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6. Coloration in Equine: Overview of Candidate Genes Associated with Coat Color Phenotypes.

Author

Liu, Xiaotong, Peng, Yongdong, Zhang, Xinhao, Wang, Xinrui, Chen, Wenting, Kou, Xiyan, Liang, Huili, Ren, Wei, Khan, Muhammad Zahoor, and Wang, Changfa

Subjects
*DONKEYS, *PHENOTYPES, *ANIMAL coloration, *COLOR variation (Biology), *ANIMAL diseases, *ANIMAL breeders, *ANIMAL health
Abstract

Simple Summary: Color and body size traits are considered the key parameters influence the economic value of animals. In recent years, advancement in the genetic basis of coat colors in equines has received considerable attention among animal breeders. In addition, coat color plays a significant role in breed identification and selection, as well as animal health and disease. The current review concisely provides information on the role of melanin pigments and key candidate genes associated with coat color phenotypes in equines. Furthermore, the review also highlights the importance of coat color in equine breeding and health. Variation in coat color among equids has attracted significant interest in genetics and breeding research. The range of colors is primarily determined by the type, concentration, and distribution of melanin pigments, with the balance between eumelanin and pheomelanin influenced by numerous genetic factors. Advances in genomic and sequencing technologies have enabled the identification of several candidate genes that influence coat color, thereby clarifying the genetic basis of these diverse phenotypes. In this review, we concisely categorize coat coloration in horses and donkeys, focusing on the biosynthesis and types of melanin involved in pigmentation. Moreover, we highlight the regulatory roles of some key candidate genes, such as MC1R, TYR, MITF, ASIP, and KIT, in coat color variation. Moreover, the review explores how coat color relates to selective breeding and specific equine diseases, offering valuable insights for developing breeding strategies that enhance both the esthetic and health aspects of equine species. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Elucidating the Role of Transcriptomic Networks and DNA Methylation in Collagen Deposition of Dezhou Donkey Skin.

Author

Wang, Xinrui, Ren, Wei, Peng, Yongdong, Khan, Muhammad Zahoor, Liang, Huili, Zhang, Yigang, Liu, Xiaotong, Chen, Yinghui, Kou, Xiyan, Wang, Liyuan, Wang, Changfa, and Zhan, Yandong

Subjects
DNA methylation, COLLAGEN, DONKEYS, MOLECULAR biology, WHOLE genome sequencing, GENE expression profiling
Abstract

Simple Summary: This study investigates the impact of DNA methylation on collagen deposition in the skin of Dezhou donkeys, a breed valued for its thick, flexible skin with medicinal properties. Utilizing whole genome bisulfite sequencing (WGBS) and RNA sequencing (RNA-seq), the research analyzes the epigenetic landscape and gene expression profiles across three developmental stages of Dezhou donkeys. The study identifies numerous differentially methylated genes related to collagen deposition, such as COL1A1, COL1A2, and MMPs, highlighting an inverse relationship between gene expression and DNA methylation near transcription start sites. The findings of our study reveal the significant regulatory role of DNA methylation in skin collagen deposition, offering insights for genetic improvement and selective breeding to enhance skin quality in Dezhou donkeys. Our current research adds to the foundational knowledge of collagen deposition mechanisms, contributing to the fields of molecular biology and animal husbandry. DNA methylation represents a predominant epigenetic modification with broad implications in various biological functions. Its role is particularly significant in the process of collagen deposition, a fundamental aspect of dermal development in donkeys. Despite its critical involvement, the mechanistic insights into how DNA methylation influences collagen deposition in donkey skin remain limited. In this study, we employed whole genome bisulfite sequencing (WGBS) and RNA sequencing (RNA-seq) to investigate the epigenetic landscape and gene expression profiles in the dorsal skin tissues of Dezhou donkeys across three developmental stages: embryonic (YD), juvenile (2-year-old, MD), and mature (8-year-old, OD). Our analysis identified numerous differentially methylated genes that play pivotal roles in skin collagen deposition and overall skin maturation, including but not limited to COL1A1, COL1A2, COL3A1, COL4A1, COL4A2, GLUL, SFRP2, FOSL1, SERPINE1, MMP1, MMP2, MMP9, and MMP13. Notably, we observed an inverse relationship between gene expression and DNA methylation proximal to transcription start sites (TSSs), whereas a direct correlation was detected in regions close to transcription termination sites (TTSs). Detailed bisulfite sequencing analyses of the COL1A1 promoter region revealed a low methylation status during the embryonic stage, correlating with elevated transcriptional activity and gene expression levels. Collectively, our findings elucidate key genetic markers associated with collagen deposition in the skin of Dezhou donkeys, underscoring the significant regulatory role of DNA methylation. This research work contributes to the foundational knowledge necessary for the genetic improvement and selective breeding of Dezhou donkeys, aiming to enhance skin quality attributes. [ABSTRACT FROM AUTHOR]

