Extraction of Oleic Acid from Animals Oil and Its Anti-inflammatory Effect on Network Pharmacology

The purpose of this paper is to explore the possible mechanisms of anti-inflammatory and scar repair by Mongolian horse oil. We used TCM database and literature mining to collect active compounds of horse oil and used Swiss TargetPrediction and SuperPred server to find targets of compounds. Anti-inflammatory drug targets were collected through the CTD database. Go annotation of targets and KEGG pathway were enriched and analyzed through Metascape database platform. Molecular docking between active ingredients and targets was verified by AutoDock software. Metascape analysis revealed that the key candidate targets were significantly enriched in a number of pathways associated with inflammatory pathology. The results of molecular docking showed that oleic acid, a major component of animals oil, could influence the regulatory functions of TNF, NGF, IL6, IL1B, Jun, and CDK1. This suggests that animals oil can regulate the development of inflammation through its active ingredient, oleic acid, and can influence the expression of multiple signaling pathways, with theoretical endogenous interactions with TNF, NGF, IL6, IL1B, JUN, and CDK1 proteins.

Traces of Late Bronze and Early Iron Age Mongolian Horse Mitochondrial Lineages in Modern Populations

The Mongolian horse is one of the most ancient and relatively unmanaged horse breeds. The population history of the Mongolian horse remains poorly understood due to a lack of information on ancient and modern DNA. Here, we report nearly complete mitochondrial genome data obtained from five ancient Mongolian horse samples of the Khereksur and Deer Stone culture (late 2nd to 1st third of the 1st millennium BC) and one ancient horse specimen from the Xiongnu culture (1st century BC to 1st century AD) using target enrichment and high-throughput sequencing methods. Phylogenetic analysis involving ancient, historical, and modern mitogenomes of horses from Mongolia and other regions showed the presence of three mitochondrial haplogroups in the ancient Mongolian horse populations studied here and similar haplotype composition of ancient and modern horse populations of Mongolia. Our results revealed genetic continuity between the Mongolian horse populations of the Khereksur and Deer Stone culture and those of the Xiongnu culture owing to the presence of related mitotypes. Besides, we report close phylogenetic relationships between haplotypes of the Khereksur and Deer Stone horses and the horses of indigenous breeds of the Middle East (Caspian and Iranian), China (Naqu, Yunnan, and Jinjiang), and Italy (Giara) as well as genetic similarity between the Xiongnu Mongolian horses and those of the most ancient breeds of the Middle East (Arabian) and Central Asia (Akhal-Teke). Despite all the migrations of the Mongolian peoples over the past 3000 years, mitochondrial haplogroup composition of Mongolian horse populations remains almost unchanged.

Hair follicle regional specificity in different parts of bay Mongolian horse by histology and transcriptional profiling

Background Different morphological structures of hairs having properties like defense and camouflage help animals survive in the wild environment. Horse is one of the rare kinds of animals with complex hair phenotypes in one individual; however, knowledge of horse hair follicle is limited in literature and their molecular basis remains unclear. Therefore, the investigation of horse hair follicle morphogenesis and pigmentogenesis attracts considerable interest. Result Histological studies revealed the morphology and pigment synthesis of hair follicles are different in between four different parts (mane, dorsal part, tail, and fetlock) of the bay Mongolian horse. Hair follicle size, density, and cycle are strongly associated with the activity of alkaline phosphatase (ALP). We observed a great difference in gene expression between the mane, tail, and fetlock, which had a greater different gene expression pattern compared with the dorsal part through transcriptomics. The development of the hair follicle in all four parts was related to angiogenesis, stem cells, Wnt, and IGF signaling pathways. Pigmentogenesis-related pathways were involved in their hair follicle pigment synthesis. Conclusions Hair follicle morphology and the activity of ALP differ among four body parts in bay Mongolian horse. Hair follicles of the different body parts of the are not synchronized in their cycle stages. GO terms show a regional specificity pattern between different skin parts of the bay Mongolian horse. These results provide an insight into the understanding of the biological mechanism of the hair follicle in other mammals.

