Genetic variants in MYF5 affected growth traits and beef quality traits in Chinese Qinchuan cattle

Myogenic factor 5 plays actively roles in the regulation of myogenesis. The aims of this study are to identify the evolution information of MYF5 protein among 10 domestic and mammalian animals, to uncover the expression patterns of MYF5 gene in calves and adults of Qinchuan cattle, and to expose the genetic variants of the MYF5 gene and explore its effect on cattle growth traits and beef quality traits in Qinchuan cattle. The bioinformatics results showed that the MYF5 proteins highly conserved in different mammalian or domestic animals apart from chicken. The expression level of MYF5 gene in the heart, muscle, lung, large intestine and liver was greater than that of other tissues. PCR amplicons sequencing identified four novel SNPs at g.5738A>G, g.5785C>T and g.5816A>G in the 3rd exon region and g.6535A>G in the 3’ UTR. Genotypic frequencies of g.5785C>T was harshly deviated from the HWE (P < .05). Genetic diversity was low or intermediate for the four SNPs and those SNPs were in the weak linkage disequilibrium. Association analysis results indicated g.5785C>T, g.5816A>G and g.6535A>G significant effect on growth performance and beef quality traits of Qinchuan cattle. H1H3 diplotype had greater body size and better beef quality. All the results implicate that the MYF5 gene might be applied as a promising candidate gene in Qinchuan cattle breeding.     

Assignment of the porcine loci for MYOD1 to chromosome 2 and MYF5 to chromosome 5

Porcine-specific polymerase chain reaction (PCR) and a pig–rodent somatic cell hybrid panel were used to map two members of the MyoD gene family. MYOD1 was assigned to pig chromosome 2 and MYF5 to chromosome 5.     

Allelic Variation in the Porcine MYF5 Gene Detected by PCR–SSCP

The MYF5 gene has been reported to be integral to muscle growth and development, and hence it has been considered as a candidate gene for meat selection programs in pig. To ascertain whether there was variation in the porcine MYF5 gene, we have developed a method of PCR–single-strand conformational polymorphism (PCR–SSCP) analysis. In this study, two coding regions of the MYF5 gene were investigated. Four unique SSCP patterns were detected in exon 1 and three patterns were identified in exon 3. Two SNPs detected in exon 1 led to a non-synonymous alanine/proline substitution. A nucleotide change in exon 3 did not affect the amino acid sequence. Five extended haplotypes were observed across the two regions. The variation detected in this study might underpin the development of gene markers for improved muscle growth in pig breeding.     

The human MyoD1 (MYF3) gene maps on the short arm of chromosome 11 but is not associated with the WAGR locus or the region for the Beckwith-Wiedemann syndrome

Summary The human gene encoding the myogenic determination factor myf3 (mouse MyoD1) has been mapped to the short arm of chromosome 11. Analysis of several somatic cell hybrids containing various derivatives with deletions or translocations revealed that the human MyoD (MYF3) gene is not associated with the WAGR locus at chromosomal band 11p13 nor with the loss of the heterozygosity region at 11p15.5 related to the Beckwith-Wiedemann syndrome. Subregional mapping by in situ hybridization with an myf3 specific probe shows that the gene resides at the chromosomal band 11p14, possibly at 11pl4.3.     

Genomic organization of the IGF1, IGF2, MYF5, MYF6 and GRF/PACAP genes across Salmoninae genera

Whole-genome duplication in the ancient ray-finned fish and subsequent tetraploidization in the ancestor to the salmonids have complicated genomic and candidate gene studies in these organisms as many genes with multiple copies are present throughout their genomes. In an attempt to identify genes with a potential influence on growth and development, we investigated the genomic positions of insulin-like growth factors 1 and 2 (IGF1, IGF2), myogenic factors 5 and 6 (MYF5, MYF6) and growth hormone-releasing factor/pituitary adenylate cyclase-activating polypeptide (GRF/PACAP) in three salmonid species: rainbow trout (Oncorhynchus mykiss), Atlantic salmon (Salmo salar) and Arctic charr (Salvelinus alpinus). Our results suggest a tight association between the IGF1, MYF5 and MYF6 genes in all three species. We further localized the duplicated copies of IGF1 to the homeologous linkage groups RT-7/15 in rainbow trout and AC-3/24 in Arctic charr, and the two copies of MYF6 to homeologous linkage groups AS-22/24 in Atlantic salmon. Localization of GRF/PACAP to RT-7, AS-31 and AC-27 and IGF2 to RT-27, AS-2 and AC-4 in rainbow trout, Atlantic salmon and Arctic charr respectively is consistent with previously reported homologies among these chromosomal segments identified using other genetic markers. However, localization of the second copy of GRF/PACAP to RT-19 and AC-14 and the duplicated copy of IGF2 to AC-19 suggest a possible new homology/homeology between these chromosomes. These results might also be an indication of a more ancient polyploidization event that occurred deep in the ray-finned fish lineage.     