Published
2024
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12. On the Stiffness and Damping Characteristics of Line Contacts under Transient Elastohydrodynamic Lubrication.

Author

Fang, Congcong, Zhu, Anyuan, Zhou, Wei, Peng, Yongdong, and Meng, Xianghui

Subjects
ELASTOHYDRODYNAMIC lubrication, SLIDING friction, ELASTIC modulus
Abstract

The elastohydrodynamic lubrication (EHL) oil film between contact interfaces acts as a spring or damper to reduce wear and vibration for frictional pairs. To analyze the dynamic behaviors of friction pairs in mechanical systems both effectively and accurately, the stiffness and damping parameters under EHL contact states are essential. The presented work develops a numerical model to investigate the EHL stiffness and damping characteristics based on the transient EHL system and elastic contact theory of line contact, in which the stiffness force is separated according to the relationship with approach distance of the contact body established in the steady process, and then the damping can be obtained. The results show that the stiffness force plays an increasingly important role over the applied load conditions while the damping effects is gradually weakened. EHL stiffness is obviously smaller than dry contact stiffness, but the discrepancy is decreasing with the increasing load. Moreover, the higher entrainment velocity, lubricant viscosity and larger curvature radii leads to smaller stiffness and damping. The elastic modulus generates little effect on dynamic characteristics when the load is light while dominates the maximum level of the contact stiffness. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Chromosome‐level genome assembly of the Arctic fox (Vulpes lagopus) using PacBio sequencing and Hi‐C technology.

Author

Peng, Yongdong, Li, Hong, Liu, Zhengzhu, Zhang, Chuansheng, Li, Keqiang, Gong, Yuanfang, Geng, Liying, Su, Jingjing, Guan, Xuemin, Liu, Lei, Zhou, Ruihong, Zhao, Ziya, Guo, Jianxu, Liang, Qiqi, and Li, Xianglong

Subjects
*ARCTIC fox, *GENETIC variation, *CHROMOSOME structure, *GENE families, *CLIMATE extremes, *GENOMES, *NUCLEOTIDE sequencing
Abstract

The Arctic fox (Vulpes lagopus) is the only fox species occurring in the Arctic and has adapted to its extreme climatic conditions. Currently, the molecular basis of its adaptation to the extreme climate has not been characterized. Here, we applied PacBio sequencing and chromosome structure capture technique to assemble the first V. lagopus genome assembly, which is assembled into chromosome fragments. The genome assembly has a total length of 2.345 Gb with a contig N50 of 31.848 Mb and a scaffold N50 of 131.537 Mb, consisting of 25 pseudochromosomal scaffolds. The V. lagopus genome had approximately 32.33% repeat sequences. In total, 21,278 protein‐coding genes were predicted, of which 99.14% were functionally annotated. Compared with 12 other mammals, V. lagopus was most closely related to V. Vulpes with an estimated divergence time of ~7.1 Ma. The expanded gene families and positively selected genes potentially play roles in the adaptation of V. lagopus to Arctic extreme environment. This high‐quality assembled genome will not only promote future studies of genetic diversity and evolution in foxes and other canids but also provide important resources for conservation of Arctic species. [ABSTRACT FROM AUTHOR]

Published
2021
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14. Genome-wide differential expression of long noncoding RNAs and mRNAs in ovarian follicles of two different chicken breeds.

