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Identification of Three Novel Splicing Variants and Expression Analysis of Chicken GPR1 Gene.


ABSTRACT: GPR1 is a G protein-coupled receptor that plays critical roles in eukaryotic cells: typically, response to glucose stimulation, lipid accumulation, and transmitting nutrition signals to cAMP pathway. However, the alternative splicing of the GPR1 gene and its expression pattern in chicken tissues and ovarian follicles were unknown. In our current study, we used RACE-PCR to identify three GPR1 variants, including the full-length variant (GPR1-va1) and two alternatively spliced variants (GPR1-va2, GPR1-vb). Quantitative real-time PCR examined the expression pattern of GPR1 mRNA in chicken tissues and ovarian follicles. The result reveals that the coding sequence of the three variants cDNA is 1053, 1053, and 627?bp in length, encoding 350, 350, and 208 amino acids, respectively. The three variants of GPR1 show similar tissue distributions; GPR1 expression was abundant in the abdominal fat, lung, and heart. With the follicular development, the expression of GPR1 gene gradually increased, and GPR1-va1 and GPR1-va2 spliced variants expression in F2 were significantly higher than in F5, F4, and prehierarchical follicles (P < 0.05). Taken together, we found three novel variants of GPR1, and the results of GPR1 expression profiling in adipose tissues and ovarian follicles suggest that GPR1 may play a significant role in the lipid accumulation and progression of follicular development.

SUBMITTER: Zhang X 

PROVIDER: S-EPMC5292125 | biostudies-literature | 2017

REPOSITORIES: biostudies-literature

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Identification of Three Novel Splicing Variants and Expression Analysis of Chicken GPR1 Gene.

Zhang Xueyou X   Xiao Qihai Q   Tian Kai K   Wang Yan Y   Zhao Xiaoling X   Yin Huadong H   Li Diyan D   Zhu Qing Q  

BioMed research international 20170122


<i>GPR1</i> is a G protein-coupled receptor that plays critical roles in eukaryotic cells: typically, response to glucose stimulation, lipid accumulation, and transmitting nutrition signals to cAMP pathway. However, the alternative splicing of the <i>GPR1</i> gene and its expression pattern in chicken tissues and ovarian follicles were unknown. In our current study, we used RACE-PCR to identify three <i>GPR1</i> variants, including the full-length variant (<i>GPR1-va1</i>) and two alternatively  ...[more]

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