Genetic variants of TORC1 gene promoter and their association with carcass quality and body measurement traits in Qinchuan beef cattle.

In the present study, sequencing of TORC1 prompter region explored three SNPs at loci g.80G>T, g.93A>T, and g.1253G>A. The SNP1 produced GG, GT and TT, SNP2 AA, AT and TT, and SNP3 produced GG, GA and AA genotypes. Allelic and genotypic frequencies analysis exhibited that SNP1 is within Hardy-Weinberg equilibrium (HWE). All three SNPs were found highly polymorphic as PIC value (0.25 < PIC < 0.50). At loci g.80G>T the cattle with genotype GG showed significantly (P <0.01) larger body length (BL), Wither height (WH), Hip height (HH), Rump length (RL), Hip width (HW), Chest depth (CD), and Chest circumference (CC). The genotype AA at g.93A>T showed significantly (P< 0.01 and 0.05) Larger body length (BL), Wither height (WH), Hip height, Rump length (RL), Hip width (HW), Chest depth (CD), and Chest circumference (CC). Interestingly, the carcass quality parameters such as Ultrasound loin area (ULA) and Intramuscular fat percentage (IF%) was highest in genotype GG at loci g.1253G>A. These findings conclude that genotype GG at loci g.80 G>T and AA at loci g.93A>T could be used as genetic markers for body measurement and genotype GG at loci g.1253G>A for carcass quality traits of TORC1 gene in Qinchuan beef cattle.

Transcriptional regulation of adipogenic marker genes for the improvement of intramuscular fat in Qinchuan beef cattle.

The intramuscular fat content plays a crucial role in meat quality traits. Increasing the degree of adipogenesis in beef cattle leads to an increase in the content of intramuscular fat. Adipogenesis a complex biochemical process which is under firm genetic control. Over the last three decades, the Qinchuan beef cattle have been extensively studied for the improvement of meat production and quality traits. In this study, we reviewed the literature regarding adipogenesis and intramuscular fat deposition. Then, we summarized the research conducted on the transcriptional regulation of key adipogenic marker genes, and also reviewed the roles of adipogenic marker genes in adipogenesis of Qinchuan beef cattle. This review will elaborate our understanding regarding transcriptional regulation which is a vital physiological process regulated by a cascade of transcription factors (TFs), key target marker genes, and regulatory proteins. This synergistic action of TFs and target genes ensures the accurate and diverse transmission of the genetic information for the accomplishment of central physiological processes. This information will provide an insight into the transcriptional regulation of the adipogenic marker genes and its role in bovine adipogenesis for the breed improvement programs especially for the trait of intramuscular fat deposition.

Review: Molecular structure and functions of zinc binding metallothionein-1 protein in mammalian body system.

Zinc a major trace element; perform diverse roles in genetics and physiology in almost every vital body system of the mammalian body. Zinc regulates the expression of almost all essential genes responsible for performing pivotal functions in mammal cells through provision of structural integrity to the major transcriptional factors Zn finger Proteins (ZnF) and gene regulation for production of metallothionein protein. Zinc performed at least eight vital functions in living organisms including gene regulation e.g., as a promoter through metal response elements, structural i.e. zinc-finger motifs, catalytic e.g., metalloenzymes, DNA and RNA polymerase, DNA replication, Growth promotion, antioxidant, regulate functions of central nervous system and also act as hepato-protectant and detoxifying agent. Almost all of these vital functions are regulated through metallothionein protein, a cysteine rich Zn binding protein. These functions are basic mechanism for sustaining life. Therefore, this review paper was planned with the objective to highlight the important functions of Zn inside the mammal's body with particular reference to the metallothionein protein. Bioinformatics study performed for estimation of conservation and evolution of this important protein shows its greater conservancies in six important mammalian species.

Bioinformatics Analysis of miR-181a and Its Role in Adipogenesis, Obesity, and Lipid Metabolism Through Review of Literature.

The miRNAs regulate various biological processes in the mammalian body system. The role of miR-181a in the development, progression, and expansion of cancers is well-documented. However, the role of miR-181a in adipogenesis; lipid metabolism; obesity; and obesity-related issues such as diabetes mellitus needs to be explored. Therefore, in the present study, the literature was searched and bioinformatics tools were applied to explore the role of miR-181a in adipogenesis. The list of adipogenic and lipogenic target genes validated through different publications were extracted and compiled. The network and functional analysis of these target genes was performed through in-silico analysis. The mature sequence of miR-181a of different species were extracted from and were found highly conserved among the curated species. Additionally, we also used various bioinformatics tools such as target gene extraction from Targetscan, miRWalk, and miRDB, and the list of the target genes from these different databases was compared, and common target genes were predicted. These common target genes were further subjected to the enrichment score and KEGG pathways analysis. The enrichment score of the vital KEGG pathways of the target genes is the key regulator of adipogenesis, lipogenesis, obesity, and obesity-related syndromes in adipose tissues. Therefore, the information presented in the current review will explore the regulatory roles of miR-181a in fat tissues and its associated functions and manifestations.

Quality of methodology and reporting of Meta-analyses on acupuncture treating ischemic stroke in China / 中国针灸

OBJECTIVE@#To evaluate the quality of methodology and reporting of Meta-analyses on acupuncture treating ischemic stroke in China.@*METHODS@#The domestic literature of systematic reviews (SRs) on acupuncture treating ischemic stroke was retrieved from CBM, VIP, CNKI and WANFANG databases. The quality of methodology and reporting was measured by A Measurement Tool to Assess Systematic Reviews (AMSTAR) and Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA).@*RESULTS@#Seven studies involving 6 papers in Chinese and 1 paper in English were chosen from 402 papers. The deficiencies of methodology mainly contained incomplete retrieval strategy, less attention to the publication bias and the heterogeneity, etc. The shortages of reporting was on retrieval strategy reporting, the studies features and the risk of bias reporting and evidence strength level reporting, etc.@*CONCLUSION@#At present the quality of methodology and reporting of SRs on acupuncture treating ischemic stroke in China has flaws, which needs improvement.