Author

Peng, Yongdong, Chang, Li, Wang, Yaqi, Wang, Ruining, Hu, Lulu, Zhao, Ziya, Geng, Liying, Liu, Zhengzhu, Gong, Yuanfang, Li, Jingshi, Li, Xianglong, and Zhang, Chuansheng

Subjects
*POULTRY breeding, *NON-coding RNA, *OVARIAN follicle, *CELL cycle, *LINCRNA, *GENE targeting, *CHICKENS
Abstract

Bashang long-tail chickens are an indigenous breed with dual purpose in China (meat and eggs) but have low egg laying performance. To improve the low egg laying performance, a genome-wide analysis of mRNAs and long noncoding RNAs (lncRNAs) from Bashang long-tail chickens and Hy-Line brown layers was performed. A total of 16,354 mRNAs and 8691 lncRNAs were obtained from ovarian follicles. Between the breeds, 160 mRNAs and 550 lncRNAs were found to be significantly differentially expressed. Integrated network analysis suggested some differentially expressed genes were involved in ovarian follicular development through oocyte meiosis, progesterone-mediated oocyte maturation, and cell cycle. The impact of lncRNAs on cis and trans target genes, indicating some lncRNAs may play important roles in ovarian follicular development. The current results provided a catalog of chicken ovarian follicular lncRNAs and genes for further study to understand their roles in regulation of egg laying performance. • A genome-wide analysis of lncRNAs and mRNAs in chicken ovarian follicles was performed. [ABSTRACT FROM AUTHOR]

Published
2019
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15. Exploring differentially expressed genes associated with coat color in goat skin using RNA-seq.

Author

Peng, Yongdong, Wang, Yaqi, Wang, Ruining, Geng, Liying, Ma, Ruxue, Zhang, Chuansheng, Liu, Zhengzhu, Gong, Yuanfang, Li, Jingshi, and Li, Xianglong

Subjects
TRP channels, ANIMAL coloration, HUMAN skin color, MICROPHTHALMIA-associated transcription factor, MELANOCORTIN receptors, GOATS
Abstract

Copyright of Canadian Journal of Animal Science is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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16. MicroRNA-215 impairs adipocyte differentiation and co-represses FNDC3B and CTNNBIP1.

Author

Peng, Yongdong, Li, Huanan, Li, Xianglong, Yu, Shulong, Xiang, Hong, Peng, Jian, and Jiang, Siwen

Subjects
*FAT cells, *CELL differentiation, *MICRORNA, *ADIPOGENESIS, *CATENINS, *FIBRONECTINS
Abstract

MicroRNAs (miRNAs) are small ∼22 nucleotide regulatory RNAs that regulate the stability and translation of cognate mRNAs. MiRNAs participate in the regulation of adipogenesis, and identification of the full repertoire of miRNAs expressed in adipose tisse is likely to improve our understanding of adipose tissue growth and development significantly. In the present study, miR-215-5p was found to inhibit adipocyte differentiation of 3T3-L1 cells. Moreover, fibronectin type III domain containing 3B ( FNDC3B ) and catenin, beta interacting protein 1 ( CTNNBIP1 ) were found to be direct targets of miR-215-5p. Further studies in mouse 3T3-L1 cell-line suggests that miR-215-5p is a negative regulator of adipocyte differentiation through post-transcriptional regulation of FNDC3B and CTNNBIP1 during early adipogenesis. [ABSTRACT FROM AUTHOR]

Published
2016
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17. MiR-224 impairs adipocyte early differentiation and regulates fatty acid metabolism.

Author

Peng, Yongdong, Xiang, Hong, Chen, Chen, Zheng, Rong, Chai, Jin, Peng, Jian, and Jiang, Siwen

Subjects
*MICRORNA, *FAT cells, *DIETARY fats, *NUCLEOTIDE sequence, *GENETIC regulation, *ADIPOGENESIS, *ADIPOSE tissues, *GENETIC transcription
Abstract

