Abstract

Fenneropenaeus chinensis is a migratory marine species with a suitable growth at 18–30°C. To prolong breeding season and reduce mortality in winter, breeding new shrimp varieties with cold tolerance is essential. Genes upregulated and highly expressed at low temperature are reasonable candidate genetic markers for the breeding of cold tolerant strain variants. This study screened genes with these features by comparing multiple low-vs. normal-temperature transcriptome groups. The results showed that nine genes were upregulated and highly expressed at low temperature in more than seven of the nine comparison groups. Six of them were identified as genes encoding transcription factor ATF2, RNA recognition motif domain-containing protein, cytochrome b5-like protein, troponin C, tubulin alpha-1, and 18S/5.8S/28S rRNA, respectively. Cold-inducible upregulations of ATF2, cytochrome b5, and rRNAs were novel findings in this study. The other three novel genes were predicted to encode a membrane-bound extracellular protein and two lncRNAs. Four of the screened genes were verified by real time RT-PCR, and their expression levels were consistent with the sequencing results, demonstrating the accuracy of the transcriptome sequencing data. Function analysis showed that ATF2 might be the master transcription factor regulating the expressions of proteins involved in cellular responses to cold. The other genes played a role in events such as enhancing translation, increasing energy, inhibiting apoptosis, and preserving cell integrity. The expression features of these nine genes suggested that they were of great significance to the cold tolerance of shrimp.

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