Chromosomal assignment of six muscle-specific genes in cattle

Six genes expressed in skeletal or smooth muscle were assigned to bovine chromosomes using rodent, human or bovine cDNA probes. Myogenic determination factor (MYOD1) was 100% concordant with Bos taurus chromosome (BTA) 15, and myogenin (MYOG) was 95% concordant with BTA 16. Smooth muscle caldesmon (CALD1) and the skeletal muscle chloride channel gene (CLCN1) were 100% concordant with BTA 4. Myogenic factor 5 (MYF5) was 90% concordant with BTA 5; this assignment was confirmed by fluorescence in situ hybridization of a bovine genomic MYF5 probe to BTA 5 band 13 and the homologous band on river buffalo 4q. In some metaphases, specific hybridization signals were also observed on BTA 15 band 23, and the equivalent river buffalo homologue, with the MYF5 genomic probe. Because MYOD1 and MYF5 share both nucleotide and functional homology and because MYOD1 was mapped in somatic cell hybrids to BTA 15, we suggest that MYOD1 may be located at BTA 15 band 23. Herculin/myogenic factor 6 (MYF6) was assigned indirectly to BTA 5 by the hybridization of MYF5 and MYF6 probes to the same Hin dIII fragment in bovine genomic DNA. The assignment of MYF6 to BTA 5 is consistent with the tandem arrangement of MYF5 and MYF6 in human, mouse and chicken, where these tightly linked genes are separated by < 6·5 kb of DNA.     

Myogenin is in an evolutionarily conserved linkage group on human chromosome 1q31-q41 and unlinked to other mapped muscle regulatory factor genes

Myogenin is a member of a family of muscle-specific regulatory factors which includes MyoD1, Myf-5, and Myf-6 (also called MRF4 and herculin). Extensive regions of sequence homology in genes for these three factors suggest duplication events associated with their evolution. In the present study, the chromosomal location of the myogenin gene in humans (MYOG), mice (Myog), and Chinese hamsters (MYOG) was determined using in situ hybridization to human metaphase chromosomes as well as segregation analysis among interspecific somatic cell hybrid panels and interspecific backcrossed mice. We localize the gene encoding myogenin to human chromosome 1q31-q41 within a linkage group homologous with a region on mouse chromosome 1 and Chinese hamster chromosome 5. The results verify the nonlinkage of MYOG to MYOD1, MYF5, and MYF6 genes and indicate that events associated with the duplication of MYOG with respect to MYOD1, MYF5, or MYF6 loci were not chromosome-wide.     

五指山猪IGF2基因5′调控区单核苷酸多态性分析

利用PCR产物直接测序法, 对五指山猪、滇南小耳猪、香猪、梅山猪和大白猪共60个样本的IGF2基因5＇调控区部分片段的单核苷酸多态性进行了研究。找到13个SNP, 分别是: C5872T、C5888T、A5976G、C6010T、T6029A、C6037T、C6043T、C6063T、C6112T、C6164T、G13520A、G13563A和G13669A。T6029A为T←→A碱基颠换, A5976G、G13520A、G13563A和G13669A为A←→G转换, 其他均为C←→T转换。针对13个SNP位点得到23种组合基因型。统计各位点等位基因和基因型以及各组合基因型在总群体与各品种内的分布频率, 发现3个小型猪在A5976G、C6164T和G13669A位点上的优势等位基因均分别为G、T和A, 而梅山猪和大白猪的优势等位基因均分别为A、C和G; H19型为3个小型猪的特征组合基因型, 而另两个猪品种为H15型。同时对123头五指山猪IGF2基因C5888T位点进行了PCR-RFLP分析, 研究表明该位点C为优势等位基因(0.8536), CC为优势基因型(0.7235)。卡方检验表明该位点处于Hardy-Weinberg平衡状态。这些结果可为五指山猪等小型猪的生长发育规律、矮小机制等方面的研究提供遗传学依据。     

A WNT/beta-catenin signaling activator, R-spondin, plays positive regulatory roles during skeletal myogenesis

R-spondins (RSPOs) are a recently characterized family of secreted proteins that activate WNT/β-catenin signaling. In this study, we investigated the potential roles of the RSPO proteins during myogenic differentiation. Overexpression of the Rspo1 gene or administration of recombinant RSPO2 protein enhanced mRNA and protein expression of a basic helix-loop-helix (bHLH) class myogenic determination factor, MYF5, in both C2C12 myoblasts and primary satellite cells, whereas MYOD or PAX7 expression was not affected. RSPOs also promoted myogenic differentiation and induced hypertrophic myotube formation in C2C12 cells. In addition, Rspo2 and Rspo3 gene knockdown by RNA interference significantly compromised MYF5 expression, myogenic differentiation, and myotube formation. Furthermore, Myf5 expression was reduced in the developing limbs of mouse embryos lacking the Rspo2 gene. Finally, we demonstrated that blocking of WNT/β-catenin signaling by DKK1 or a dominant-negative form of TCF4 reversed MYF5 expression, myogenic differentiation, and hypertrophic myotube formation induced by RSPO2, indicating that RSPO2 exerts its activity through the WNT/β-catenin signaling pathway. Our results provide strong evidence that RSPOs are key positive regulators of skeletal myogenesis acting through the WNT/β-catenin signaling pathway.     