Pathways involved in pony body size development

Background: The mechanism of body growth in mammal s is poorly understood. Here, we report the regulat ory networks involv ed in body growth through analyzing transcriptomes of pituitary and epiphyseal tissues of Debao pon ies and Mongolian horse s at juvenile and adult stages . Results: We found that Growth hornome receptor ( GHR ) was expressed little in long bones though Growth hornome ( GH ) w as highly expressed in Debao pon ies compared with Mongolian horses. Moreover, m -RAS and ATF3 , involved in the GHR pathway , were found to be significant ly downreg ulated in juvenile pon ies , which slowed the proliferation of bone osteocytes. However, WNT2 and PLCβ2 were obviously upregulated in juvenile Debao ponies, which led to premature mineralization of bone extracellular matrix. Furthermore, we found that the WNT/Ca 2+ pathway may be responsible for the regulation of body growth . W e then demonstrated that GHR was lack ing in long bone s of Debao ponies using RT-qPCR and Western blot. Treatment with WNT antagonist 1 decrease d expression of the WNT pathway (P ≤ 0.05) in vitro. The transduction of ATDC5 cells with GHR-RNAi lentivirus decrease d expression of the GHR pathway (P ≤ 0.05). Additionally, detection of plasma hormone concentration s showed that the pon ies had higher levels of IGF-1 as juvenile s and GH in adulthood than Mongolian horse s , indicating that the hormone regulation in Debao pon ies differ s from that in Mongolian horse s . Conclusion: Our work provides an insight into the genetic regulation for dwarf growth in mammals and a reference for therapeutic strategy for dwarfism.

Transcriptome profiling of developing testes and spermatogenesis in the Mongolian horse

Background: Horse testis development and spermatogenesis are complex physiological processes. Methods: To study these processes, three immature and three mature testes were collected from the Mongolian horse, and six libraries were established using high-throughput RNA sequencing technology (RNA-Seq) to screen for genes related to testis development and spermatogenesis. Results: A total of 16,237 upregulated genes and 8,641 downregulated genes were detected in the testis of the Mongolian horse. These genes play important roles in different developmental stages of spermatogenesis and testicular development. Five genes with alternative splicing events that may influence spermatogenesis and development of the testis were detected. GO (Gene ontology) and KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway analyses were performed for functional annotation of the differentially expressed genes. Pathways related to “spermatogenesis,” male gamete generation,” “spermatid development” and “oocyte meiosis” were significantly involved in different stages of testis development and spermatogenesis. Conclusion: Genes, pathways and alternative splicing events were identified with inferred functions in the process of spermatogenesis in the Mongolian horse. The identification of these differentially expressed genetic signatures improves our understanding of horse testis development and spermatogenesis.

Transcriptome profiling of developing testes and spermatogenesis in the Mongolian horse

Background: Horse testis development and spermatogenesis are complex physiological processes. Methods: To study these processes, three immature and three mature testes were collected from the Mongolian horse, and six libraries were established using high-throughput RNA sequencing technology (RNA-Seq) to screen for genes related to testis development and spermatogenesis. Results: A total of 16,237 upregulated genes and 8,641 downregulated genes were detected in the testis of the Mongolian horse. These genes play important roles in different developmental stages of spermatogenesis and testicular development. Five genes with alternative splicing events that may influence spermatogenesis and development of the testis were detected. GO (Gene ontology) and KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway analyses were performed for functional annotation of the differentially expressed genes. Pathways related to “spermatogenesis,” male gamete generation,” “spermatid development” and “oocyte meiosis” were significantly involved in different stages of testis development and spermatogenesis. Conclusion: Genes, pathways and alternative splicing events were identified with inferred functions in the process of spermatogenesis in the Mongolian horse. The identification of these differentially expressed genetic signatures improves our understanding of horse testis development and spermatogenesis.

Transcriptome profiling of developing testes and spermatogenesis in the Mongolian horse

Background: Horse testis development and spermatogenesis are complex physiological processes. Methods: To study these processes, three immature and three mature testes were collected from the Mongolian horse, and six libraries were established using high-throughput RNA sequencing technology (RNA-Seq) to screen for genes related to testis development and spermatogenesis. Results: A total of 16,237 upregulated genes and 8,641 downregulated genes were detected in the testis of the Mongolian horse. These genes play important roles in different developmental stages of spermatogenesis and testicular development. Five genes with alternative splicing events that may influence spermatogenesis and development of the testis were detected. GO (Gene ontology) and KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway analyses were performed for functional annotation of the differentially expressed genes. Pathways related to “spermatogenesis,” male gamete generation,” “spermatid development” and “oocyte meiosis” were significantly involved in different stages of testis development and spermatogenesis. Conclusion: Genes, pathways and alternative splicing events were identified with inferred functions in the process of spermatogenesis in the Mongolian horse. The identification of these differentially expressed genetic signatures improves our understanding of horse testis development and spermatogenesis.

