Your search keyword '"Tian, Yadong"' showing total 575 results

201. Transcriptome profile of liver at different physiological stages reveals potential mode for lipid metabolism in laying hens

Author

Li, Hong, primary, Wang, Taian, additional, Xu, Chunlin, additional, Wang, Dandan, additional, Ren, Junxiao, additional, Li, Yanmin, additional, Tian, Yadong, additional, Wang, Yanbin, additional, Jiao, Yuping, additional, Kang, Xiangtao, additional, and Liu, Xiaojun, additional

Published

2015

202. Effect of polymorphism within miRNA-1606 gene on growth and carcass traits in chicken

Author

Li, Hong, primary, Wang, Shanhe, additional, Yan, Fengbin, additional, Liu, Xiaojun, additional, Jiang, Ruirui, additional, Han, Ruili, additional, Li, Zhuanjian, additional, Li, Guoxi, additional, Tian, Yadong, additional, Kang, Xiangtao, additional, and Sun, Guirong, additional

Published

2015

203. Identification and functional characterization of copy number variations in diverse chicken breeds

Author

Han, Ruili, primary, Yang, Pengkun, additional, Tian, Yadong, additional, Wang, Dandan, additional, Zhang, Zengxuan, additional, Wang, Lele, additional, Li, Zhuanjian, additional, Jiang, Ruirui, additional, and Kang, Xiangtao, additional

Published

2014

204. SNPs in the Adiponectin Receptor 2 Gene and Their Associations with Chicken Performance Traits

Author

Wang, Lele, primary, Tian, Yadong, additional, Mei, Xingxing, additional, Han, Ruili, additional, Li, Guoxi, additional, and Kang, Xiangtao, additional

Published

2014

205. Modulation of growth and immunity by dietary supplementation with resveratrol in young chickens receiving conventional vaccinations

Author

Zhang, CaiYun, primary, Tian, YaDong, additional, Yan, FengBin, additional, Kang, XiangTao, additional, Han, RuiLi, additional, Sun, GuiRong, additional, and Zhang, HuiRu, additional

Published

2014

206. Cloning of TPO gene and associations of polymorphisms with chicken growth and carcass traits

Author

Hou, Xinyan, primary, Han, Ruili, additional, Tian, Yadong, additional, Xie, Wanying, additional, Sun, Guirong, additional, Li, Guoxi, additional, Jiang, Ruirui, additional, and Kang, Xiangtao, additional

Published

2012

207. A Comparison of Different Biochemical Parameters in Blood Serum of Healthy and Breast Blister Chickens

Author

Wang, Jianhua, primary, Shi, Jianzhou, additional, Tian, Yadong, additional, and Kang, Xiangtao, additional

Published

2012

208. Screening Genes Related to Breast Blister (Keel Cyst) in Chicken by Delta Differential Display

Author

Shi, Jianzhou, primary, Sun, Guirong, additional, Tian, Yadong, additional, Han, Ruili, additional, Li, Guoxi, additional, Huang, Yanqun, additional, Wang, Jianhua, additional, and Kang, Xiangtao, additional

Published

2012

209. Novel SNPs in the PRDM16 gene and their associations with performance traits in chickens

Author

Han, Ruili, primary, Wei, Yang, additional, Kang, Xiangtao, additional, Chen, Hong, additional, Sun, Guirong, additional, Li, Guoxi, additional, Bai, Yichun, additional, Tian, Yadong, additional, and Huang, Yanqun, additional

Published

2011

210. SNPs in the Adiponectin Receptor 2 Gene and Their Associations with Chicken Performance Traits.

Author

Wang, Lele, Tian, Yadong, Mei, Xingxing, Han, Ruili, Li, Guoxi, and Kang, Xiangtao

Subjects

*SINGLE nucleotide polymorphisms, *ADIPONECTIN, *PEPTIDE receptors, *GENETIC mutation, *TRAIT intercorrelations, *BIRD growth, *CHICKENS, *ANIMAL genetics, *LIVER diseases

Abstract

The adiponectin receptor 2 (ADIPOR2) is a receptor for both globular and full-length adiponectin. In the current study, two genetic variations in ADIPOR2 gene were identified in an F2resource population of Gushi chicken and Anka broiler. Association analysis between the two SNPs and chicken performance traits were determined using the linear mixed model. The data revealed that the g.34490C > T mutation in intron 3 was significantly associated with liver weight and globulin, the g.35363T > C polymorphism in exon 5 was significantly associated with body weights at 6, 10, and 12 weeks of age. Both polymorphisms have no significant effects on serum glucose and fat-related traits. The g.34490C > T mutation might play an important role in regulating liver weight. The g.35363T > C polymorphism does contribute in a significant manner to growth traits at the medium and later development stage but it is uncertain whether it could be a molecular marker for liver disease. [ABSTRACT FROM AUTHOR]

Published

2015

211. Functional and miRNA regulatory characteristics of INSIGgenes highlight the key role of lipid synthesis in the liver of chicken (Gallus gallus)

Author

Yue, Yaxin, Liu, Ziming, Zhang, Ke, Jia, Qihui, Wang, Dandan, Wang, Zhang, Guo, Yulong, Li, Donghua, Jiang, Ruirui, Li, Zhuanjian, Tian, Yadong, Kang, Xiangtao, Liu, Xiaojun, and Li, Hong

Abstract

The insulin-induced genes (INSIG1and INSIG2) have been demonstrated to play a vital role in regulating lipid metabolism in mammals, however the function and regulation mechanism of them remains unknown in poultry. In this study, firstly the phylogenetic trees of INSIGsamong various species were constructed and their subcellular locations were mapped in chicken LMH. Then the spatiotemporal expression profiles, over-expression and knockdown assays of chicken INSIGswere conducted. Furthermore, conservation of potential miRNA binding sites in INSIGsamong species were analyzed, and the miRNA biological function and regulatory role were verified. The results showed that chicken INSIGslocated in cellular endoplasmic reticulum, and were originated from the common ancestors of their mammalian counterparts. The INSIGswere widely expressed in all detected tissues, and their expression levels in the liver of chicken at 30 wk were significantly higher than that at 20 wk (P< 0.01). Over-expression of INSIGsled no significant increase in mRNA abundance of lipid metabolism-related genes and the contents of triacylglycerol (TG) and cholesterol (TC) in LMH cells. Knockdown of INSIG1led to the decreased expressions of ACSL1, MTTP-L, ApoB, ApoVLDLIIgenes and TG, TC contents (P< 0.05). Knockdown of INSIG2 could significantly decrease the contents of TG and TC, and expressions of key genes related to the lipid metabolism (P< 0.05). Moreover, INSIG1was directly targeted by both miR-130b-3p and miR-218-5p, and INSIG2was directly targeted by miR-130b-3p. MiR-130b-3p mimic and miR-218-5p mimic treatment could significant decrease the mRNA and protein levels of INSIGs, mRNA levels of genes related to lipid metabolism, and the contents of TG and TC in LMH cells. The inhibition of miR-130b-3p and miR-218-5p on TG and TC contents could be restored by the overexpression of INSIGs, respectively. No significant alteration in expressions of sterol regulatory element binding protein (SREBPs) and SREBP cleavage-activating protein (SCAP) were observed when INSIGs were over-expressed. SCAPwas down-regulated when INSIG1was knocked down, while SREBP1was down-regulated when INSIG2was knocked down. Taken together, these results highlight the role of INSIG1and INSIG2in lipid metabolism and their regulatory mechanism in chicken.

Published

2023

212. The adiponectin receptor agonist, AdipoRon, promotes reproductive hormone secretion and gonadal development via the hypothalamic-pituitary-gonadal axis in chickens

Author

Li, Chong, Cao, Yanfang, Ren, Yangguang, Zhao, Yudian, Wu, Xing, Si, Sujin, Li, Jing, Li, Qi, Zhang, Na, Li, Donghua, Li, Guoxi, Liu, Xiaojun, Kang, Xiangtao, Jiang, Ruirui, and Tian, Yadong

Abstract

Adiponectin is a key hormone secreted by fat tissues that has multiple biological functions, including regulating the energy balance and reproductive system by binding to its receptors AdipoR1 and AdipoR2. This study investigated the correlation between the levels of adiponectin and reproductive hormones in the hypothalamic-pituitary-ovarian (HPO) axis of laying hens at 4 different developmental stages (15, 20, 30, and 68 wk) and explored the effects of AdipoRon (an activator of adiponectin receptors) on the hypothalamic-pituitary-gonadal (HPG) axis and follicle and testicular Leydig cells in vitro and in vivo. The results demonstrated that the adiponectin level was significantly correlated with that of reproductive hormones in the HPO axis (e.g., GnRH, FSH, LH, and E2) in laying hens at 4 different ages. Moreover, AdipoRon could promote the expression of AdipoR1 and AdipoR2 and the secretion of reproductive hormones in the HPG axis, including GnRH, FSH, LH, P4, and T. AdipoRon could also upregulate the expression of genes related to follicular steroidogenesis (STAR, CYP19A1, CYP17A1,and CYP11A1), hepatic lipid synthesis (OVR, MTP), follicular lipid uptake (PPAR-g), and follicular angiogenesis (VEGFA1, VEGFA2, VEGFR1, ANGPT1, ANGPT2, TEK) in the oviposition period, and all of these findings were consistent with the results obtained from in vitro experiments after the transfection of small white follicles (SWFs) with AdipoRon. Furthermore, the results suggest that AdipoRon increases the diameter of testicular seminiferous tubules, the number of spermatogenic cells and sperm production in vivo and enhances the expression of AdipoR1, AdipoR2and steroid hormones in vitro. Collectively, the findings suggest that AdipoRon could facilitate the expression and secretion of reproductive hormones in the HPG axis by activating its receptors and then improve the growth and development of follicles and testes in chickens.

Published

2023

213. miR-19b-3pRegulated by Estrogen Controls Lipid Synthesis Through Targeting MSMO1and ELOVL5in LMH Cells

Author

Jia, Qihui, Cao, Yuzhu, Zhang, Mengmeng, Xing, Yuxin, Xia, Tian, Guo, Yulong, Yue, Yaxin, Li, Xin, Liu, Xiaojun, Zhang, Yanhua, Li, Donghua, Li, Zhuanjian, Tian, Yadong, Kang, Xiangtao, and Li, Hong

Abstract

miR-19b-3pis reported to undertake various biological role, while its function and action mechanism in chicken hepatic lipid metabolism is unclear. Conservation analysis and tissue expression pattern of miR-19b-3pand its target gene were evaluated, respectively. Dual luciferase reporter system and western blot technologies were adopted to validate miR-19b-3ptarget gene. Overexpression and knockdown assays were done to explore the biological functions of miR-19b-3pand target gene in Leghorn Male Hepatoma cell line (LMH). Regulatory approaches of estrogen on miR-19b-3pand target gene expressions are analyzed through site-directed mutation combined with estrogen receptors antagonist treatment assays. The results showed that, chicken miR-19b-3pmature sequences are highly conserved among Capra hircus, Columba livia, Rattus norvegicus, Mus musculus, Cricetulus griseus, Danio rerio, Danio novaehollandiae, Orycodylus porosus, Crocodylus porosus, Gadus morhua, and widely expressed in lung, ovary, spleen, duodenum, kidney, heart, liver, leg muscle and pectoral muscle tissues. miR-19b-3pcould significantly increase intracellular triglyceride (TG) content and decrease intracellular cholesterol (TC) content via targeting methylsterol monooxygenase 1 (MSMO1) and elongase of very long chain fatty acids 5 (ELOVL5), which are highly conserved among species, in both mRNA and protein levels. Estrogen could inhibit miR-19b-3pexpression, but directly promoted MSMO1transcription via estrogen receptor α (ERα) and indirectly regulated ELOVL5expression at the transcription level. Meanwhile, estrogen could also up-regulate MSMO1and ELOVL5expression through inhibiting miR-19b-3pexpression at the post-transcription level. Taken together, these results highlight the role and regulatory mechanism of miR-19b-3pin hepatic lipid metabolism in chicken, and might produce useful comparative information for human obesity studies and biomedical research.