Abstract: MicroRNAs (miRNAs) are small ∼22 nucleotide regulatory RNAs that regulate the stability and translation of cognate messenger RNAs (mRNAs). MicroRNAs participate in the regulation of adipogenesis and identification of the full repertoire of MicroRNAs expressed in adipose tissue is likely to improve our understanding of adipose tissue growth and development significantly. In the present study, it is found that miR-224-5p abundance decreases first and then increases during adipogenesis of 3T3-L1 cells. And early growth response 2 (EGR2) and Acyl-CoA synthetase long-chain family member 4 (ACSL4) are direct targets of miR-224-5p. Further studies in mouse 3T3-L1 cell-line shows that miR-224-5p is a novel negative regulator of adipocyte differentiation through post-transcriptional regulation of early growth response 2 during early adipogenesis. Furthermore, miR-224-5p could regulate fatty acid metabolism through Acyl-CoA synthetase long-chain family member 4 at terminal differentiation. It indicates that miR-224 plays different roles on different stages of adipogenesis. [Copyright &y& Elsevier]

Published
2013
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19. STAT5a promotes the transcription of mature mmu-miR-135a in 3T3-L1 cells by binding to both miR-135a-1 and miR-135a-2 promoter elements.

Author

Wei, Xiajie, Cheng, Xiaoyan, Peng, Yongdong, Zheng, Rong, Chai, Jin, and Jiang, Siwen

Subjects
*STAT proteins, *MICRORNA, *PROMOTERS (Genetics), *GENETIC transcription regulation, *CELL differentiation, *FAT cells
Abstract

Despite extensive research on the role of miR-135a in biological processes, very little attention has been paid to the regulation of its transcription. We have previously reported that miR-135a suppresses 3T3-L1 preadipocyte differentiation and adipogenesis by directly targeting the adenomatous polyposis coli ( APC ) gene and activating the canonical Wnt/β-catenin signaling pathway, but the regulatory elements that regulate the expression of the two isoforms of miR-135a (miR-135a-1 and miR-135a-2) remain poorly understood. Here, by using deletion analysis, we predicted two binding sites (−874/−856 and −2020/−2002) for the transcription factor Signal Transducers and Activators of Transcription 5a (STAT5a) within the core promoters of miR-135a-1 and miR-135a-2 (−1128/−556 and −2264/−1773), and the subsequent site-directed mutagenesis indicated that the two STAT5a binding sites regulated the activity of the miR-135a-1 and miR-135a-2 promoters. The binding of STAT5a to the miR-135a-1/2 core promoters in vitro and in cell culture was identified by electrophoretic mobility shift assays (EMSA) and chromatin immunoprecipitation (ChIP) assays. Overexpression and RNAi knockdown of STAT5a showed that the transcription factor regulated the endogenous miR-135a expression. Additionally, The expression time frame of STAT5a and APC indicated a potential negative feedback between them. In sum, the overall results from this study indicate that STAT5a regulates miR-135a transcription by binding to both miR-135a-1 and miR135a-2 promoter elements and the findings provide novel insights into the molecular regulatory mechanisms of miR-135a during adipogenesis. [ABSTRACT FROM AUTHOR]

Published
2016
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20. Identification and functional prediction of lncRNAs associated with intramuscular lipid deposition in Guangling donkeys.

Author

Peng Y, Zhu M, Gong Y, and Wang C

Abstract

Many studies have shown that long non-coding RNAs (lncRNAs) play key regulatory roles in various biological processes. However, the importance and molecular regulatory mechanisms of lncRNAs in donkey intramuscular fat deposition remain to be further investigated. In this study, we used published transcriptomic data from the longissimus dorsi muscle of Guangling donkeys to identify lncRNAs and obtained 196 novel lncRNAs. Compared with the coding genes, the novel lncRNAs and the known lncRNAs exhibited some typical features, such as shorter transcript length and smaller exons. A total of 272 coding genes and 52 lncRNAs were differentially expressed between the longissimus dorsi muscles of the low-fat and high-fat groups. The differentially expressed genes were found to be involved in various biological processes related to lipid metabolism. The potential target genes of differentially expressed lncRNAs were predicted by cis and trans. Functional analysis of lncRNA targets showed that some lncRNAs may act on potential target genes involved in lipid metabolism processes and regulate lipid deposition in the longissimus dorsi muscle. This study provides valuable information for further investigation of the molecular mechanisms of lipid deposition traits in donkeys, which may improve meat traits and facilitate the selection process of donkeys in future breeding., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Peng, Zhu, Gong and Wang.)