Analysis of the miRNA transcriptome during testicular development and spermatogenesis of the Mongolian horse

Numerous studies have shown that microRNAs (miRNAs) are essential for testicular development and spermatogenesis. In order to further characterise these physiological processes, three immature and three mature testes of the Mongolian horse were collected and six libraries were established. Using small RNA sequencing technology, 531 mature miRNAs were identified, including 46 novel miRNAs without previously ascribed functions. Among the 531 miRNAs, 421 were expressed in both immature and mature libraries, 65 miRNAs were found solely in immature testis libraries and 45 miRNAs were found solely in mature testis libraries. Furthermore, among the miRNAs that were identified in both immature and mature libraries, 107 were significantly differentially expressed (corrected P value (padj)<0.05). Among the miRNAs that were only expressed in immature testes, two miRNAs were differentially expressed, whereas among the miRNAs that were only expressed in mature testes, nine miRNAs were differentially expressed. Comprehensive analysis of miRNA and mRNA expression profiles predicted 107 miRNA–mRNA interaction sites. Gene ontology (GO) and Kyoto Encyclopaedia of Genes and Genomes (KEGG) pathway analysis of the predicted target genes suggested roles of the differentially expressed miRNAs in testicular development and spermatogenesis. These findings identify miRNAs as key factors in the development of the testes and spermatogenesis in the Mongolian horse, which may also help us to understand the mechanisms of fertility in related mammalian species.

Genetic diversity analyse in Mongolian horse populations using ISSR- DNA markers

Genetic diversity of Mongolian horse populations from different geographical areas were studied using genetic polymorphism of the ACC- and GAG-ISSR- DNA marker types. In the horse breed Mongolian were distributed 14 fragments, in Darkhad horse 15 fragments, in horse populations Shil 21 fragments, Tes 23 fragments and in Galshar horse population 29 fragments of ACC-ISSR marker and in Mongolian horse 12 fragments, in Darkhad horse 14 fragments, Shil horse 14 fragments, Galshar horse 24 fragments and in horse population Tes 18 fragments of GAG-ISSR marker. Монгол адууны генетик олон янз байдлыг ДНХ-маркер ашиглан үнэлэх судалгаа Монгол болон Галшар үүлдэр, Тэс, Дархад омгийн болон Шил адууны популяцийн генетик олон янз байдлыг мултилокусын ДНХ-ийн ACC- ба GAG-ISSR маркерын полиморфизмоор төлөөлүүлэн судлав. Монгол үүлдрийн адуунд AСС-ISSR-DNA маркерын 14 фрагмент, Дархад омгийн адуунд 15 фрагмент, Шил адуунд 21 фрагмент, Тэс омгийн адуунд 23 фрагмент ба Галшар үүлдрийн адуунд 29 фрагмент байв. Полиморф фрагментын хувь нь хамгийн их буюу 91,3% Тэс адууны популяцид, хамгийн бага буюу 46,7% Дархад омгийн адууны популяцид байгааг тогтоов. GAG-ISSR-DNA маркерын 12 фрагмент Монгол үүлдрийн адуунд, Дархад омгийн адуунд 14 фрагмент, Шил адуунд 14 фрагмент, Тэс омгийн адуунд 18 фрагмент ба Галшар үүлдрийн адуунд 24 фрагмент байв. Полиморф фрагментын хувь нь хамгийн их буюу 64,2% Шил адууны популяцид, хамгийн бага буюу 25% Монгол үүлдрийн адууны популяцид байгааг тогтоов. Тэс адуу нь Монгол, Галшар үүлдэр, Дархад ба Шил адууны популяциас сүргийн генетик тогтоцоороо нилээд холдсон байгаа нь ажиглагдав. Түлхүүр үг: Монгол адуу, генетик олон янз байдал, ДНХ-ISSR маркерын полиморфизм