Correlation and regression analysis of FA2H and ELOVL3 functional genes for cashmere fineness with production performance in Liaoning cashmere goat

IF 3.5 Q3 Biochemistry, Genetics and Molecular Biology Journal of Genetic Engineering and Biotechnology Pub Date : 2024-10-19 DOI:10.1016/j.jgeb.2024.100430
Shuaitong Li , Lingchao Kong , Siyi Li, Yining Liu, Yuan Pan, Qingkun Liu, Weihang Hong, Hua Ma, Qingyu Yuan, Ran Duan, Qiying Zhan, Zeying Wang
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Abstract

Liaoning cashmere goat (LCG) is characterized by the highest individual cashmere yield, but its cashmere fineness tends to be coarse. Therefore, our research primarily focuses on reducing cashmere fineness. Through lipidomics screening and identification, we identified the crucial functional genes FA2H and ELOVL3 associated with cashmere fineness. Subsequently, using PCR-seq, we conducted gene typing and SNP analysis on the experimental population DNA, In the FA2H gene, a SNP locus T42443G was detected in LCG buck, with the TT genotype showing advantageous traits in cashmere fineness, meat quality, and body size, while the TG genotype demonstrated advantages in slaughter performance,In LCG doe, the TG genotype shows advantageous traits in cashmere fineness, milk production, and meat quality, while the TT genotype exhibits advantages in slaughter performance, lambing, and body size. In the ELOVL3 gene, a SNP locus C2133A was identified in LCG buck, where the CC genotype was advantageous for cashmere fineness, Only CA genotype was found in slaughter and meat quality. Additionally, and the CA genotype showed superiority in body size. On LCG doe, The CC genotype was the advantageous genotype in terms of cashmere fineness, milk production, slaughter performance, and meat quality. The CA genotype was the advantageous genotype in terms of lambing and body size. The dominant genotypes identified to influence both doe cashmere fineness and slaughter performance were TT and CC. The identified dominant haplotype combination for cashmere production performance in LCG was CCTG. The dominant haplotype combination for doe slaughter performance was the CCTT haplotype combination. The dominant haplotype combination for buck slaughter performance was the CATG haplotype combination. Therefore, the TT genotype of the FA2H gene and the CC genotype of the ELOVL3 gene in LCG buck, and the TG genotype of the FA2H gene and the CC genotype of the ELOVL3 gene in doe can be used as molecular markers for assisted selection of cashmere fineness. CCTG haplotype combination was the superior haplotype combinations for cashmere production performance. To provide a theoretical basis for the breeding and expansion of fine-fiber type new strains of LCG.
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羊绒细度的 FA2H 和 ELOVL3 功能基因与辽宁山羊生产性能的相关性和回归分析
辽宁绒山羊(LCG)的特点是产绒量最高,但羊绒细度较粗。因此,我们的研究主要侧重于降低羊绒细度。通过脂质组学筛选和鉴定,我们确定了与羊绒细度相关的关键功能基因 FA2H 和 ELOVL3。在 FA2H 基因中,我们在 LCG 公鹿中发现了一个 SNP 位点 T42443G,其中 TT 基因型在羊绒细度、肉质和体型方面表现出优势性状,而 TG 基因型则在羊绒细度、肉质和体型方面表现出劣势性状、在 LCG 母鹿中,TG 基因型在羊绒细度、产奶量和肉质方面表现出优势性状,而 TT 基因型则在屠宰性能、产羔率和体型方面表现出优势。在 ELOVL3 基因中,在 LCG 公鹿中发现了一个 SNP 位点 C2133A,其中 CC 基因型在羊绒细度方面具有优势,只有 CA 基因型在屠宰性能和肉质方面具有优势。此外,CA 基因型在体型方面也表现出优势。在 LCG 母鹿上,CC 基因型在羊绒细度、产奶量、屠宰性能和肉质方面都是优势基因型。CA 基因型在产羔率和体型方面是优势基因型。已确定的影响母羊羊绒细度和屠宰性能的显性基因型是 TT 和 CC。LCG 羊绒生产性能的显性单倍型组合为 CCTG。母鹿屠宰性能的显性单倍型组合是 CCTT 单倍型组合。雄鹿屠宰性能的显性单倍型组合是 CATG 单倍型组合。因此,LCG 公鹿中 FA2H 基因的 TT 基因型和 ELOVL3 基因的 CC 基因型,以及母鹿中 FA2H 基因的 TG 基因型和 ELOVL3 基因的 CC 基因型可用作羊绒细度辅助选择的分子标记。CCTG单倍型组合是羊绒生产性能最优良的单倍型组合。为LCG细纤维型新品系的培育和扩繁提供理论依据。
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来源期刊
Journal of Genetic Engineering and Biotechnology
Journal of Genetic Engineering and Biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
5.70
自引率
5.70%
发文量
159
审稿时长
16 weeks
期刊介绍: Journal of genetic engineering and biotechnology is devoted to rapid publication of full-length research papers that leads to significant contribution in advancing knowledge in genetic engineering and biotechnology and provide novel perspectives in this research area. JGEB includes all major themes related to genetic engineering and recombinant DNA. The area of interest of JGEB includes but not restricted to: •Plant genetics •Animal genetics •Bacterial enzymes •Agricultural Biotechnology, •Biochemistry, •Biophysics, •Bioinformatics, •Environmental Biotechnology, •Industrial Biotechnology, •Microbial biotechnology, •Medical Biotechnology, •Bioenergy, Biosafety, •Biosecurity, •Bioethics, •GMOS, •Genomic, •Proteomic JGEB accepts
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