Published

2023

214. Effect of Pseudostellaria heterophylla polysaccharide on the growth and liver metabolism of chicks

Author

Yu, Yange, Zhu, Zhaoyan, Ding, Mengxia, Wang, Bingxin, Guo, Yujie, Tian, Yadong, Jiang, Ruirui, Sun, Guirong, Han, Ruili, Kang, Xiangtao, and Yan, Fengbin

Abstract

In this study, the effects of Pseudostellaria heterophylla polysaccharide (PHP) on the growth, development, and liver metabolism of chicks were investigated by feeding chicks diets. Four hundred 7-d-old Gushi roosters were selected and randomly divided into four groups, labeled A, B, C, and D. Group A was fed the basal diet, and Groups B, C, and D were fed 100, 200, and 400 mg PHP per kilogram of basal diet, respectively. At 14, 21, 28 and 35 d of age, five chicks were randomly selected from each group to collect samples for index detection. The results showed that compared with Group A, there were significant reduction in average daily feed intake (ADFI) and feed-to-weight ratio (F/G) at 14, 21, and 28 d (P< 0.05), significant increase in average daily gain (ADG) at 21, 28 d (P< 0.05), significantly increased levels of total protein (TP), albumin (ALB), insulin (INS), thyroxine (T3), growth hormone (GH) at 14, 28 d (P< 0.05), significantly decreased levels of glucose (GLU), total cholesterol (TC), glucagon (GC), and triglyceride (TG) at 28 d in Group C (P< 0.05). There were significantly increased levels of TP, ALB at 14, 21 d (P< 0.05), significantly increased level of TP at 35 d (P< 0.05), significantly increased level of GH at 28 d (P< 0.05), significantly decreased levels of GLU, GC at 28 d (P< 0.05), significant reduction in F/G at 14, 21 d in Groups B and D (P< 0.05). Based on the above results, the livers from chicks in Groups A and C at 28 d were selected for transcriptome sequencing. The sequencing results showed that significantly differentially expressed genes (SDEGs) were enriched in growth and development, oxidative phosphorylation, the PPAR signaling pathway and the lipid metabolism pathway. All these results revealed that the addition of 200 mg/kg PHP in the diet promoted the growth and development, lipid metabolism and energy metabolism of chicks, inhibit inflammation and tumor development, and improve the function of the liver.The addition of PHP in the diet can promote the growth and development, lipid metabolism, and energy metabolism of chicks, inhibit inflammation and tumor development, and improve the function of the liver. The results provided a theoretical basis for PHP as a safe and effective nutritional feed additive in poultry production.In order to explore the possibility of Pseudostellaria heterophylla polysaccharide (PHP) as green and healthy feed additive, we evaluated the effects of PHP on the growth, development and liver metabolism of chicks by feeding chicks diets in this study. The results revealed that the addition of 200 mg/kg PHP in the diet promoted the growth and development, lipid metabolism and energy metabolism in chicks and improved liver function. PHP may be a potential natural and safe feed additive applied in poultry production.

Published

2023

215. Drying kinetics of soy protein isolate-corn starch film during preparation and its moisture adsorption characteristics during storage

Author

Zhu, Tingwei, Yang, Jinyu, Qin, Wanting, Tian, Yadong, Wang, Yingying, and Guo, Xingfeng

Abstract

To better understand the mass transfer process of moisture in the soy protein isolate-corn starch (SPI-CS) films during preparation and storage process, the drying kinetics model of SPI-CS films with different formation conditions during the drying process and the moisture adsorption characteristics of the SPI-CS films under different humidity conditions were investigated. Within the range of experimental conditions, the moisture migration rule in the SPI-CS films during the drying preparation was combined with the Page model which was expressed as MR = exp (−ktn). It was found that the adsorption equilibrium needed shorter time (about 3 h) when the SPI-CS films existed in the environment with lower humidity (RH < 54%). Additionally, the second-order adsorption kinetic equation was successful to describe the moisture adsorption characteristic of the SPI-CS films during storage under different humidity conditions.

Published

2023

216. Regulation of the MyD88gene in chicken spleen inflammation induced by stress

Author

Ding, Mengxia, Yu, Yange, Zhu, Zhaoyan, Tian, Huihui, Guo, Yujie, Zan, Ruilong, Tian, Yadong, Jiang, Ruirui, Li, Kui, Sun, Guirong, Han, Ruili, Li, Donghua, Kang, Xiangtao, and Yan, Fengbin

Abstract

In order to investigate the regulatory role of the myeloid differentiation factor 88 (MyD88) gene in the stress inflammatory response to chicken spleen, the chicken stress model and macrophage (HD11) inflammation model were constructed in this study. Enzyme-linked immunosorbent assay and quantitative real-time PCR were used to investigate the effects of MyD88on immune and inflammatory indicators. The results demonstrated that the levels of IgG, CD3+and CD4+in the serum of chickens in the beak trimming stress and heat stress groups decreased significantly compared to the control group without stress (P< 0.05), and the inflammation-related indices IL-1β, TNF-α, IL-6 and NF-κB increased significantly (P< 0.05). Stress up-regulated the expression levels of MyD88, IL-1β, NF-κBand TLR4in the spleen, stimulated the release of inflammatory factors. Overexpression of MyD88significantly up-regulated the expression levels of the inflammatory factors IL-1β, TNF-α, IL-8, NF-κBand TLR4in HD11 cells (P< 0.05). Co-treatment with lipopolysaccharide (LPS) further promoted the expression levels of the inflammatory cytokines in HD11 cells. Interference with the expression of MyD88significantly reduced the expression level of inflammatory factors in HD11 cells (P< 0.05) and had an antagonistic effect with LPS to alleviate the inflammatory reaction. In conclusion, the MyD88gene has a pro-inflammatory effect and is highly expressed in the beak trimming and heat stress models in chicks, regulating the inflammatory response in poultry. It was involved in regulating the expression of immune-related genes in HD11 cells and had a synergistic effect with LPS.• The expression characteristics of myeloid differentiation factor 88 (MyD88) were verified for the first time in Gushi chicken beak trimming stress and heat stress model. MyD88can be used as a reliable indicator to reflect whether poultry is in an inflammatory state.• MyD88is involved in regulating the expression of immune-related genes in chicken macrophage (HD11) cells. It has synergistic effect when combined with lipopolysaccharide.In this study, we constructed two chick stress models and a chicken macrophage (HD11) inflammation model to verify the potential mechanism of the myeloid differentiation factor 88 (MyD88) gene regulation of inflammatory response in poultry for the first time through in vivo and in vitro dual model tests. The results of this study preliminarily suggest that the MyD88gene may be a reliable indicator of an inflammatory state in poultry and a key target for regulating the poultry inflammatory response.

Published

2023

217. Integrative analyses of the mRNA expression profile reveal the involvement of STC1in chicken folliculogenesis

Author

Sun, Junwei, Zhang, Pengwei, Wang, Dongxue, Zhu, Shuaipeng, Ma, Xiangfei, Du, Zhenwei, Zhang, Jiechang, Yang, Shuangyuan, Huang, Hetian, Jiang, Ruirui, Tian, Yadong, Li, Wenting, Kang, Xiangtao, Yan, Fengbin, Sun, Guirong, and Li, Donghua

Abstract

Efficient ovarian follicle development, maturation, and ovulation are critical for egg production performance. Previous research has underscored the importance of messenger RNAs (mRNAs) in regulating development and folliculogenesis in chicken ovarians. However, the molecular mechanism is not fully understood, especially in the late period of the laying cycle. In the present study, ovarian tissues from 80-week-old Hy-Line Brown layers (three with high and three with low rates of egg laying) were collected for transcriptome sequencing. A total of 306 differentially expressed genes (DEGs) were identified in this study, at a false discovery rate (FDR)-corrected P-value < 0.05 and a log2|fold change| (log2|FC|) ≥1.5. Among these DEGs, stanniocalcin 1 (STC1)was mainly related to cellular processes, single-organism processes, biological regulation, metabolic processes, developmental processes, and reproductive processes. Then, we further investigated the regulation of STC1during chicken follicle development and found that STC1inhibited the proliferation and stimulated the apoptosis of follicular granulosa cells (GCs), and decreased the expression of progesterone (P4) and estradiol (E2). Collectively, these results suggest that STC1plays an important role in chicken follicle development by decreasing GC proliferation and steroidogenesis and stimulating GC apoptosis. This study contributes to the understanding of the reproductive biology of laying hens in the late period of the laying cycle and further lays a foundation for the improvement of egg production in poultry breeding.•Stanniocalcin 1 (STC1) expression is significantly lower in the ovaries of high-egg-laying chickens than in those of low-egg-laying chickens and can be used as an important indicator of the egg production performance of chickens.•Stanniocalcin 1 (STC1) can significantly inhibit the proliferation and differentiation of chicken prefollicular granulosa cells, promote their apoptosis, inhibit the secretion of progesterone and estrogen, and inhibit the development of poultry follicles.The egg production performance of chickens is an essential economic trait that differs significantly between high- and low-egg-laying breeds. In addition to external factors such as feeding, light, and environment, the periodic recruitment of pre-hierarchical follicles and the normal development of hierarchical follicles affect this difference. Thus, we used high-throughput sequencing technology to perform transcriptome analysis of ovarian tissues from 80-wk-old Hy-Line Brown layers with high- and low-egg-laying rates (HHand HL), and an association with the laying performance gene stanniocalcin 1 (STC1) was found. The proliferation and apoptosis of granulosa cells (GCs), as the basic functional cells of ovarian follicles, are highly correlated with the normal development and regression of follicles. Therefore, this study used ovarian follicular GCs cultured in vitro to study the effects of the STC1gene on the proliferation, apoptosis, and secretion function of GCs and to explore its mechanism of action, laying a foundation for the study of the regulation of the STC1gene on follicular development.

Published

2023

218. GPNMB promotes abdominal fat deposition in chickens: genetic variation, expressional profile, biological function, and transcriptional regulation

Author

Wang, Dandan, Teng, Menglin, Wang, Yangyang, Cao, Yuzhu, Tian, Weihua, Wang, Zhang, Guo, Yulong, Li, Hong, Li, Zhuanjian, Jiang, Ruirui, Li, Guoxi, Tian, Yadong, and Liu, Xiaojun

Abstract

Glycoprotein nonmetastatic melanoma protein B (GPNMB) is a vital secreted factor that promotes the occurrence of obesity in mammals. However, the effects of GPNMB on abdominal fat deposition is still unknown in chickens. In this study, we looked into the genetic and expression association of GPNMBgene with abdominal fat traits in chicken, and found that a genetic variation rs31126482 in GPNMBpromoter was significantly associated with abdominal fat weight (AFW, P< 0.05) and abdominal fat percentage (AFP, P< 0.01). Express profile analysis of the GPNMBindicated that the gene was mainly expressed in abdominal fat tissue, and its expression level was strongly positively correlated with AFW (R2 = 0.6356, P = 4.10E−05) and AFP (R2 = 0.6450, P = 2.90E−05). We then investigated biological function of GPNMB on adipogenesis in chicken, and found that GPNMB could inhibit abdominal preadipocyte proliferation, but promote abdominal preadipocyte differentiation and lipid deposition. Furthermore, we explored regulatory mechanism of GPNMBgene in chicken, and detected one nonclassical estrogen regulatory element (AP1) and one peroxisome proliferator-activated receptor α (PPARα) responsive element in the 2 kb promoter region of GPNMBgene, and demonstrated that estrogen could up-regulate GPNMBmRNA expression in adipose tissue and primary abdominal preadipocytes, while PPARα could down-regulate GPNMBexpression in primary preadipocytes. Taken together, this study brings new insights into understanding the function and transcriptional control of GPNMBgene, and provides genetic markers for breeding selection to improve abdominal fat traits in chicken.