Published
2024
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21. Elucidating the Role of Transcriptomic Networks and DNA Methylation in Collagen Deposition of Dezhou Donkey Skin.

Author

Wang X, Ren W, Peng Y, Khan MZ, Liang H, Zhang Y, Liu X, Chen Y, Kou X, Wang L, Wang C, and Zhan Y

Abstract

DNA methylation represents a predominant epigenetic modification with broad implications in various biological functions. Its role is particularly significant in the process of collagen deposition, a fundamental aspect of dermal development in donkeys. Despite its critical involvement, the mechanistic insights into how DNA methylation influences collagen deposition in donkey skin remain limited. In this study, we employed whole genome bisulfite sequencing (WGBS) and RNA sequencing (RNA-seq) to investigate the epigenetic landscape and gene expression profiles in the dorsal skin tissues of Dezhou donkeys across three developmental stages: embryonic (YD), juvenile (2-year-old, MD), and mature (8-year-old, OD). Our analysis identified numerous differentially methylated genes that play pivotal roles in skin collagen deposition and overall skin maturation, including but not limited to COL1A1 , COL1A2 , COL3A1 , COL4A1 , COL4A2 , GLUL , SFRP2 , FOSL1 , SERPINE1 , MMP1 , MMP2 , MMP9 , and MMP13 . Notably, we observed an inverse relationship between gene expression and DNA methylation proximal to transcription start sites (TSSs), whereas a direct correlation was detected in regions close to transcription termination sites (TTSs). Detailed bisulfite sequencing analyses of the COL1A1 promoter region revealed a low methylation status during the embryonic stage, correlating with elevated transcriptional activity and gene expression levels. Collectively, our findings elucidate key genetic markers associated with collagen deposition in the skin of Dezhou donkeys, underscoring the significant regulatory role of DNA methylation. This research work contributes to the foundational knowledge necessary for the genetic improvement and selective breeding of Dezhou donkeys, aiming to enhance skin quality attributes.

Published
2024
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22. Comprehensive transcriptomic analysis unveils the interplay of mRNA and LncRNA expression in shaping collagen organization and skin development in Dezhou donkeys.

Author

Wang X, Peng Y, Liang H, Zahoor Khan M, Ren W, Huang B, Chen Y, Xing S, Zhan Y, and Wang C

Abstract

The primary focus of donkey hide gelatin processing lies in the dermal layer of donkey hide due to its abundant collagen content. However, the molecular mechanism involved in collagen organization and skin development in donkey skin tissue across various developmental stages remains incomplete. The current study aims to investigate the transcriptomic screening of lncRNAs and mRNA associated with skin development and collagen organization across different ages in Dezhou donkeys' skin. In the pursuit of this objective, we used nine skin tissue samples obtained from Dezhou donkeys at various ages including 8-month fetal stage, followed by 2 and 8 years. RNA-seq analysis was performed for the transcriptomic profiling of differentially expressed genes (DEGs) and lncRNAs associated with skin development in different age groups. Our investigation revealed the presence of 6,582, 6,455, and 405 differentially expressed genes and 654, 789, and 29 differentially expressed LncRNAs within the skin tissues of Dezhou donkeys when comparing young donkeys (YD) vs. middle-aged donkeys (MD), YD vs. old donkeys (OD), and MD vs. OD, respectively. Furthermore, we identified Collagen Type I Alpha 1 Chain ( COL1A1 ), Collagen Type III Alpha 1 Chain ( COL3A1 ), and Collagen Type VI Alpha 5 Chain ( COL6A5 ) as key genes involved in collagen synthesis, with COL1A1 being subject to cis-regulation by several differentially expressed LncRNAs, including ENSEAST00005041187, ENSEAST00005038497, and MSTRG.17248.1, among others. Interestingly, collagen organizational and skin development linked pathways including Protein digestion and absorption, metabolic pathways, Phosphatidylinositol 3-Kinase-Protein Kinase B signaling pathway (PI3K-Akt signaling pathway), Extracellular Matrix-Receptor Interaction (ECM-receptor interaction), and Relaxin signaling were also reported across different age groups in Dezhou donkey skin. These findings enhance our comprehension of the molecular mechanisms underlying Dezhou donkey skin development and collagen biosynthesis and organization, thus furnishing a solid theoretical foundation for future research endeavors in this domain., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Wang, Peng, Liang, Zahoor Khan, Ren, Huang, Chen, Xing, Zhan and Wang.)

