissues using iTRAQ labeling coupled with LC-MS/MS
Summary
The Chinese giant salamander (Andrias davidianus, CGS), endemic to Mainland China, is the largest extant amphibian species in the world. Climate change and overhunting, the natural populations of CGS have sharply declined, leading to their inclusion in annex I of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) and in class II of the national list of protected animals in China[2]. Despite their unique life-history characteristics, this species remains poorly characterized at the molecular level. These data will be useful for future molecular biology studies of notable features of the CGS, such as longevity and starvation endurance
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