Published

2022

219. Maximizing electrochemical hydrogen peroxide production from oxygen reduction with superaerophilic electrodes.

Author

Xia, Guangsen, Tian, Yadong, Yin, Xiaomeng, Yuan, Wenhan, Wu, Xiaocui, Yang, Zhongxue, Yu, Gang, Wang, Yujue, and Wu, Mingbo

Subjects

*HYDROGEN peroxide, *OXYGEN electrodes, *HYDROGEN production, *ELECTRODES, *OXYGEN reduction, *STANDARD hydrogen electrode, *ELECTROLYTIC reduction

Abstract

[Display omitted] • Superaerophilic electrodes can greatly enhance O 2 transfer by adsorbing O 2 bubbles. • The wetting state of superaerophilic electrode changes dynamically during ORR to H 2 O 2. • The wetting state of superaerophilic electrode has significant effects on ORR to H 2 O 2. • The best performance of ORR to H 2 O 2 is obtained in the underwater Wenzel-Cassie State. • Proper gas management is needed to maintain a stable underwater Wenzel-Cassie state. This study investigated the effects of electrode wettability on hydrogen peroxide (H 2 O 2) production from oxygen reduction reaction (ORR) during electrolysis with superaerophilic electrodes. When the electrode was in the underwater Wenzel-Cassie (UWC) state, it could quickly adsorb aerated oxygen microbubbles, which significantly enhanced oxygen transfer. Meanwhile, H 2 O 2 reduction was effectively inhibited. Consequently, high ORR currents and current efficiencies (CEs) of H 2 O 2 production could be obtained in the UWC state. However, oxygen can only be transferred to the electrode by dissolved oxygen (DO) diffusion when the electrode was in the underwater Wenzel (UW) state. Due to the slow DO diffusion and enhanced H 2 O 2 reduction at the wetted electrode, the rate and CEs of H 2 O 2 production decreased dramatically in the UW state. Maintaining a stable UWC state by controlling the rate of O 2 bubbling and rate of O 2 consumption in ORR is thus critical to maximizing H 2 O 2 electrosynthesis with the superaerophilic electrodes. [ABSTRACT FROM AUTHOR]

Published

2021

220. Pituitary whole transcriptome analysis reveals key genes regulating reproduction in Hy-Line Brown hens and the construction of their ceRNA molecular regulatory network.

Author

Li, Yijie, Zhai, Bin, Song, Haijie, Zhang, Xin, Tian, Yixiang, Li, Donghua, Gong, Yujie, Guo, Yujie, Jiang, Ruirui, Han, Ruili, Zhang, Juan, Zhang, Yanhua, and Tian, Yadong

Subjects

*RNA sequencing, *GENE regulatory networks, *NON-coding RNA, *COMPETITIVE endogenous RNA, *PITUITARY hormones

Abstract

Background: The development and egg-laying performance of hens are precisely regulated by hormones secreted by the pituitary. In this study, we performed comprehensive transcriptome sequencing of pituitary from Hy-Line Brown hens at 15, 20, 30 and 68 W of age. Through association analysis, we identified key genes and ceRNA regulatory networks related to pituitary development and egg production. Results: Based on the comprehensive transcriptome data, we identified 470 differentially expressed lncRNAs (DE-lncRNAs), 38 differentially expressed miRNAs (DE-miRNAs), and 2,449 differentially expressed mRNAs (DE-mRNAs). Time-series analysis pinpointed genes and signaling pathways that significantly influence pituitary hormone secretion at various stages. At 15 W, the high expression of GHRHR, NPY1R, and TSHR in the pituitary supports growth. At 20 and 30 W, elevated GNRHR expression sustains continuous egg production. In the late laying period, the expression of PRL may lead to a decline in egg production. Additionally, association analysis enabled the construction of a ceRNA regulatory network involving non-coding RNAs that regulate the development and reproduction of hens. Conclusion: This study elucidated the comprehensive transcriptome expression profiles of the pituitary gland during the development and egg-laying processes in Hy-Line Brown hens and constructed the associated molecular regulatory networks. These findings lay the foundation for investigating the mechanisms by which non-coding RNAs regulate pituitary hormone secretion. [ABSTRACT FROM AUTHOR]

Published

2024

221. Evolutionary analysis and functional characterization reveal the role of the insulin-like growth factor system in a diversified selection of chickens (Gallus gallus)

Author

Guo, Yulong, Zhang, Ke, Geng, Wanzhuo, Chen, Botong, Wang, Dandan, Wang, Zhang, Tian, Weihua, Li, Hong, Zhang, Yanhua, Jiang, Ruirui, Li, Zhuanjian, Tian, Yadong, Kang, Xiangtao, and Liu, Xiaojun

Abstract

The insulin-like growth factor (IGF) system plays an indispensable role in embryonic and postnatal development in mammals. However, the effects of the system on growth, carcass, and egg-laying traits, and diversified selection have not been systematically studied in chickens. In the present study, firstly the composition and gene structures of the chicken IGF system were investigated using phylogenetic tree and conserved synteny analysis. Then the effects of the genetic variations in the IGF system genes on breeding of specialized varieties were explored by principal component analysis. In addition, the spatiotemporal expression properties of the genes in this system were analyzed by RT-qPCR and the functions of the genes in egg production performance and growth were explored by association study. Moreover, the effects of IGF-binding proteins 3 (IGFBP3) on skeletal muscle development in chicken were investigated by cell cycle analysis, 5-ethynyl-2′-deoxyuridine (EdU) and Cell Counting Kit-8 (CCK-8) assays. The results showed that the chicken IGF system included 13 members which could be classified into three groups based on their amino acid sequences: IGF binding proteins 1–5 and 7 (IGFBP1–5and 7) belonged to the first group; IGF 1 and 2 (IGF1and IGF2), and IGF 1 and 2 receptor (IGF1Rand IGF2R) belonged to the second group; and IGF2 binding proteins 1–3 (IGF2BP1–3) belonged to the third group. The IGF2BP1and 3, and IGFBP2, 3, and 7genes likely contributed more to the formation of both the specialized meat-type and egg-type lines, whereas IGFBP1and 5likely contributed more to the formation of the egg-type line. The SNPs in the IGF2BP3and IGFBP2and 5genes were significantly associated with egg number, and SNPs in the IGFBP3promoter region were significantly associated with body, breast muscle, and leg muscle weights. The IGFBP3inhibited proliferation but promoted differentiation of chicken primary myoblasts (CPMs). These results provide insights into the roles of the IGF system in the diversified selection of chickens. The SNPs associated with egg-laying performance, growth, and carcass traits could be used as genetic markers for breeding selection of chickens in the future.

Published

2022

222. Nitrogen-doped porous carbon nanosheets for high-performance supercapacitors

Author

Fan, Chenxu, Tian, Yadong, Bai, Shiyu, Zhang, Chunyi, and Wu, Xiaoliang

Abstract

•2D hierarchical porous nitrogen-doped carbon nanosheets were synthesized.•The NCS-700 delivers large specific capacitance and good electrochemical stability.•The symmetrical supercapacito shows high energy density and superior cycling stability.

Published

2021

223. Dynamic alternations of three-dimensional chromatin architecture contribute to phenotypic characteristics of breast muscle in chicken.

Author

Wang, Zhang, Tian, Weihua, Guo, Yulong, Wang, Dandan, Zhang, Yanyan, Zhi, Yihao, Li, Donghua, Li, Wenting, Li, Zhuanjian, Jiang, Ruirui, Han, Ruili, Sun, Guirong, Li, Guoxi, Tian, Yadong, Li, Hong, Kang, Xiangtao, and Liu, Xiaojun

Subjects

*CHROMATIN, *GENE expression, *CHICKS, *PHENOTYPES, *MUSCLE growth, *ADIPOGENESIS, *BREAST, *PECTORALIS muscle, *CHICKEN embryos

Abstract

Breast muscle growth rate and intramuscular fat (IMF) content show apparent differences between fast-growing broilers and slow-growing indigenous chickens. However, the underlying genetic basis of these phenotypic characteristics remains elusive. In this study, we investigate the dynamic alterations of three-dimensional genome architecture and chromatin accessibility in breast muscle across four key developmental stages from embryo to starter chick in Arbor Acres (AA) broilers and Yufen (YF) indigenous chickens. The limited breed-specifically up-regulated genes (Bup-DEGs) are embedded in breed-specific A compartment, while a majority of the Bup-DEGs involving myogenesis and adipogenesis are regulated by the breed-specific TAD reprogramming. Chromatin loops allow distal accessible regions to interact with myogenic genes, and those loops share an extremely low similarity between chicken with different growth rate. Moreover, AA-specific loop interactions promote the expression of 40 Bup-DEGs, such as IGF1, which contributes to myofiber hypertrophy. YF-specific loop interactions or distal accessible regions lead to increased expression of 5 Bup-DEGs, including PIGO, PEMT, DHCR7, TMEM38B, and DHDH, which contribute to IMF deposition. These results help elucidate the regulation of breast muscle growth and IMF deposition in chickens. A Hi-C study reveals the dynamic chromatin architecture of breast muscle and gene expression affected by breed-specific 3D genome architecture that may influence muscle growth and intramuscular fat deposition between fast-growing and slow-growing chickens. [ABSTRACT FROM AUTHOR]

Published

2024

224. MiR-29b-1-5p regulates the proliferation and differentiation of chicken primary myoblasts and analysis of its effective targets

Author

Li, Yuanfang, Zhai, Bin, Yuan, Pengtao, Fan, Shengxin, Jin, Wenjiao, Li, Wenting, Sun, Guirong, Tian, Yadong, Liu, Xiaojun, Kang, Xiangtao, and Li, Guoxi

Abstract

Several recent studies investigated the role of the miR-29 family in muscle development. However, only a few studies focused on chicken skeletal muscle. In the present study, cell cycle, 5-ethynyl-2’-deoxyuridine (EdU), cell counting kit-8 (CCK-8), and other assays indicated that miR-29b-1-5p can inhibit the proliferation of chicken primary myoblasts (CPMs); the western blot assay and immunofluorescence detection of myosin heavy chain (MyHC) demonstrated that miR-29b-1-5p can promote the differentiation of myoblasts. The functional enrichment analysis revealed that the target genes of miR-29b-1-5p may be involved in muscle tissue development, muscle organ development, and striated muscle tissue development, which are biological processes related to muscle development. The correlation analysis showed that these 6 genes, i.e., ankyrin repeat domain 9 (ANKRD9), lactate dehydrogenase A (LDHA), ankyrin repeat domain 9 (TCF12), ankyrin repeat domain 9 (FAT1), ankyrin repeat domain 9 (LIN9) and ankyrin repeat domain 9 (ITGB3BP), can be used as effective candidate target genes of miR-29b-1-5p. Moreover, miR-29b-1-5p inhibits the expression of ANKRD9by directly binding the 3′UTR of ANKRD9. Overall, these data indicate that miR-29b-1-5p inhibits the proliferation of primary chicken myoblasts, stimulates their differentiation, and is involved in the process of muscle development and that its effective target gene is ANKRD9. This study identified the molecular mechanism of miR-29b-1-5p in chicken muscle development.

Published

2021

225. Evolution, dynamic expression changes and regulatory characteristics of gene families involved in the glycerophosphate pathway of triglyceride synthesis in chicken (Gallus gallus).

