Endogenous circadian time genes expressions in the liver of mice under constant darkness

Endogenous circadian time genes expressions in the liver of mice under constant darkness

Abstract Background The circadian rhythms regulate physiological functions and metabolism. Circadian Time (CT) is a unit to quantify the rhythm of endogenous circadian clock, independent of light influence. To understand the gene expression changes throughout CT, C57BL/6 J mice were maintained under...

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Main Authors: Huan Li, Shiyao Zhang, Wenxiang Zhang, Siyu Chen, Anjara Rabearivony, Yujie Shi, Jie Liu, Christopher J. Corton, Chang Liu
Format: Article
Language:English
Published: BMC 2020-03-01
Series:BMC Genomics
Subjects:
Constant darkness
Circadian time
RNA sequence
MetaCycle
Mouse liver
RT-qPCR
Online Access:http://link.springer.com/article/10.1186/s12864-020-6639-4
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spelling doaj-d76c1b053e9c46d19bb69cd2fb40dfc62020-11-25T02:10:33ZengBMCBMC Genomics1471-21642020-03-0121111210.1186/s12864-020-6639-4Endogenous circadian time genes expressions in the liver of mice under constant darknessHuan Li0Shiyao Zhang1Wenxiang Zhang2Siyu Chen3Anjara Rabearivony4Yujie Shi5Jie Liu6Christopher J. Corton7Chang Liu8School of Life Sciences and Technology, China Pharmaceutical UniversitySchool of Life Sciences and Technology, China Pharmaceutical UniversitySchool of Life Sciences and Technology, China Pharmaceutical UniversitySchool of Life Sciences and Technology, China Pharmaceutical UniversitySchool of Life Sciences and Technology, China Pharmaceutical UniversitySchool of Life Sciences and Technology, China Pharmaceutical UniversityKey Laboratory of Basic Pharmacology of Ministry of Education, Zunyi Medical UniversityComputational Toxicology Division, US Environmental Protection AgencySchool of Life Sciences and Technology, China Pharmaceutical UniversityAbstract Background The circadian rhythms regulate physiological functions and metabolism. Circadian Time (CT) is a unit to quantify the rhythm of endogenous circadian clock, independent of light influence. To understand the gene expression changes throughout CT, C57BL/6 J mice were maintained under constant darkness (DD) for 6 weeks, and the liver samples were collected starting at 9:00 AM (CT1), and every 4 h in a 24-h cycle (CT5, CT9, CT13, CT17 and CT21). Total RNA was extracted and subjected to RNA-Seq data (deposited as GSE 133342, L-DD). To compare gene oscillation pattern under normal light-dark condition (LD, GSE114400) and short time (2 days) dark-dark condition (S-DD, GSE70497), these data were retried from GEO database, and the trimmed mean of M-values normalization was used to normalize the three RNA-seq data followed by MetaCycle analysis. Results Approximate 12.1% of the genes under L-DD exhibited significant rhythmically expression. The top 5 biological processes enriched in L-DD oscillation genes were mRNA processing, aromatic compound catabolic process, mitochondrion organization, heterocycle catabolic process and cellular nitrogen compound mitotic catabolic process. The endogenous circadian rhythms of clock genes, P450 genes and lipid metabolism genes under L-DD were further compared with LD and S-DD. The oscillation patterns were similar but the period and amplitude of those oscillation genes were slightly altered. RT-qPCR confirmed the selected RNA sequence findings. Conclusions This is the first study to profile oscillation gene expressions under L-DD. Our data indicate that clock genes, P450 genes and lipid metabolism genes expressed rhythmically under L-DD. Light was not the necessary factor for persisting circadian rhythm but influenced the period and amplitude of oscillation genes.http://link.springer.com/article/10.1186/s12864-020-6639-4Constant darknessCircadian timeRNA sequenceMetaCycleMouse liverRT-qPCR
collection DOAJ
language English
format Article
sources DOAJ
author Huan Li
Shiyao Zhang
Wenxiang Zhang
Siyu Chen
Anjara Rabearivony
Yujie Shi
Jie Liu
Christopher J. Corton
Chang Liu
spellingShingle Huan Li
Shiyao Zhang
Wenxiang Zhang
Siyu Chen
Anjara Rabearivony
Yujie Shi
Jie Liu
Christopher J. Corton
Chang Liu
Endogenous circadian time genes expressions in the liver of mice under constant darkness
BMC Genomics
Constant darkness
Circadian time
RNA sequence
MetaCycle
Mouse liver
RT-qPCR
author_facet Huan Li
Shiyao Zhang
Wenxiang Zhang
Siyu Chen
Anjara Rabearivony
Yujie Shi
Jie Liu
Christopher J. Corton
Chang Liu
author_sort Huan Li
title Endogenous circadian time genes expressions in the liver of mice under constant darkness
title_short Endogenous circadian time genes expressions in the liver of mice under constant darkness
title_full Endogenous circadian time genes expressions in the liver of mice under constant darkness
title_fullStr Endogenous circadian time genes expressions in the liver of mice under constant darkness
title_full_unstemmed Endogenous circadian time genes expressions in the liver of mice under constant darkness
title_sort endogenous circadian time genes expressions in the liver of mice under constant darkness
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2020-03-01
description Abstract Background The circadian rhythms regulate physiological functions and metabolism. Circadian Time (CT) is a unit to quantify the rhythm of endogenous circadian clock, independent of light influence. To understand the gene expression changes throughout CT, C57BL/6 J mice were maintained under constant darkness (DD) for 6 weeks, and the liver samples were collected starting at 9:00 AM (CT1), and every 4 h in a 24-h cycle (CT5, CT9, CT13, CT17 and CT21). Total RNA was extracted and subjected to RNA-Seq data (deposited as GSE 133342, L-DD). To compare gene oscillation pattern under normal light-dark condition (LD, GSE114400) and short time (2 days) dark-dark condition (S-DD, GSE70497), these data were retried from GEO database, and the trimmed mean of M-values normalization was used to normalize the three RNA-seq data followed by MetaCycle analysis. Results Approximate 12.1% of the genes under L-DD exhibited significant rhythmically expression. The top 5 biological processes enriched in L-DD oscillation genes were mRNA processing, aromatic compound catabolic process, mitochondrion organization, heterocycle catabolic process and cellular nitrogen compound mitotic catabolic process. The endogenous circadian rhythms of clock genes, P450 genes and lipid metabolism genes under L-DD were further compared with LD and S-DD. The oscillation patterns were similar but the period and amplitude of those oscillation genes were slightly altered. RT-qPCR confirmed the selected RNA sequence findings. Conclusions This is the first study to profile oscillation gene expressions under L-DD. Our data indicate that clock genes, P450 genes and lipid metabolism genes expressed rhythmically under L-DD. Light was not the necessary factor for persisting circadian rhythm but influenced the period and amplitude of oscillation genes.
topic Constant darkness
Circadian time
RNA sequence
MetaCycle
Mouse liver
RT-qPCR
url http://link.springer.com/article/10.1186/s12864-020-6639-4
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AT jieliu endogenouscircadiantimegenesexpressionsintheliverofmiceunderconstantdarkness
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