Genome-wide identification and functional prediction of long non-coding RNAs in Sprague-Dawley rats during heat stress.

Tytuł:: Genome-wide identification and functional prediction of long non-coding RNAs in Sprague-Dawley rats during heat stress.
Autorzy:: Dou J; Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China.
Schenkel F; Centre for Genetic Improvement of Livestock, Department of Animal Biosciences, University of Guelph, Guelph, Ontario, N1G 2W1, Canada.
Hu L; Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China.
Khan A; Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China.
Khan MZ; Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China.
Yu Y; Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China.
Wang Y; State Key Laboratory of Animal Nutrition, Beijing Engineering Technology Research Centre of Raw Milk Quality and Safety Control, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China.
Wang Y; Key Laboratory of Animal Genetics, Breeding and Reproduction, MARA, National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, 100193, Beijing, People's Republic of China. .
Źródło:: BMC genomics [BMC Genomics] 2021 Feb 17; Vol. 22 (1), pp. 122. Date of Electronic Publication: 2021 Feb 17.
Typ publikacji:: Journal Article
Język:: English
Imprint Name(s):: Original Publication: London : BioMed Central, [2000-
MeSH Terms:: RNA, Long Noncoding*/genetics
Animals ; Gene Expression Profiling ; Heat-Shock Response/genetics ; Rats ; Rats, Sprague-Dawley ; Sequence Analysis, RNA
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Grant Information:: No.CARS-36 Modern Agro-industry Technology Research System of China; No.IRT_15R62 program for Changjiang Scholar and Innovation Research Team in University of China
Contributed Indexing:: Keywords: Adrenal glands; DEGs; Heat shock protein; Heat stress response; Liver; LncRNAs
Substance Nomenclature:: 0 (RNA, Long Noncoding)
Entry Date(s):: Date Created: 20210218 Date Completed: 20210514 Latest Revision: 20210514
Update Code:: 20240105
PubMed Central ID:: PMC7891137
DOI:: 10.1186/s12864-021-07421-8
PMID:: 33596828
: Czasopismo naukowe

Pełny tekst

Background: Heat stress (HS) is a major stress event in the life of an animal, with detrimental upshots in production and health. Long-non-coding RNAs (lncRNAs) play an important role in many biological processes by transcriptional regulation. However, no research has been reported on the characterization and functionality of lncRNAs in heat-stressed rats.
Results: We studied expression levels of lncRNAs in rats during HS, using strand-specific RNA sequencing. Six rats, three in each of Control (22 ± 1 °C) and H120 (42 °C for 120 min) experimental groups, were used to screen for lncRNAs in their liver and adrenal glands. Totally, 4498 and 7627 putative lncRNAs were identified in liver and adrenal glands of the Control and H120 groups, respectively. The majority of lncRNAs were relatively shorter and contained fewer exons than protein-coding transcripts. In total, 482 (174 up-regulated and 308 down-regulated) and 271 (126 up-regulated and 145 down-regulated) differentially-expressed lncRNAs (DElncRNAs, P < 0.05) were identified in the liver and adrenal glands of the Control and H120 groups, respectively. Furthermore, 1274, 121, and 73 target differentially-expressed genes (DEGs) in the liver were predicted to interact with DElncRNAs based on trans-/cis- and sequence similarity regulatory modes. Functional annotation analyses indicated that these DEGs were mostly significantly enriched in insulin signalling, myeloid leukaemia, and glucagon signalling pathways. Similarly, 437, 73 and 41 target DEGs in the adrenal glands were mostly significantly enriched in the cell cycle (trans-prediction) and lysosome pathways (cis-prediction). The DElncRNAs interacting with DEGs that encode heat shock proteins (HSPs) may play an important role in HS response, which include Hsf4, Dnaja1, Dnajb4, Hsph1 and Hspb1 in the liver, and Dnajb13 and Hspb8 in the adrenal glands. The strand-specific RNA sequencing findings were also further verified through RT-qPCR.
Conclusions: This study is the first to provide a detailed characterization and functional analysis of expression levels of lncRNAs in liver and adrenal glands of heat-stressed rats, which provides basis for further studies on the biological functions of lncRNAs under heat stress in rats and other mammalian species.

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