Characterization of 5′ Upstream Region and Investigation of TTTTA Deletion in 5′ UTR of Myostatin (MSTN) Gene in Indian Goat Breeds

The 12-bp indel in the SMAD family member 2 gene is associated with goat growth traits

SMAD family member 2 (SMAD2) is a member of the TGFβ signaling pathway and functions as an essential regulator in the processes of development, cell proliferation, and bone formation. A previous observation reported that a 12-bp deletion of this gene affected the litter size in goats. However, according to our knowledge, no study has reported an association between this polymorphism and goat body measurement traits. The purpose of this study was to investigate the association of the insertion/deletion (indel) within the SMAD2 gene with the growth traits of goats. The indel polymorphism was found to be significantly associated with chest width and bust (p < 0.05), while cannon circumference was significantly the strongest compared to other traits (p < 0.01) and individuals with the DD genotypes were more dominant genotypes than other genotypes. In summary, we found evidence that the 12-bp indel within the SMAD2 gene could improve goat body measurement traits, paving the way for marker-assisted selection in the field of goat genetics and breeding.

Screening of InDel variants in PRDM6, myostatin and IGF2BP1 genes and association analysis with body measurement traits in Malabari and Attappadi black goats

An insertion/deletion (InDel) polymorphism study of PR/SET domain family 6 (PRDM6), myostatin (MSTN) and insulin-like growth factor 2 mRNA binding protein 1 (IGF2BP1) genes was conducted in Malabari and Attappady black goats. An association study of identified InDels and body measurement traits was also performed. Body measurements included body length, chest diameter, chest depth, canon circumference, hip width, and hip height at the hip cross. The body trunk index, the body length index, the canon circumference index, and the chest width index were calculated. The Hardy-Weinberg equilibrium (HWE) was tested using a Chi-square test. The observed heterozygosity (Ho), expected heterozygosity (He), and polymorphism information content (PIC) were calculated. A significant difference in body measurements was found across breeds, ages, and breed x age interactions. The PRDM6 InDel was also associated with body measurement traits, such as body height, canon circumference and canon circumference index. In both Malabari and Attappadi black MSTN and PRDM6 InDels were in a state of HWE, while IGF2BP1 InDels were not. Indel markers found in the present study may be used for marker-assisted selection of growth traits among goats.

Novel Polymorphisms in Caprine Myostatin Gene and its Relationship with Growth Traits in Saburai Does (Capra hircus)

<b>Background and Objective:</b> Saburai goat (<i>Capra hircus</i>) is a crossbred goat from Boer buck (75%) and Ettawa doe (25%) for meat production purposes. This study was carried out to detect the mutation points or Single Nucleotide Polymorphisms (SNPs) in the myostatin (<i>MSTN</i>) gene of Saburai with the forward sequencing method. <b>Materials and Methods:</b> A total of twenty-one blood samples of Saburai does (75% Boer, 25% Ettawa) were collected from the Villager Breeder Center (VBC) at Tanggamus Regency of Lampung Province, Indonesia. The DNA analysis consists of DNA isolation, PCR analysis and sequencing analysis. The record data were used for association study with the mathematical model: Y_ij = μ+G_i+Є_ij. <b>Results:</b> Research showed that one common SNP of g.217_218.indel.TTTTA (5'UTR) and three novel SNPs of c.386G>C (exon 1), g.641_642.indel.T (intron 2) and c.4957G>C (exon 3) were detected in the present study. In this study, a novel SNP on exon 1 and intron 2 of Saburai <i>MSTN</i> gene has a moderate PIC value (>0.30). In addition, a novel SNP on exon 1 and exon 3 of the Saburai <i>MSTN</i> gene was detected as a missense mutation of A55P and A43P, respectively. Goats with the heterozygous genotype have higher growth traits compared to goats with the homozygous genotype. <b>Conclusion:</b> The goats with heterozygous genotypes can be further developed to increase the productivity of Saburai goats.

Characterization of Partial Sequence of Myostatin Gene Exon 2 along with SNP detection in Indian Horse Breeds (Equus caballus)

India has well documented horse and pony breeds; however, the population is well diversified in different geographical regions. The Myostatin gene is one of the most profoundly studied genetic components for the detection of SNP's for the performance analysis in horses. In the present study, the MSTN exon 2 partial cds were amplified, sequenced and characterized in about 60 samples of eight different breeds of Indian horses. The results indicated the transition of Thymine to Cytosine (T>C) as SNPs in the partial sequence of exon 2 of the MSTN gene at two different codon positions (T12C, T13C) on chromosome 18. The haplotypes and phylogeny of the MSTN gene in the selected horse population were also analyzed. The overall and singleton haplotype are two different entities, indicating the variation among breeds is unique while the gene is equally distributed throughout the population. The phylogeny suggests that all the breeds are somehow equally distributed in their specific geographical tracts. It is the first study of MSTN gene variations in Indian horse breeds, which provides insight into predicting athletic performance as well as phylogeny. This study provides useful genetic information on Indian horses that can be used to model the racing performances of the breeds.