Author

Yang, Liyu, Liu, Ziming, Ou, Kepeng, Wang, Taian, Li, Zhuanjian, Tian, Yadong, Wang, Yanbin, Kang, Xiangtao, Li, Hong, and Liu, Xiaojun

Subjects

TRIGLYCERIDES, CHICKENS, ESTROGEN, LIPID metabolism, REVERSE transcriptase polymerase chain reaction

Abstract

It is well documented that four gene families, including the glycerophosphate acyltransferases (GPATs), acylglycerophosphate acyltransferases (AGPATs), lipid phosphate phosphohydrolases (LPINs) and diacylglycerol acyltransferases (DGATs), are involved in the glycerophosphate pathway of de novo triglyceride (TG) biosynthesis in mammals. However, no systematic analysis has been conducted to characterize the gene families in poultry. In this study, the sequences of gene family members in the glycerophosphate pathway were obtained by screening the public databases. The phylogenetic tree, gene structures and conserved motifs of the corresponding proteins were evaluated. Dynamic expression changes of the genes at different developmental stages were analyzed by qRT-PCR. The regulatory characteristics of the genes were analyzed by in vivo experiments. The results showed that the GPAT, AGPAT and LPIN gene families have 2, 7 and 2 members, respectively, and they were classified into 2, 4 and 2 cluster respectively based on phylogenetic analysis. All of the genes except AGPAT1 were extensively expressed in various tissues. Estrogen induction upregulated the expression of GPAM and AGPAT2, downregulated the expression of AGPAT3, AGPAT9, LPIN1 and LPIN2, and had no effect on the expression of the other genes. These findings provide a valuable resource for further investigation of lipid metabolism in liver of chicken. [ABSTRACT FROM AUTHOR]

Published

2019

226. Molecular characterization and an 80-bp indel polymorphism within the prolactin receptor (PRLR) gene and its associations with chicken growth and carcass traits.

Author

Liang, Ke, Wang, Xiangnan, Tian, Xiaoxiao, Geng, Rui, Li, Wenya, Jing, Zhenzhu, Han, Ruili, Tian, Yadong, Liu, Xiaojun, Kang, Xiangtao, and Li, Zhuanjian

Subjects

PROLACTIN, HENS, CYTOKINE receptors, CHICKENS, BODY weight, GENES

Abstract

The prolactin receptor (PRLR), a type I cytokine receptor, must bind prolactin (PRL) to act on target cells to mediate various physiological functions, including reproduction and lactation. This study identified an 80-bp insertion/deletion (indel) polymorphism in the 3′-untranslated region (3′-UTR) of the chicken PRLR gene in 3736 individuals from 15 breeds and analyzed its associations with growth and carcass traits in an F2 resource population. The results of the association analysis indicated that the 80-bp indel polymorphism was significantly (P < 0.05) or very significantly (P < 0.01) associated with multiple growth and carcass traits, such as body weight, leg weight, and shank length. In addition, we found that during the breeding process of commercial laying hens and commercial broilers, the 80-bp indel locus was artificially selected for the II genotype. Together, our findings reveal that this 80-bp indel polymorphism has potential as a new molecular marker for marker-assisted selection of chicken growth and carcass traits. [ABSTRACT FROM AUTHOR]

Published

2019

227. Fasting-Induced Molting Impacts the Intestinal Health by Altering the Gut Microbiota.

Author

Zhang, Hao, Zhang, Yihui, Gong, Yujie, Zhang, Jun, Li, Donghua, Tian, Yadong, Han, Ruili, Guo, Yujie, Sun, Guirong, Li, Wenting, Zhang, Yanhua, Zhao, Xinlong, Zhang, Xiaoran, Wang, Pengyu, Kang, Xiangtao, and Jiang, Ruirui

Subjects

*GUT microbiome, *PROBIOTICS, *FASTING, *INFLAMMATORY bowel diseases, *INTESTINES, *MOLTING, *HENS

Abstract

Simple Summary: In poultry production, fasting can remodel ovarian function and thereby delay the aging process of chickens. However, this approach may induce various stresses on the intestinal health of chickens. So, intestinal injury, the microbiome, and the metabolome were analyzed individually and integrated to elucidate the impact of the intestinal flora on intestinal injury during fasting-induced molting (FIM). The findings revealed that fasting led to intestinal villus atrophy, inflammation in the intestines, and disruption of gut microbiota and metabolites. During the fasting period, intestinal injury is associated with an increased abundance of Escherichia_Shigella and related metabolites Citrulline and Sterobilin, as well as a decreased abundance of Ruminococcaceae_UCG-013 and Lactobacillus and related metabolites Lanthionine and reduced Glutathione. This provides an experimental basis for improving the gut microbiota and reducing intestinal inflammation during the FIM process. Fasting-induced molting (FIM) is a common method used to improve the laying performance of aged laying hens. Nevertheless, this approach may impose various stresses on chickens, such as disruptions in intestinal flora and inflammation issues within the intestines. However, the impact of an imbalance in intestinal flora on intestinal health during the FIM process remains elusive. Therefore, intestinal injury, the microbiome, and the metabolome were analyzed individually and integrated to elucidate the impact of the intestinal flora on intestinal health during the FIM process. The findings indicated that fasting resulted in a notable reduction in villus height and villus/crypt ratio, coupled with elevated levels of intestinal inflammation and permeability. During the fasting period, microbiota compositions changed. The abundance of Escherichia_Shigella increased, while the abundance of Ruminococcaceae_UCG-013 and Lactobacillus decreased. Escherichia_Shigella was positively correlated with Citrinin and Sterobilin, which lead to intestinal inflammation. Ruminococcaceae_UCG-013 and Lactobacillus exhibited positive correlations with Lanthionine and reduced Glutathione, thereby reducing intestinal inflammation. This study screened the intestinal probiotics, Ruminococcaceae UCG-013 and Lactobacillus, that influence gut health during the fasting period, providing an experimental basis for improving gut microbiota and reducing intestinal inflammation during the FIM process. [ABSTRACT FROM AUTHOR]

Published

2024

228. Duck pan‐genome reveals two transposon insertions caused bodyweight enlarging and white plumage phenotype formation during evolution.

Author

Wang, Kejun, Hua, Guoying, Li, Jingyi, Yang, Yu, Zhang, Chenxi, Yang, Lan, Hu, Xiaoyu, Scheben, Armin, Wu, Yanan, Gong, Ping, Zhang, Shuangjie, Fan, Yanfeng, Zeng, Tao, Lu, Lizhi, Gong, Yanzhang, Jiang, Ruirui, Sun, Guirong, Tian, Yadong, Kang, Xiangtao, and Hu, Haifei

Subjects

*PAN-genome, *QUANTITATIVE genetics, *MOLECULAR genetics, *PHENOTYPES, *FEATHERS, *GENE ontology

Abstract

Structural variations (SVs) are a major source of domestication and improvement traits. We present the first duck pan‐genome constructed using five genome assemblies capturing ∼40.98 Mb new sequences. This pan‐genome together with high‐depth sequencing data (∼46.5×) identified 101,041 SVs, of which substantial proportions were derived from transposable element (TE) activity. Many TE‐derived SVs anchoring in a gene body or regulatory region are linked to duck's domestication and improvement. By combining quantitative genetics with molecular experiments, we, for the first time, unraveled a 6945 bp Gypsy insertion as a functional mutation of the major gene IGF2BP1 associated with duck bodyweight. This Gypsy insertion, to our knowledge, explains the largest effect on bodyweight among avian species (27.61% of phenotypic variation). In addition, we also examined another 6634 bp Gypsy insertion in MITF intron, which triggers a novel transcript of MITF, thereby contributing to the development of white plumage. Our findings highlight the importance of using a pan‐genome as a reference in genomics studies and illuminate the impact of transposons in trait formation and livestock breeding. Highlights: We present the first duck pan‐genome constructed using five genome assemblies capturing ∼40.98 Mb new sequences absent from the reference genome.We find a significant portion of the detected structural variants were derived from transposable element (TE) activity. Many of these are located within gene bodies or regulatory regions, potentially linked to duck domestication and enhancement.We used two representative examples to show how TE insertions can lead phenotypic diversity, highlighting IGF2BP1's role in bodyweight and MITF's influence on white plumage in ducks.Notably, the Gypsy insertion in the IGF2BP1 promoter, to our knowledge, explains the largest effect on bodyweight among avian species (27.61% of phenotypic variation). [ABSTRACT FROM AUTHOR]

Published

2024

229. STC2 Inhibits Hepatic Lipid Synthesis and Correlates with Intramuscular Fatty Acid Composition, Body Weight and Carcass Traits in Chickens.

Author

Cao, Yuzhu, Jia, Qihui, Xing, Yuxin, Ma, Chenglin, Guan, Hongbo, Tian, Weihua, Kang, Xiangtao, Tian, Yadong, Liu, Xiaojun, and Li, Hong

Subjects

*LIPID synthesis, *OMEGA-6 fatty acids, *OMEGA-3 fatty acids, *BODY weight, *CHICKEN as food, *LIPIDS, *FATTY acids, *FAT

Abstract

Simple Summary: The effect of Scalarpin 2 (STC2) on chicken hepatic lipid metabolism is still unknown. In this study, we found that genetic variation rs9949205 occurring in the STC2 was significantly associated with chicken body weight at different weeks and carcass traits. The inhibitory effect of STC2 on lipid synthesis in LMH cells was observed, and its expression level in muscle showed a significant association with 176 lipids, predominantly enriched in essential omega-3 and omega-6 fatty acids. The evidence suggests that STC2 involved growth and development, as well as lipid metabolism in chickens. Stanniocalcin 2 (STC2) is a secreted glycoprotein involved in multiple biological processes. To systemically study the biological role of STC2 in chickens, phylogenetic tree analysis and conservation analysis were conducted. Association analysis between variations in the STC2 gene and the economic traits of Gushi-Anka F2 was conducted. The tissue expression patterns of STC2 expression in different chicken tissues and liver at different stages were detected. The biological role of STC2 in chicken liver was investigated through overexpression and interfering methods in the LMH cell line. Correlation analyses between STC2 expression and lipid components were conducted. (1) The phylogenetic tree displayed that chicken STC2 is most closely related with Japanese quail and most distantly related with Xenopus tropicalis. STC2 has the same identical conserved motifs as other species. (2) rs9949205 (T > C) found in STC2 intron was highly significantly correlated with chicken body weight at 0, 2, 4, 6, 8, 10 and 12 weeks (p < 0.01). Extremely significant correlations of rs9949205 with semi-evisceration weight (SEW), evisceration weight (EW), breast muscle weight (BMW), leg muscle weight (LMW), liver weight and abdominal fat weight (AFW) were revealed (p < 0.01). Significant associations between rs9949205 and abdominal fat percentage, liver weight rate, breast muscle weight rate and leg muscle weight rate were also found (p < 0.05). Individuals with TT or TC genotypes had significantly lower abdominal fat percentage and liver weight rate compared to those with the CC genotype, while their body weight and other carcass traits were higher. (3) STC2 showed a high expression level in chicken liver tissue, which significantly increased with the progression of age (p < 0.05). STC2 was observed to inhibit the content of lipid droplets, triglycerides (TG) and cholesterol (TC), as well the expression level of genes related to lipid metabolism in LMH cells. (4) Correlation analysis showed that the STC2 gene was significantly correlated with 176 lipids in the breast muscle (p < 0.05) and mainly enriched in omega-3 and omega-6 unsaturated fatty acids. In conclusion, the STC2 gene in chicken might potentially play a crucial role in chicken growth and development, as well as liver lipid metabolism and muscle lipid deposition. This study provides a scientific foundation for further investigation into the regulatory mechanism of the STC2 gene on lipid metabolism and deposition in chicken liver. [ABSTRACT FROM AUTHOR]

Published

2024

230. Genomic Insights into Molecular Regulation Mechanisms of Intramuscular Fat Deposition in Chicken.

Author

Cao, Yuzhu, Xing, Yuxin, Guan, Hongbo, Ma, Chenglin, Jia, Qihui, Tian, Weihua, Li, Guoxi, Tian, Yadong, Kang, Xiangtao, Liu, Xiaojun, and Li, Hong

Subjects

*CHICKENS, *CHICKEN as food, *GENOME-wide association studies, *POULTRY breeding, *MEAT flavor & odor

Abstract

Intramuscular fat (IMF) plays an important role in the tenderness, water-holding capacity, and flavor of chicken meat, which directly affect meat quality. In recent years, regulatory mechanisms underlying IMF deposition and the development of effective molecular markers have been hot topics in poultry genetic breeding. Therefore, this review focuses on the current understanding of regulatory mechanisms underlying IMF deposition in chickens, which were identified by multiple genomic approaches, including genome-wide association studies, whole transcriptome sequencing, proteome sequencing, single-cell RNA sequencing (scRNA-seq), high-throughput chromosome conformation capture (HiC), DNA methylation sequencing, and m6A methylation sequencing. This review comprehensively and systematically describes genetic and epigenetic factors associated with IMF deposition, which provides a fundamental resource for biomarkers of IMF deposition and provides promising applications for genetic improvement of meat quality in chicken. [ABSTRACT FROM AUTHOR]

Published

2023

231. Weighted gene co-expression network analysis identified hub genes critical to fatty acid composition in Gushi chicken breast muscle.