Published
2024
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23. Advancements in copy number variation screening in herbivorous livestock genomes and their association with phenotypic traits.

Author

Liu X, Chen W, Huang B, Wang X, Peng Y, Zhang X, Chai W, Khan MZ, and Wang C

Abstract

Copy number variations (CNVs) have garnered increasing attention within the realm of genetics due to their prevalence in human, animal, and plant genomes. These structural genetic variations have demonstrated associations with a broad spectrum of phenotypic diversity, economic traits, environmental adaptations, epidemics, and other essential aspects of both plants and animals. Furthermore, CNVs exhibit extensive sequence variability and encompass a wide array of genomes. The advancement and maturity of microarray and sequencing technologies have catalyzed a surge in research endeavors pertaining to CNVs. This is particularly prominent in the context of livestock breeding, where molecular markers have gained prominence as a valuable tool in comparison to traditional breeding methods. In light of these developments, a contemporary and comprehensive review of existing studies on CNVs becomes imperative. This review serves the purpose of providing a brief elucidation of the fundamental concepts underlying CNVs, their mutational mechanisms, and the diverse array of detection methods employed to identify these structural variations within genomes. Furthermore, it seeks to systematically analyze the recent advancements and findings within the field of CNV research, specifically within the genomes of herbivorous livestock species, including cattle, sheep, horses, and donkeys. The review also highlighted the role of CNVs in shaping various phenotypic traits including growth traits, reproductive traits, pigmentation and disease resistance etc., in herbivorous livestock. The main goal of this review is to furnish readers with an up-to-date compilation of knowledge regarding CNVs in herbivorous livestock genomes. By integrating the latest research findings and insights, it is anticipated that this review will not only offer pertinent information but also stimulate future investigations into the realm of CNVs in livestock. In doing so, it endeavors to contribute to the enhancement of breeding strategies, genomic selection, and the overall improvement of herbivorous livestock production and resistance to diseases., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Liu, Chen, Huang, Wang, Peng, Zhang, Chai, Khan and Wang.)

Published
2024
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24. Feather follicles transcriptome profiles in Bashang long-tailed chickens with different plumage colors.

Author

Liu X, Zhou R, Peng Y, Zhang C, Li L, Lu C, and Li X

Subjects
Animals, Avian Proteins genetics, Avian Proteins metabolism, Breeding, Chickens genetics, Feathers metabolism, Pigmentation genetics, Transcriptome
Abstract

Despite the rich variety in plumage color found in nature, genetic studies on how feather follicles affect pigmentation are often limited to animals that have black and white pigment. To test how gene expression influences plumage color, transcriptomes of chicken feather follicles with white, black, hemp, reed catkins, silvery grey, and landscape plumage colors were generated using Illumina sequencing. We generated six RNA-Seq libraries with over 25 million paired-end clean reads per library with percentage of paired-end clean reads ranging from 96.73 to 96.98%. 78% of the reads mapped to the chicken genome, and approximately 70% of the reads were mapped to exons and 6% mapped to introns. Transcriptomes of feather follicles producing hemp and land plumage were similar, but these two showed moderate differences compared with gray and reed colored plumage. The black and white follicle transcriptomes were most divergent from the other colors. We identified several candidate genes, including GPNMB, PMEL, TYRP1, GPR143, OCA2, SOX10, SLC45A2, KRT75, and TYR. All of these genes are known to induce pigment formation in mice. White feathers result from the lack of pigment formation, and our results suggest that the white chickens due to the recessive insertion mutation of TYR. The formation of black area size and color depth may be due to the expression levels of GPNMB, PMEL, TYRP1, GPR143, OCA2, SOX10, SLC45A2, KRT75, and TYR. The GO analysis of the differentially expressed genes (DEGs) revealed that DEGs in our transcriptome analysis were enriched in cytoskeleton and cell structure related pathways. The black plumage transcriptome showed significant differences in melanogenesis, tyrosine metabolism, and riboflavin metabolism compared with transcriptomes of other plumage colors. The transcriptome profiles of the different chicken plumage colors provide a valuable resource to understand how gene expression influences plumage color, and will be an important resource for identifying candidate genes in breeding programs.