SNP screening of the MSTN gene and correlation analysis between genetic polymorphisms and growth traits in Dazu black goat

The aim of this study was to detect SNPs in myostatin (MSTN) gene of four goat breeds, and analyze the correlation of these markers on body measurement traits in the Dazu black goat breed. In total, twenty polymorphic sites were found in one hundred forty-eight individuals, and all SNPs were distributed in introns 1 and 2, except g. 425 C > T, which was found in the regulatory region. Three SNPs (g. 2732 C > T, g. 2752 G > A and g. 4552 A > C) were polymorphic in all four breeds. None of the tag SNPs (g. 425 C > T, g. 1583 A > G, 2732 C > T, g. 4552 A > C and g. 5167 C > T) were significantly correlated with body measurement traits (p > 0.05) in the Dazu black goat. However, individuals with genotype combination 3 (GtC 3) of tag SNPs had higher birth weight and weaning weight than individuals with the other genotype combinations (p < 0.05). Moreover, the genotype combination 4 (GtC 4) was significantly associated with body length and height at the age of 2 months (p < 0.05), and genotype combination 13 (GtC 13) was significantly correlated with body height at 6 months (p < 0.05). Briefly, the combined tag SNP markers might be useful for goat marker-associated selective breeding.

A 5-bp mutation within MSTN/GDF8 gene was significantly associated with growth traits in Inner Mongolia White Cashmere goats

Myostatin (MSTN) gene, also known as growth and differentiation factor 8 (GDF8) gene, is a negative regulator of skeletal muscle growth and development, especially the number, size and type of muscle fibers. Its mutations contribute to the double-muscling (DBM) phenomenon which significantly increases the muscle mass. Hence, variations within MSTN/GDF8 gene receive so much attention in several kinds of species such as bovines, poultries, goats, sheep, horses. A 5-base pairs (bp) indel in the 5' untranslated region (5'UTR) of goat MSTN/GDF8 was verified to be significantly associated with growth traits except Inner Mongolia White Cashmere (IMWC) goats. Given that almost all sample sizes were below 150, we enlarged sample sizes to more than 500 to uncover the association between the 5-bp indel and growth traits in IMWC goats. Only two genotypes (deletion/deletion (DD) and insertion/deletion (ID)) were found, and DD genotypes were dominant genotypes. The detected locus displayed low genetic diversity (PIC = 0.090). Interestingly, the association analyses revealed that the 5-bp indel had a significant effect on the chest depth (p = 0.003), and DD genotypes were dominant genotypes. Hinted that the 5-bp indel could act as an effective marker in molecular marker-assisted selection (MAS) processes for selection of excellent goat individuals.

Myostatin (MSTN) Gene Indel Variation and Its Associations with Body Traits in Shaanbei White Cashmere Goat

Myostatin (MSTN) gene, also known as growth differentiation factor 8 (GDF8), is a member of the transforming growth factor-beta super-family and plays a negative role in muscle development. It acts as key points during pre- and post-natal life of amniotes that ultimately determine the overall muscle mass of animals. There are several studies that concentrate on the effect of a 5 bp insertion/deletion (indel) within the 5' untranslated region (5' UTR) of goat MSTN gene in goats. However, almost all sample sizes were below 150 individuals. Only in Boer goats, the sample sizes reached 482. Hence, whether the 5 bp indel was still associated with the growth traits of goats in large sample sizes which were more reliable is not clear. To find an effective and dependable DNA marker for goat rearing, we first enlarged the sample sizes (n = 1074, Shaanbei White Cashmere goat) which would enhance the robustness of the analysis and did the association analyses between the 5 bp indel and growth traits. Results uncovered that the 5 bp indel was significantly related to body height, height at hip cross, and chest width index (p < 0.05). In addition, individuals with DD genotype had a superior growing performance than those with the ID genotype. These findings suggested that the 5 bp indel in MSTN gene are significantly associated with growth traits and the specific genotype might be promising for maker-assisted selection (MAS) of goats.

Myostatin gene promoter: structure, conservation and importance as a target for muscle modulation

Myostatin (MSTN) is one of the key factors regulating myogenesis. Because of its role as a negative regulator of muscle mass deposition, much interest has been given to its protein and, in recent years, several studies have analysed MSTN gene regulation. This review discusses the MSTN gene promoter, focusing on its structure in several animal species, both vertebrate and invertebrate. We report the important binding sites considering their degree of phylogenetic conservation and roles they play in the promoter activity. Finally, we discuss recent studies focusing on MSTN gene regulation via promoter manipulation and the potential applications they have both in medicine and agriculture.