Author

Zhai, Bin, Zhao, Yinli, Li, Hongtai, Li, Shuaihao, Gu, Jinxing, Zhang, Hongyuan, Zhang, Yanhua, Li, Hong, Tian, Yadong, Li, Guoxi, and Wang, Yongcai

Subjects

*CHICKEN as food, *FATTY acids, *GENE regulatory networks, *BREAST, *ERECTOR spinae muscles, *MEAT quality, *GENES, *PROTEIN-protein interactions

Abstract

Background: The composition and content of fatty acids in the breast muscle are important factors influencing meat quality. In this study, we investigated the fatty acid composition and content in the breast muscle of Gushi chickens at different developmental stages (14 weeks, 22 weeks, and 30 weeks). Additionally, we utilized transcriptomic data from the same tissue and employed WGCNA and module identification methods to identify key genes associated with the fatty acid composition in Gushi chicken breast muscle and elucidate their regulatory networks. Results: Among them, six modules (blue, brown, green, light yellow, purple, and red modules) showed significant correlations with fatty acid content and metabolic characteristics. Enrichment analysis revealed that these modules were involved in multiple signaling pathways related to fatty acid metabolism, including fatty acid metabolism, PPAR signaling pathway, and fatty acid biosynthesis. Through analysis of key genes, we identified 136 genes significantly associated with fatty acid phenotypic traits. Protein–protein interaction network analysis revealed that nine of these genes were closely related to fatty acid metabolism. Additionally, through correlation analysis of transcriptome data, we identified 51 key ceRNA regulatory networks, including six central genes, 7 miRNAs, and 28 lncRNAs. Conclusion: This study successfully identified key genes closely associated with the fatty acid composition in Gushi chicken breast muscle, as well as their post-transcriptional regulatory networks. These findings provide new insights into the molecular regulatory mechanisms underlying the flavor characteristics of chicken meat and the composition of fatty acids in the breast muscle. [ABSTRACT FROM AUTHOR]

Published

2023

232. miR-128-3p inhibits intramuscular adipocytes differentiation in chickens by downregulating FDPS.

Author

Zhu, Shuaipeng, Zhang, Binbin, Zhu, Tingqi, Wang, Dongxue, Liu, Cong, Liu, Yixuan, He, Yuehua, Liang, Wenjie, Li, Wenting, Han, Ruili, Li, Donghua, Yan, Fengbin, Tian, Yadong, Li, Guoxi, Kang, Xiangtao, Li, Zhuanjian, Jiang, Ruirui, and Sun, Guirong

Subjects

*ADIPOGENESIS, *MICRORNA, *CHICKEN as food, *FAT cells, *MEAT quality, *FLAVOR, *CHICKENS, *ADIPOSE tissue physiology

Abstract

Background: Intramuscular fat (IMF) content is the major indicator for evaluating chicken meat quality due to its positive correlation with tenderness, juiciness, and flavor. An increasing number of studies are focusing on the functions of microRNAs (miRNAs) in intramuscular adipocyte differentiation. However, little is known about the association of miR-128-3p with intramuscular adipocyte differentiation. Our previous RNA-seq results indicated that miR-128-3p was differentially expressed at different periods in chicken intramuscular adipocytes, revealing a possible association with intramuscular adipogenesis. The purpose of this research was to investigate the biological functions and regulatory mechanism of miR-128-3p in chicken intramuscular adipogenesis. Results: The results of a series of assays confirmed that miR-128-3p could promote the proliferation and inhibit the differentiation of intramuscular adipocytes. A total of 223 and 1,050 differentially expressed genes (DEGs) were identified in the mimic treatment group and inhibitor treatment group, respectively, compared with the control group. Functional enrichment analysis revealed that the DEGs were involved in lipid metabolism-related pathways, such as the MAPK and TGF-β signaling pathways. Furthermore, target gene prediction analysis showed that miR-128-3p can target many of the DEGs, such as FDPS, GGT5, TMEM37, and ASL2. The luciferase assay results showed that miR-128-3p targeted the 3' UTR of FDPS. The results of subsequent functional assays demonstrated that miR-128-3p acted as an inhibitor of intramuscular adipocyte differentiation by targeting FDPS. Conclusion: miR-128-3p inhibits chicken intramuscular adipocyte differentiation by downregulating FDPS. Our findings provide a theoretical basis for the study of lipid metabolism and reveal a potential target for molecular breeding to improve meat quality. [ABSTRACT FROM AUTHOR]

Published

2023

233. Effects of SLC45A2 and GPNMB on Melanin Deposition Based on Transcriptome Sequencing in Chicken Feather Follicles.

Author

Li, Ruiting, Wang, Yanxing, Liu, Yihan, Li, Donghua, Tian, Yadong, Liu, Xiaojun, Kang, Xiangtao, and Li, Zhuanjian

Subjects

*MELANINS, *CHICKENS, *COLOR of birds, *TRANSCRIPTOMES, *FEATHERS, *MELANOCYTES

Abstract

Simple Summary: Understanding the molecular mechanisms involved in feather color formation is important because coloration is one of the most recognizable characteristics in chickens. In this study, after transcrip-tome sequencing of the wing and neck feather follicle tissues of chickens with different plumage colors, we retrieved differentially expressed genes (DEGs) with the same trends in both the wing and neck and then identified DEGs that may be associated with melanin deposition through GO and KEGG annotation and PPI analysis. Finally, we verified that two genes in chicken melanocytes, SLC45A2 and GPNMB, promote melanocyte melanin deposition in chickens. As an essential genetic and economic trait, chicken feather color has long been an important research topic. To further understand the mechanism of melanin deposition associated with coloration in chicken feathers, we selected feather follicle tissues from the neck and wings of chickens with differently colored feathers (yellow, sub-Columbian, and silver) for transcriptome analysis. We focused on genes that were expressed in both the wings and neck and were expressed with the same trends in breeds with two different plumage colors, specifically, SLC45A2, GPNMB, MLPH, TYR, KIT, WNT11, and FZD1. GO and KEGG enrichment analyses showed the DEGs were enriched in melanin-related pathways, such as tyrosine metabolic pathway and melanogenesis, and PPI analysis highlighted the genes SLC45A2 and GPNMB as associated with melanin deposition. Verification experiments in chicken melanocytes demonstrated that these two genes promote melanocyte melanin deposition. These data enrich our knowledge of the mechanisms that regulate chicken feather color. [ABSTRACT FROM AUTHOR]

Published

2023

234. Genetic architecture and key regulatory genes of fatty acid composition in Gushi chicken breast muscle determined by GWAS and WGCNA.

Author

Fan, Shengxin, Yuan, Pengtao, Li, Shuaihao, Li, Hongtai, Zhai, Bin, Li, Yuanfang, Zhang, Hongyuan, Gu, Jinxin, Li, Hong, Tian, Yadong, Kang, Xiangtao, Zhang, Yanhua, and Li, Guoxi

Subjects

*CHICKEN as food, *REGULATOR genes, *BREAST, *FATTY acids, *UNSATURATED fatty acids, *ERECTOR spinae muscles, *GENOME-wide association studies

Abstract

Background: Fatty acids composition in poultry muscle is directly related to its tenderness, flavour, and juiciness, whereas its genetic mechanisms have not been elucidated. In this study, the genetic structure and key regulatory genes of the breast muscle fatty acid composition of local Chinese chicken, Gushi-Anka F2 resource population by integrating genome-wide association study (GWAS) and weighted gene co-expression network analysis (WGCNA) strategies. GWAS was performed based on 323,306 single nucleotide polymorphisms (SNPs) obtained by genotyping by sequencing (GBS) method and 721 chickens from the Gushi-Anka F2 resource population with highly variable fatty acid composition traits in the breast muscle. And then, according to the transcriptome data of the candidate genes that were obtained and phenotypic data of fatty acid composition traits in breast muscle of Gushi chickens at 14, 22, and 30 weeks of age, we conducted a WGCNA. Results: A total of 128 suggestive significantly associated SNPs for 11 fatty acid composition traits were identified and mapped on chromosomes (Chr) 2, 3, 4, 5, 13, 17, 21, and 27. Of these, the two most significant SNPs were Chr13:5,100,140 (P = 4.56423e-10) and Chr13:5,100,173 (P = 4.56423e-10), which explained 5.6% of the phenotypic variation in polyunsaturated fatty acids (PUFA). In addition, six fatty acid composition traits, including C20:1, C22:6, saturated fatty acid (SFA), unsaturated fatty acids (UFA), PUFA, and average chain length (ACL), were located in the same QTL intervals on Chr13. We obtained 505 genes by scanning the linkage disequilibrium (LD) regions of all significant SNPs and performed a WGCNA based on the transcriptome data of the above 505 genes. Combining two strategies, 9 hub genes (ENO1, ADH1, ASAH1, ADH1C, PIK3CD, WISP1, AKT1, PANK3, and C1QTNF2) were finally identified, which could be the potential candidate genes regulating fatty acid composition traits in chicken breast muscle. Conclusion: The results of this study deepen our understanding of the genetic mechanisms underlying the regulation of fatty acid composition traits, which is helpful in the design of breeding strategies for the subsequent improvement of fatty acid composition in poultry muscle. [ABSTRACT FROM AUTHOR]

Published

2023

235. Transcriptome identification and characterization of long non-coding RNAs in the ovary of hens at four stages.

Author

Li, Qi, Li, Jing, Li, Chong, Wu, Xing, Si, Sujin, Yang, Pengkun, Li, Wenting, Han, Ruili, Li, Guoxi, Liu, Xiaojun, Kang, Xiangtao, and Tian, Yadong

Subjects

*LINCRNA, *OVARIES, *FOCAL adhesions, *HENS, *TRANSCRIPTOMES

Abstract

Long non-coding RNAs (lncRNAs) play important roles in transcriptional and post-transcriptional regulation. LncRNAs, which are defined as non-coding RNAs more than 200 bp in length, are involved in key biological processes, such as cell proliferation and differentiation, epigenetic regulation, and gene transcriptional translation. Recent studies have shown that lncRNAs also play major regulatory roles in the reproduction of mammals. However, knowledge of the roles of lncRNAs in the chicken ovary lacking. In this study, we performed RNA-seq analyses of ovarian tissue from Hy-Line brown laying hens at four physiological stages [15, 20, 30, and 68 weeks of age (W)]. We identified 657 lncRNA transcripts that were differentially expressed during ovarian development, the number of down-regulated lncRNAs was higher than the number of up-regulated lncRNAs during development. We predicted the cis and trans target genes of the DE lncRNAs and constructed a lncRNA-mRNA interaction network, which indicated that the DE genes (DEGs) and the target genes of the DE lncRNAs are mainly involved in signaling pathways associated with ovarian development, including oocyte meiosis, calcium signaling pathways, ECM-receptor interactions, and ribosome and focal adhesion. Overall, we found that twelve lncRNAs were strongly involved in ovarian development: LNC_013443, LNC_001029, LNC_005713, LNC_016762, ENSGALT00000101857, LNC_003913, LNC_013692, LNC_012219, LNC_004140, ENSGALT00000096941, LNC_009356, and ENSGALT00000098716. In summary, our study utilized RNA-seq analysis of hen ovaries to explore key lncRNAs involved in ovarian development and function. Furthermore, the comprehensive analysis identified the target genes of these lncRNAs providing a better understanding of the mechanisms underlying ovarian development in hens and a theoretical basis for further research. [ABSTRACT FROM AUTHOR]

Published

2023

236. Transcriptome-Based Identification of the Muscle Tissue-Specific Expression Gene CKM and Its Regulation of Proliferation, Apoptosis and Differentiation in Chicken Primary Myoblasts.