Published
2019
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25. MicroRNAs: emerging roles in adipogenesis and obesity.

Author

Peng Y, Yu S, Li H, Xiang H, Peng J, and Jiang S

Subjects
Animals, Humans, Lipid Metabolism, Obesity genetics, Obesity metabolism, Sterol Regulatory Element Binding Proteins metabolism, Adipogenesis, MicroRNAs metabolism, Obesity pathology
Abstract

Obesity is a serious health problem worldwide associated with an increased risk of life-threatening diseases such as type 2 diabetes, atherosclerosis, and certain types of cancer. Understanding the molecular basis of adipogenesis and fat cell development in obesity is essential to identify new biomarkers and therapeutic targets for the development of anti-obesity drugs. Recent computational and experimental studies have shown that microRNAs (miRNAs) appear to play regulatory roles in many biological processes associated with obesity, including adipocyte differentiation and lipid metabolism. In addition, many miRNAs are dysregulated in metabolic tissues from obese animals and humans, which potentially contributes to the pathogenesis of obesity-associated complications. The discovery of circulating miRNAs has highlighted their potential as both endocrine signaling molecules and disease markers. The potential of miRNA based therapeutics targeting obesity is highlighted as well as recommendations for future research which could lead to a breakthrough in the treatment of obesity., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2014
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26. miR-135a-5p inhibits 3T3-L1 adipogenesis through activation of canonical Wnt/β-catenin signaling.

Author

Chen C, Peng Y, Peng Y, Peng J, and Jiang S

Subjects
3T3-L1 Cells, Active Transport, Cell Nucleus, Adipose Tissue cytology, Adipose Tissue metabolism, Animals, CCAAT-Enhancer-Binding Proteins biosynthesis, Cell Line, Cricetinae, Cyclin D1 biosynthesis, Fatty Acid Synthases adverse effects, Fatty Acid-Binding Proteins adverse effects, Gene Expression Regulation, Mice, MicroRNAs biosynthesis, PPAR gamma antagonists & inhibitors, Proto-Oncogene Proteins c-myc biosynthesis, RNA Interference, RNA, Small Interfering, Wnt Proteins metabolism, beta Catenin metabolism, Adenomatous Polyposis Coli genetics, Adipocytes cytology, Adipogenesis genetics, MicroRNAs genetics, Wnt Signaling Pathway genetics
Abstract

MicroRNAs are endogenous, conserved, and non-coding small RNAs that function as post-transcriptional regulators of fat development and adipogenesis. Adipogenic marker genes, such as CCAAT/enhancer binding protein α (Cebpa), peroxisome proliferator-activated receptor γ (Pparg), adipocyte fatty acid binding protein (Ap2), and fatty acid synthase (Fas), are regarded as the essential transcriptional regulators of preadipocyte differentiation and lipid storage in mature adipocytes. Canonical Wnt/β-catenin signaling is recognized as a negative molecular switch during adipogenesis. In the present work we found that miR-135a-5p is markedly downregulated during the process of 3T3-L1 preadipocyte differentiation. Overexpression of miR-135a-5p impairs the expressions of adipogenic marker genes as well as lipid droplet accumulation and triglyceride content, indicating the importance of miR-135a-5p for adipogenic differentiation and adipogenesis. Further studies show that miR-135a-5p directly targets adenomatous polyposis coli (Apc), contributes to the translocation of β-catenin from cytoplasm to nucleus, and then activates the expressions of cyclin D1 (Ccnd1) and Cmyc, indicating the induction of canonical Wnt/β-catenin signaling. In addition, inhibition of APC with siRNA exhibits the same effects as overexpression of miR-135a-5p. Our findings demonstrate that miR-135a-5p suppresses 3T3-L1 preadipocyte differentiation and adipogenesis through the activation of canonical Wnt/β-catenin signaling by directly targeting Apc. Taken together, these results offer profound insights into the adipogenesis mechanism and the development of adipose tissue., (© 2014 Society for Endocrinology.)

Published
2014
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