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Literature DB >> 24468663

Mutations in calpastatin and μ-calpain are associated with meat tenderness, flavor and juiciness in Hanwoo (Korean cattle): molecular modeling of the effects of substitutions in the calpastatin/μ-calpain complex.

Seung-Hwan Lee¹, Seung-Chang Kim², Han-Ha Chai², Soo-Hyun Cho³, Hyeong-Cheol Kim⁴, Dajeong Lim², Bong-Hwan Choi², Chang-Gwan Dang⁴, Aditi Sharma⁴, Cedric Gondro⁵, Boh-Suk Yang⁴, Seong-Koo Hong⁶.

Abstract

The objective of this study was to evaluate the effects of seven single nucleotide polymorphisms (SNPs) in Calpain 1 and Calpastatin genes previously associated with meat tenderness attributes in other cattle breeds in Korean Hanwoo cattle. The Hanwoo resource population was used to study association of 7 SNPs with beef tenderness, flavor, juiciness, intramuscular fat and shear force. In this association study, CAST:c.182A>G (+0.14, P=0.04) and CAST:c.1985G>C (-0.12, P=0.02) had significant effects on juiciness, but no effects on other traits. In contrast, CAPN1:c.1589G>A was associated with meat tenderness (P=0.01) and juiciness (P=0.04). The CAPN1:c.1589G>A (Val530Ile) SNP marker displayed significant effect on the meat tenderness score which is strongly supported by molecular modeling of the CAPN1:c.1589G>A (Val530Ile) variant that inhibits CAST protein from binding more strongly than the wild-type protein, which may explain its effect on meat tenderness.

Entities: Gene Mutation Species

Keywords: CAPN1; CAST; Hanwoo; Intramuscular fat; Shear force; Tenderness

Mesh：

Substances：

Year: 2013 PMID： 24468663 DOI： 10.1016/j.meatsci.2013.11.026

Source DB: PubMed Journal: Meat Sci ISSN： 0309-1740 Impact factor: 5.209

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Cited

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6. Sustained Effects of Muscle Calpain System Genotypes on Tenderness Phenotypes of South African Beef Bulls during Ageing up to 20 Days.

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