Author

Chen, Bingjie, Wang, Yanxing, Hou, Dan, Zhang, Yushi, Zhang, Bochun, Niu, Yufang, Ji, Haigang, Tian, Yadong, Liu, Xiaojun, Kang, Xiangtao, Cai, Hanfang, and Li, Zhuanjian

Subjects

*CHICKENS, *GENE expression, *RNA interference, *CHICKEN as food, *MYOBLASTS, *SKELETAL muscle, *ANIMAL breeding, *BREAST

Abstract

Simple Summary: The study of skeletal muscle growth and development has historically been viewed as an entry point and as a breakthrough event in the improvement of animal breeding in the livestock industry. Muscle is the major constituent of any meat product, and its growth performance and the resulting product quality are the core foci of modern breeding. In this study, we found that creatine kinase M-type-like (CKM) was specifically highly expressed in chicken muscle tissue. The quantitative real-time PCR (qPCR) results were consistent with the sequencing results. By overexpressing CKM and interfering with CKM expression in chicken primary myoblasts, we found that CKM could inhibit the proliferation and promote the apoptosis and differentiation of chicken primary myoblasts. Moreover, the transcriptome sequencing results after interference with CKM expression indicated that CKM is involved in chicken skeletal muscle development. These results suggest that CKM may play a crucial role in chicken muscle growth and development. Skeletal muscle is an essential tissue in meat-producing animals, and meat-producing traits have been a hot topic in chicken genetic breeding research. Current research shows that creatine kinase M-type-like (CKM) is one of the most abundant proteins in skeletal muscle and plays an important role in the growth and development of skeletal muscle, but its role in the development of chicken skeletal muscle is still unclear. Via RNA sequencing (RNA-seq), we found that CKM was highly expressed in chicken breast muscle tissue. In this study, the expression profile of CKM was examined by quantitative real-time PCR (qPCR), and overexpression and RNA interference techniques were used to explore the functions of CKM in the proliferation, apoptosis and differentiation of chicken primary myoblasts (CPMs). It was shown that CKM was specifically highly expressed in breast muscle and leg muscle and was highly expressed in stage 16 embryonic muscle, while CKM inhibited proliferation, promoted the apoptosis and differentiation of CPMs and was involved in regulating chicken myogenesis. Transcriptome sequencing was used to identify genes that were differentially expressed in CPMs after CKM disruption, and bioinformatics analysis showed that CKM was involved in regulating chicken myogenesis. In summary, CKM plays an important role in skeletal muscle development during chicken growth and development. [ABSTRACT FROM AUTHOR]

Published

2023

237. Transcriptome analysis reveals FABP5 as a key player in the development of chicken abdominal fat, regulated by miR-122-5p targeting.

Author

Zhai, Bin, Li, Hongtai, Li, Shuaihao, Gu, Jinxing, Zhang, Hongyuan, Zhang, Yanhua, Li, Hong, Tian, Yadong, Li, Guoxi, and Wang, Yongcai

Subjects

*ABDOMINAL adipose tissue, *CHICKENS, *ADIPOSE tissues, *TRANSCRIPTOMES, *TIME series analysis, *FAT

Abstract

Background: The development of abdominal fat and meat quality are closely related and can impact economic efficiency. In this study, we conducted transcriptome sequencing of the abdominal fat tissue of Gushi chickens at 6, 14, 22, and 30 weeks, and selected key miRNA-mRNA regulatory networks related to abdominal fat development through correlation analysis. Results: A total of 1893 differentially expressed genes were identified. Time series analysis indicated that at around 6 weeks, the development of chicken abdominal fat was extensively regulated by the TGF-β signaling pathway, Wnt signaling pathway, and PPAR signaling pathway. However, at 30 weeks of age, the apoptosis signaling pathway was the most significant, and correlation analysis revealed several genes highly correlated with abdominal fat development, including Fatty Acid Binding Protein 5 (FABP5). Based on miRNA transcriptome data, it was discovered that miR-122-5p is a potential target miRNA for FABP5. Cell experiments showed that miR-122-5p can directly target FABP5 to promote the differentiation of preadipocytes. Conclusion: The present study confirms that the key gene FABP5 and its target gene miR-122-5p are critical regulatory factors in the development of chicken abdominal fat. These results provide new insights into the molecular regulatory mechanisms associated with the development of abdomen-al fat in chickens. [ABSTRACT FROM AUTHOR]

Published

2023

238. Population Structure and Genetic Diversity Analysis of "Yufen 1" H Line Chickens Using Whole-Genome Resequencing.

Author

Liu, Cong, Wang, Dongxue, He, Yuehua, Liang, Wenjie, Li, Wenting, Wang, Kejun, Li, Donghua, Li, Zhuanjian, Tian, Yadong, Kang, Xiangtao, and Sun, Guirong

Subjects

*GENETIC variation, *CHICKEN breeds, *GERMPLASM, *POULTRY breeding, *CATTLE genetics, *PRINCIPAL components analysis

Abstract

The effective protection and utilization of poultry resources depend on an accurate understanding of the genetic diversity and population structure. The breeding of the specialized poultry lineage "Yufen 1", with its defined characteristics, was approved by the China Poultry Genetic Resource Committee in 2015. Thus, to investigate the relationship between the progenitor H line and other poultry breeds, the genetic diversity and population structure of "Yufen 1" H line (YF) were investigated and compared with those of 2 commercial chicken breeds, the ancestor breed Red Jungle Fowls, and 11 Chinese indigenous chicken breeds based on a whole-genome resequencing approach using 8,112,424 SNPs. The genetic diversity of YF was low, and the rate of linkage disequilibrium decay was significantly slower than that of the other Chinese indigenous breeds. In addition, it was shown that the YF population was strongly selected during intensive breeding and that genetic resources have been seriously threatened, which highlights the need to establish a systematic conservation strategy as well as utilization techniques to maintain genetic diversity within YF. Moreover, a principal component analysis, a neighbor-joining tree analysis, a structure analysis, and genetic differentiation indices indicated that YF harbors a distinctive genetic resource with a unique genetic structure separate from that of Chinese indigenous breeds at the genome level. The findings provide a valuable resource and the theoretical basis for the further conservation and utilization of YF. [ABSTRACT FROM AUTHOR]

Published

2023

239. Integration Analysis of circRNA–miRNA–mRNA and Identification of Critical Networks in Valgus-Varus Deformity (Gallus gallus).

Author

Li, Jianzeng, Ma, Yanchao, Cai, Chunxia, Zhang, Lujie, Liu, Xinxin, Jiang, Ruirui, Li, Donghua, Li, Zhuanjian, Kang, Xiangtao, Tian, Yadong, and Han, Ruili

Subjects

*CHICKENS, *HUMAN abnormalities, *CELL cycle proteins, *MUSCLE growth, *CELL cycle, *HUMAN fingerprints

Abstract

Valgus-valgus deformity (VVD) is a common leg deformity in broilers with inward or outward deviation of the tibiotarsus and tarsometatarsus. The competing endogenous RNA (ceRNA) network plays an essential role in the study of leg disease. However, its role in the etiology and pathogenesis of VVD remains unclear. Here, based on case (VVD) and control (normal) group design, we performed analyses of differentially expressed circRNAs (DEcircRNAs), differentially expressed miRNAs (DEmiRNAs) and differentially expressed mRNAs (DEmRNAs). Transcriptome data derived 86 DEcircRNAs, 13 DEmiRNAs and 410 DEmRNAs. Functional analysis showed that DEmRNAs were significantly enriched in cell cycle, apoptosis, ECM-receptor interaction, FoxO signaling pathway and protein processing synthesis. DEcirc/miRNA-associated DEmRNAs were associated with skeletal and muscle growth and development pathways, including mTOR, Wnt, and VEGF signaling pathways. Subsequently, a circRNA–miRNA–mRNA regulatory network was constructed based on the ceRNA hypothesis, including 8 circRNAs, 6 miRNAs, and 31 mRNAs, which were significantly enriched in the skeletal developmental pathway. Finally, two key mRNAs (CDC20 and CTNNB1) and their regulatory axes were screened by the PPI network and cytohubba. The expression levels of CDC20 and CTNNB1 in cartilage and seven other tissues were also quantified by qPCR. In conclusion, we analyzed the functions of DEmRNA, DEcircRNA and DEmiRNA and constructed the hub ceRNA regulatory axis, and obtained two hub genes, CDC20 and CTNNB1. The study more deeply explored the etiology and pathogenesis of VVD and lays the foundation for further study of the role of the ceRNA network on skeletal development. [ABSTRACT FROM AUTHOR]

Published

2023

240. Genome-Wide Genetic Structure of Henan Indigenous Chicken Breeds.

Author

Zhi, Yihao, Wang, Dandan, Zhang, Ke, Wang, Yangyang, Geng, Wanzhuo, Chen, Botong, Li, Hong, Li, Zhuanjian, Tian, Yadong, Kang, Xiangtao, and Liu, Xiaojun

Subjects

*POULTRY breeding, *COLOR of birds, *MUSCLE growth, *CHICKEN breeds, *GENE flow, *BODY size, *SINGLE nucleotide polymorphisms, *PHENOTYPES

Abstract

Simple Summary: There are five indigenous chicken breeds in Henan Province, China; however, comprehensive knowledge of their genetic basis is lacking. Therefore, using whole genome resequencing, we examined the genetic make-up, genomic diversity, and migration history of the indigenous Henan chicken populations as well as the selection factors and genes behind the distinct phenotypes of Henan gamecocks. These results will make it easier to comprehend the traits of the germplasm and the potential for using native breeds from Henan. There are five indigenous chicken breeds in Henan Province, China. These breeds have their own unique phenotypic characteristics in terms of morphology, behavior, skin and feather color, and productive performance, but their genetic basis is not well understood. Therefore, we analyzed the genetic structure, genomic diversity, and migration history of Henan indigenous chicken populations and the selection signals and genes responsible for Henan gamecock unique phenotypes using whole genome resequencing. The results indicate that Henan native chickens clustered most closely with the chicken populations in neighboring provinces. Compared to other breeds, Henan gamecock's inbreeding and selection intensity were more stringent. TreeMix analysis revealed the gene flow from southern chicken breeds into the Zhengyang sanhuang chicken and from the Xichuan black-bone chicken into the Gushi chicken. Selective sweep analysis identified several genes and biological processes/pathways that were related to body size, head control, muscle development, reproduction, and aggression control. Additionally, we confirmed the association between genotypes of SNPs in the strong selective gene LCORL and body size and muscle development in the Gushi-Anka F2 resource population. These findings made it easier to understand the traits of the germplasm and the potential for using the Henan indigenous chicken. [ABSTRACT FROM AUTHOR]

Published

2023

241. Molecular Characterization, Expression Profile, and A 21-bp Indel within the ASB9 Gene and Its Associations with Chicken Production Traits.