Association study of interleukin-4 polymorphisms with paranoid schizophrenia in the Polish population: a critical approach

Changes in immunological system are one of dysfunctions reported in schizophrenia. Some changes based on an imbalance between Th1 and Th2 cytokines results from cytokine gene polymorphisms. Interleukin-4 gene (IL4) is considered as a potential candidate gene in schizophrenia association studies. The aim of the current case-control study was to examine whether the -590C/T (rs2243250) and -33C/T (rs2070874) IL4 gene polymorphisms are implicated in paranoid schizophrenia development in the Polish population. Genotyping of polymorphisms was performed by using PCR-RFLP technique. The genotypes and alleles distribution of both SNPs were analysed in patients (n = 182) and healthy individuals constituted the control group (n = 215). The connection between some clinical variables and studied polymorphisms has been examined as well. We did not revealed any association between the -590C/T and -33C/T polymorphisms and paranoid schizophrenia. In case of both SNPs the homozygous TT genotype was extremely rare. Both polymorphic sites of the IL4 gene were found to be in a very strong linkage disequilibrium. However we did not identify a haplotype predispose to paranoid schizophrenia. No associations were also observed between the clinical course and psychopathology of the disease and the genotypes of both analysed polymorphisms. Our results suggest that the polymorphisms -590C/T in IL4 gene promoter region and -33C/T in the 5'-UTR are not involved in the pathophysiology of paranoid schizophrenia in Polish residents.     

Activation of fgf4 gene expression in the myotomes is regulated by myogenic bHLH factors and by sonic hedgehog

The Fgf4 gene encodes an important signaling molecule which is expressed in specific developmental stages, including the inner cell mass of the blastocyst, the myotomes, and the limb bud apical ectodermal ridge (AER). Using a transgenic approach, we previously identified overlapping but distinct enhancer elements in the Fgf4 3' untranslated region necessary and sufficient for myotome and AER expression. Here we have investigated the hypothesis that Fgf4 is a target of myogenic bHLH factors. We show by mutational analysis that a conserved E box located in the Fgf4 myotome enhancer is required for Fgf4-lacZ expression in the myotomes. A DNA probe containing the E box binds MYF5, MYOD, and bHLH-like activities from nuclear extracts of differentiating C2-7 myoblast cells, and both MYF5 and MYOD can activate gene expression of reporter plasmids containing the E-box element. Analyses of Myf5 and MyoD knockout mice harboring Fgf4-lacZ transgenes show that Myf5 is required for Fgf4 expression in the myotomes, while MyoD is not, but MyoD can sustain Fgf4 expression in the ventral myotomes in the absence of Myf5. Sonic hedgehog (Shh) signaling has been shown to have an essential inductive function in the expression of Myf5 and MyoD in the epaxial myotomes, but not in the hypaxial myotomes. We show here that expression of an Fgf4-lacZ transgene in Shh-/- embryos is suppressed not only in the epaxial but also in the hypaxial myotomes, while it is maintained in the AER. This suggests that Shh mediates Fgf4 activation in the myotomes through mechanisms independent of its role in the activation of myogenic factors. Thus, a cascade of events, involving Shh and bHLH factors, is responsible for activating Fgf4 expression in the myotomes in a spatial- and temporal-specific manner.     

鸡apoA5基因单核苷酸多态性及其与屠体性状的关联研究

以丝羽乌骨鸡和隐性白洛克正反交产生的F2代为实验群体, 采用PCR-SSCP和DNA测序的方法检测鸡载脂蛋白A5(apoA5)基因的单核苷酸多态性(SNPs), 并将所发现的SNPs与体重、胸肌重、腿肌重、心脏重、肝脏重和腹脂重等屠体性状进行关联分析。结果发现, 鸡apoA5基因5′-调控区C-169T, 外显子2 C600T、T635C, 外显子3 C841G、C914T、C1142G、C1394T共7个突变位点。其中外显子2突变位点C600T、T635C对12周龄腹脂重、腹脂率、肝脏重和心脏重有显著影响(P<0.05), 根据PCR-SSCP的结果将其分为6种基因型(AA, AB, AC, BB, BC, CC): 其中CC型个体的腹脂重和腹脂率显著高于AA型、AB型、AC型、BB型、BC型 (P<0.05); AC型个体的肝脏重显著低于AA型、AB型、BB型、BC型和CC型的肝脏重(P<0.05); BC型个体的心脏重显著低于BB型的心脏重(P<0.05)。