Author

Qin, Panpan, Liu, Yang, Niu, Xinran, Liu, Yixuan, Zhang, Yushi, Niu, Yufang, Wang, Yanxing, Chen, Bingjie, Han, Ruili, Tian, Yadong, Liu, Xiaojun, Kang, Xiangtao, Jiang, Ruirui, and Li, Zhuanjian

Subjects

*GENE expression, *SUPPRESSORS of cytokine signaling, *SKELETAL muscle, *LEG muscles, *MUSCLE proteins, *MEMBRANE proteins, *SIMMENTAL cattle, *SWINE growth

Abstract

A growing number of studies have shown that members of the ankyrin repeat and suppressors of cytokine signaling (SOCS) box-containing protein (ASB) family are extensively involved in biological processes such as cell growth, tissue development, insulin signaling, ubiquitination, protein degradation, and skeletal muscle membrane protein formation, while the specific biological role of ankyrin-repeat and SOCS box protein 9 (ASB9) remains unclear. In this study, a 21 bp indel in the intron of ASB9 was identified for the first time in 2641 individuals from 11 different breeds and an F2 resource population, and differences were observed among individuals with different genotypes (II, ID, and DD). An association study of a cross-designed F2 resource population revealed that the 21-bp indel was significantly related to growth and carcass traits. The significantly associated growth traits were body weight (BW) at 4, 6, 8, 10, and 12 weeks of age; sternal length (SL) at 4, 8, and 12 weeks of age; body slope length (BSL) at 4, 8, and 12 weeks of age; shank girth (SG) at 4 and 12 weeks of age; tibia length (TL) at 12 weeks of age; and pelvic width (PW) at 4 weeks of age (p < 0.05). This indel was also significantly correlated with carcass traits including semievisceration weight (SEW), evisceration weight (EW), claw weight (CLW), breast muscle weight (BMW), leg weight (LeW), leg muscle weight (LMW), claw rate (CLR), and shedding weight (ShW) (p < 0.05). In commercial broilers, the II genotype was the dominant genotype and underwent extensive selection. Interestingly, the ASB9 gene was expressed at significantly higher levels in the leg muscles of Arbor Acres broilers than those of Lushi chickens, while the opposite was true for the breast muscles. In summary, the 21-bp indel in the ASB9 gene significantly influenced the expression of the ASB9 gene in muscle tissue and was associated with multiple growth and carcass traits in the F2 resource population. These findings suggested that the 21-bp indel within the ASB9 gene could be used in marker-assisted selection breeding for traits related to chicken growth. [ABSTRACT FROM AUTHOR]

Published

2023

242. The role of AdipoQ on proliferation, apoptosis, and hormone Secretion in chicken primary adenohypophysis cells.

Author

Wu, Xing, Tian, Yixiang, Zhang, Na, Ren, Yangguang, Zhang, Zihao, Zhao, Yudian, Guo, Yulong, Gong, Yujie, Zhang, Yanhua, Li, Donghua, Li, Hong, Jiang, Ruirui, Li, Guoxi, Liu, Xiaojun, Kang, Xiangtao, and Tian, Yadong

Subjects

*RNA interference, *GENE expression, *SMALL interfering RNA, *ENZYME-linked immunosorbent assay, *ANTERIOR pituitary gland, *SOMATOTROPIN receptors, *BCL genes

Abstract

Adiponectin (AdipoQ), an adipokine secreted by adipocytes, has been reported to exist widely in various cell types and tissues, including the adenohypophysis of chickens. However, the molecular mechanism by which AdipoQ regulates the function of chicken adenohypophysis remains elusive. In this study, we investigated the effects of AdipoQ on proliferation, apoptosis, secretion of related hormones (FSH, LH, TSH, GH, PRL and ACTH) and expression of related genes (FSHβ, LHβ, GnRHR, TSHβ, GH, PRL and ACTH) in primary adenohypophysis cells of chickens by using real-time fluorescent quantitative PCR (RT-qPCR), cell counting kit-8 (CCK-8), flow cytometry, enzyme-linked immunosorbent assay (ELISA) and Western blot (WB) assays. Our results showed that AdipoQ promoted the proliferation of chicken primary adenohypophysis cells, up-regulated the mRNA expression of proliferation-related genes CDK1, PCNA, CCND1 and P21 (P < 0.05), as well as the increased protein expression of CDK1 and PCNA (P < 0.05). Furthermore, AdipoQ inhibited apoptosis of chicken primary adenohypophysis cells, resulting in down-regulation of pro-apoptotic genes Caspase3, Fas , and FasL mRNA expression, and decreased Caspase3 protein expression (P < 0.05). Moreover, there was an up-regulation of anti-apoptotic gene Bcl2 mRNA and protein expression (P < 0.05). Additionally, AdipoQ suppressed the secretion of FSH, LH, TSH, GH, PRL, and ACTH (P < 0.05), as well as the mRNA expression levels of related genes (P < 0.05). Treatment with AdipoRon (a synthetic substitute for AdipoQ) and co-treatment with RNA interference targeting AdipoQ receptors 1/2 ( AdipoR1/2 ) had no effect on the secretion of FSH, LH, TSH, GH, PRL, and ACTH, as well as the mRNA expression levels of the related genes. This suggests that AdipoQ's regulation of hormone secretion and related gene expression is mediated by the AdipoR1/2 signaling axis. Importantly, we further demonstrated that the mechanism of AdipoQ on FSH, LH, TSH and GH secretion is realized through AMPK signaling pathway. In conclusion, we have revealed, for the first time the molecular mechanism by which AdipoQ regulates hormone secretion in chicken primary adenohypophysis cells. [ABSTRACT FROM AUTHOR]

Published

2024

243. CircRNAs Related to Breast Muscle Development and Their Interaction Regulatory Network in Gushi Chicken.

Author

Yuan, Pengtao, Zhao, Yinli, Li, Hongtai, Li, Shuaihao, Fan, Shengxin, Zhai, Bin, Li, Yuanfang, Han, Ruili, Liu, Xiaojun, Tian, Yadong, Kang, Xiangtao, Zhang, Yanhua, and Li, Guoxi

Subjects

*MUSCLE growth, *CIRCULAR RNA, *SKELETAL muscle, *CHICKENS, *BREAST, *RNA sequencing, *GENE regulatory networks

Abstract

Circular RNAs (circRNAs) play a significant regulatory role during skeletal muscle development. To identify circRNAs during postnatal skeletal muscle development in chickens, we constructed 12 cDNA libraries from breast muscle tissues of Chinese Gushi chickens at 6, 14, 22, and 30 weeks and performed RNA sequencing. In total, 2112 circRNAs were identified, and among them 79.92% were derived from exons. CircRNAs are distributed on all chromosomes of chickens, especially chromosomes 1–9 and Z. Bioinformatics analysis showed that each circRNA had an average of 38 miRNA binding sites, 61.32% of which have internal ribosomal entry site (IRES) elements. Furthermore, in total 543 differentially expressed circRNAs (DE-circRNAs) were identified. Functional enrichment analysis revealed that DE-circRNAs source genes are engaged in biological processes and muscle development-related pathways; for example, cell differentiation, sarcomere, and myofibril formation, mTOR signaling pathway, and TGF-β signaling pathway, etc. We also established a competitive endogenous RNA (ceRNA) regulatory network associated with skeletal muscle development. The results in this report indicate that circRNAs can mediate the development of chicken skeletal muscle by means of a complex ceRNA network among circRNAs, miRNAs, genes, and pathways. The findings of this study might help increase the number of known circRNAs in skeletal muscle tissue and offer a worthwhile resource to further investigate the function of circRNAs in chicken skeletal muscle development. [ABSTRACT FROM AUTHOR]

Published

2022

244. ELOVL gene family plays a virtual role in response to breeding selection and lipid deposition in different tissues in chicken (Gallus gallus).

Author

Wang, Dandan, Li, Xinyan, Zhang, Panpan, Cao, Yuzhu, Zhang, Ke, Qin, Panpan, Guo, Yulong, Li, Zhuanjian, Tian, Yadong, Kang, Xiangtao, Liu, Xiaojun, and Li, Hong

Subjects

*GENE families, *CHICKENS, *SIMMENTAL cattle, *GENETIC regulation, *UNSATURATED fatty acids, *LIPIDS, *CHICKEN breeds, *TRANSCRIPTION factors

Abstract

Background: Elongases of very long chain fatty acids (ELOVLs), a family of first rate-limiting enzymes in the synthesis of long-chain fatty acids, play an essential role in the biosynthesis of complex lipids. Disrupting any of ELOVLs affects normal growth and development in mammals. Genetic variations in ELOVLs are associated with backfat or intramuscular fatty acid composition in livestock. However, the effects of ELOVL gene family on breeding selection and lipid deposition in different tissues are still unknown in chickens. Results: Genetic variation patterns and genetic associations analysis showed that the genetic variations of ELOVL genes were contributed to breeding selection of commercial varieties in chicken, and 14 SNPs in ELOVL2-6 were associated with body weight, carcass or fat deposition traits. Especially, one SNP rs17631638T > C in the promoter of ELOVL3 was associated with intramuscular fat content (IMF), and its allele frequency was significantly higher in native and layer breeds compared to that in commercial broiler breeds. Quantitative real-time PCR (qRT-PCR) determined that the ELOVL3 expressions in pectoralis were affected by the genotypes of rs17631638T > C. In addition, the transcription levels of ELOVL genes except ELOVL5 were regulated by estrogen in chicken liver and hypothalamus with different regulatory pathways. The expression levels of ELOVL1-6 in hypothalamus, liver, abdominal fat and pectoralis were correlated with abdominal fat weight, abdominal fat percentage, liver lipid content and IMF. Noteworthily, expression of ELOVL3 in pectoralis was highly positively correlated with IMF and glycerophospholipid molecules, including phosphatidyl choline, phosphatidyl ethanolamine, phosphatidyl glycerol and phospholipids inositol, rich in ω-3 and ω-6 long-chain unsaturated fatty acids, suggesting ELOVL3 could contribute to intramuscular fat deposition by increasing the proportion of long-chain unsaturated glycerophospholipid molecules in pectoralis. Conclusions: In summary, we demonstrated the genetic contribution of ELOVL gene family to breeding selection for specialized varieties, and revealed the expression regulation of ELOVL genes and their potential roles in regulating lipid deposition in different tissues. This study provides new insights into understanding the functions of ELOVL family on avian growth and lipid deposition in different tissues and the genetic variation in ELOVL3 may aid the marker-assisted selection of meat quality in chicken. [ABSTRACT FROM AUTHOR]

Published

2022

245. gga-miR-449b-5p Regulates Steroid Hormone Synthesis in Laying Hen Ovarian Granulosa Cells by Targeting the IGF2BP3 Gene.

Author

Wu, Xing, Zhang, Na, Li, Jing, Zhang, Zihao, Guo, Yulong, Li, Donghua, Zhang, Yanhua, Gong, Yujie, Jiang, Ruirui, Li, Hong, Li, Guoxi, Liu, Xiaojun, Kang, Xiangtao, and Tian, Yadong

Subjects

*STEROID synthesis, *GRANULOSA cells, *HENS, *HORMONE synthesis, *STEROID hormones, *OVARIAN follicle

Abstract

Simple Summary: The aim of this study was to explore the regulatory effect of gga-miR-449b-5p on GC proliferation and steroidogenesis in laying hens. Our results showed that gga-miR-449b-5p had no effect on the proliferation of GCs, but regulated the expression of key genes involved in steroid synthesis and the secretion of P4 and E2. In addition, gga-miR-449b-5p could target IGF2BP3 and inhibit its mRNA and protein expression. Therefore, we concluded that gga-miR-449b-5p played an important role in the synthesis of steroid hormones in laying hens. MiRNAs have been found to be involved in the regulation of ovarian function as important post-transcriptional regulators, including regulators of follicular development, steroidogenesis, cell atresia, and even the development of ovarian cancer. In this study, we evaluated the regulatory role of gga-miR-449b-5p in follicular growth and steroid synthesis in ovarian granulosa cells (GCs) of laying hens through qRT-PCR, ELISAs, western blotting and dual-luciferase reporter assays, which have been described in our previous study. We demonstrated that gga-miR-449b-5p was widely expressed in granulosa and theca layers of the different-sized follicles, especially in the granulosa layer. The gga-miR-449b-5p had no significant effect on the proliferation of GCs, but could significantly regulate the expression of key steroidogenesis-related genes (StAR and CYP19A1) (p < 0.01) and the secretion of P4 and E2 (p < 0.01 and p < 0.05). Further research showed that gga-miR-449b-5p could target IGF2BP3 and downregulate the mRNA and protein expression of IGF2BP3 (p < 0.05). Therefore, this study suggests that gga-miR-449b-5p is a potent regulator of the synthesis of steroid hormones in GCs by targeting the expression of IGF2BP3 and may contribute to a better understanding of the role of functional miRNAs in laying hen ovarian development. [ABSTRACT FROM AUTHOR]

Published

2022

246. The long noncoding RNA lncMPD2 inhibits myogenesis by targeting the miR-34a-5p/THBS1 axis.

Author

Niu, Yufang, Zhang, Yushi, Tian, Weihua, Wang, Yanxing, Liu, Yang, Ji, Haigang, Cai, Hanfang, Han, Ruili, Tian, Yadong, Liu, Xiaojun, Kang, Xiangtao, and Li, Zhuanjian

Abstract

Long noncoding RNAs (lncRNAs) participate in regulating skeletal muscle development. However, little is known about their role in regulating chicken myogenesis. In this study, we identified a novel lncRNA, lncMPD2 , through transcriptome sequencing of chicken myoblasts at different developmental stages. Functionally, gain- and loss-of-function experiments showed that lncMPD2 inhibited myoblast proliferation and differentiation. Mechanistically, lncMPD2 directly bound to miR-34a-5p, and miR-34a-5p promoted myoblasts proliferation and differentiation and inhibited the mRNA and protein expression of its target gene THBS1. THBS1 inhibited myoblast proliferation and differentiation in vitro and delayed muscle regeneration in vivo. Furthermore, rescue experiments showed that lncMPD2 counteracted the inhibitory effects of miR-34a-5p on THBS1 and myogenesis-related gene mRNA and protein expression. In conclusion, lncMPD2 regulates the miR-34a-5p/ THBS1 axis to inhibit the proliferation and differentiation of myoblasts and skeletal muscle regeneration. This study provides more insight into the molecular regulatory network of skeletal muscle development, identifying novel potential biomarkers for improving chicken quality and increasing chicken yield. In addition, this study provides a potential goal for breeding strategies that minimize muscle damage in chickens. Schematic representation of the lncMPD2 -mediated regulatory mechanism in chicken thermogenesis. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

247. Effects of immunosuppression-associated gga-miR-146a-5p on immune regulation in chicken macrophages by targeting the IRKA2 gene.

Author

Zhu, Zhaoyan, Su, Aru, Wang, Bingxin, Yu, Yange, Wang, Xiaoran, Li, Xiaoxiao, Guo, Yujie, Zhou, Yancheng, Tian, Yadong, Sun, Guirong, Kang, Xiangtao, and Yan, Fengbin

Subjects

*GENE expression, *CHICKENS, *GENE targeting, *MOLECULAR mechanisms of immunosuppression, *INTERLEUKIN receptors, *GENE ontology, *REGULATOR genes

Abstract

Stress-induced immunosuppression (SIIS) is one of the common problems in intensive poultry production, which brings enormous economic losses to the poultry industry. Accumulating evidence has shown that microRNAs (miRNAs) were important regulators of gene expression in the immune system. However, the miRNA-mediated molecular mechanisms underlying SIIS in chickens are still poorly understood. This study aimed to investigate the biological functions and regulatory mechanism of miRNAs in chicken SIIS. A stress-induced immunosuppression model was successfully established via daily injection of dexamethasone and analyzed miRNA expression in spleen. Seventy-four differentially expressed miRNAs (DEMs) was identified, and 229 target genes of the DEMs were predicted. Functional enrichment analysis the target genes revealed pathways related to immunity, such as MAPK signaling pathway and FoxO signaling pathway. The candidate miRNA, gga-miR-146a-5p , was found to be significantly downregulated in the Dex-induced chicken spleen, and we found that Dex stimulation significantly inhibited the expression of gga-miR-146a-5p in Chicken macrophages (HD11). Flow cytometry, 5-ethynyl-2′-deoxyuridine (EdU), cell counting kit-8 (CCK-8) and other assays indicated that gga-miR-146a-5p can promote the proliferation and inhibit apoptosis of HD11 cells. A dual-luciferase reporter assay suggested that the Interleukin 1 receptor associated kinase 2 (IRAK2) gene, which encoded a transcriptional factor, was a direct target of gga-miR-146a-5p , gga-miR-146a-5p suppressed the post-transcriptional activity of IRAK2. These findings not only improve our understanding of the specific functions of miRNAs in avian stress but also provide potential targets for genetic improvement of stress resistance in poultry. • A total of 74 DEMs were obtained by RNA-seq and a total of 229 target genes of DEMs were predicted. • Gga-miR-146a-5p promoted the proliferation and inhibited the apoptosis of HD11 cells. • IRAK2 was target gene of gga-miR-146a-5p and inhibited by gga-miR-146a-5p. • Gga-miR-146a-5p regulates stress-induced immunosuppression in chicken by targeting the IRAK2 Gene. [ABSTRACT FROM AUTHOR]

Published

2024

248. Estrogen promotes gonadotropin-releasing hormone expression by regulating tachykinin 3 and prodynorphin systems in chicken.

Author

Wu, Xing, Zhang, Zihao, Li, Yijie, Zhao, Yudian, Ren, Yangguang, Tian, Yixiang, Hou, Meng, Guo, Yulong, Li, Qi, Tian, Weihua, Jiang, Ruirui, Zhang, Yanhua, Gong, Yujie, Li, Hong, Li, Guoxi, Liu, Xiaojun, Kang, Xiangtao, Li, Donghua, and Tian, Yadong

Subjects

*GENE expression, *GONADOTROPIN releasing hormone, *CHICKENS, *ESTROGEN receptors, *KISSPEPTINS, *PRECOCIOUS puberty

Abstract

The "KNDy neurons" located in the hypothalamic arcuate nucleus (ARC) of mammals are known to co-express kisspeptin, neurokinin B (NKB), and dynorphin (DYN), and have been identified as key mediators of the feedback regulation of steroid hormones on gonadotropin-releasing hormone (GnRH). However, in birds, the genes encoding kisspeptin and its receptor GPR54 are genomic lost, leaving unclear mechanisms for feedback regulation of GnRH by steroid hormones. Here, the genes tachykinin 3 ( TAC3 ) and prodynorphin ( PDYN ) encoding chicken NKB and DYN neuropeptides were successfully cloned. Temporal expression profiling indicated that TAC3, PDYN and their receptor genes (TACR3, OPRK1) were mainly expressed in the hypothalamus, with significantly higher expression at 30W than at 15W. Furthermore, overexpression or interference of TAC3 and PDYN can regulate the GnRH mRNA expression. In addition, in vivo and in vitro assays showed that estrogen (E2) could promote the mRNA expression of TAC3, PDYN , and GnRH , as well as the secretion of GnRH/LH. Mechanistically, E2 could dimerize the nuclear estrogen receptor 1 (ESR1) to regulate the expression of TAC3 and PDYN , which promoted the mRNA and protein expression of GnRH gene as well as the secretion of GnRH. In conclusion, these results revealed that E2 could regulate the GnRH expression through TAC3 and PDYN systems, providing novel insights for reproductive regulation in chickens. [ABSTRACT FROM AUTHOR]

Published

2024

249. Weighted gene co-expression network indicates that the DYNLL2 is an important regulator of chicken breast muscle development and is regulated by miR-148a-3p.

Author

Li, Yuanfang, Yuan, Pengtao, Fan, Shengxin, Zhai, Bin, Jin, Wenjiao, Li, Donghua, Li, Hong, Sun, Guirong, Han, Ruili, Liu, Xiaojun, Tian, Yadong, Li, Guoxi, and Kang, Xiangtao

Subjects

*MUSCLE growth, *GENE regulatory networks, *CHICKEN as food, *MEAT quality, *BREAST, *MYOBLASTS, *POULTRY as food

Abstract

Background: The characteristics of muscle fibers determine the growth and meat quality of poultry. In this study, we performed a weighted gene co-expression network analysis (WGCNA) on the muscle fiber characteristics and transcriptome profile of the breast muscle tissue of Gushi chicken at 6, 14, 22, and 30 weeks. Results: A total of 27 coexpressed biological functional modules were identified, of which the midnight blue module had the strongest correlation with muscle fiber and diameter. In addition, 7 hub genes were found from the midnight blue module, including LC8 dynein light chain 2 (DYNLL2). Combined with miRNA transcriptome data, miR-148a-3p was found to be a potential target miRNA of DYNLL2. Experiments on chicken primary myoblasts (CPMs) demonstrated that miR-148a-3p promotes the expression of myosin heavy chain (MYHC) protein by targeting DYNLL2, proving that it can promote differentiation of myoblasts. Conclusions: This study proved that the hub gene DYNLL2 and its target miR-148-3p are important regulators in chicken myogenesis. These results provide novel insights for understanding the molecular regulation mechanisms related to the development of chicken breast muscle. [ABSTRACT FROM AUTHOR]

Published

2022

250. Whole-transcriptome sequencing reveals a melanin-related ceRNA regulatory network in the breast muscle of Xichuan black-bone chicken.

Author

Li, Ruiting, Li, DongHua, Xu, Shuohui, Zhang, Pengwei, Zhang, Zhiyuan, He, Fumin, Li, Wenting, Sun, Guirong, Jiang, Ruirui, Li, Zhuanjian, Tian, Yadong, Liu, Xiaojun, and Kang, Xiangtao

Subjects

*BREAST, *COMPETITIVE endogenous RNA, *CHICKENS, *GENE expression, *CIRCULAR RNA, *MELANINS

Abstract

The economic losses incurred due to reduced muscle pigmentation highlight the crucial role of melanin-based coloration in the meat of black-bone chickens. Melanogenesis in the breast muscle of black-bone chickens is currently poorly understood in terms of molecular mechanisms. This study employed whole-transcriptome sequencing to analyze black and white breast muscle samples from black-bone chickens, leading to the identification of 367 differentially expressed (DE) mRNAs, 48 DElncRNAs, 104 DEcircRNAs, and 112 DEmiRNAs involved in melanin deposition. Based on these findings, a competitive endogenous RNA (ceRNA) network was developed to better understand the complex mechanisms of melanin deposition. Furthermore, our analysis revealed key DEmRNAs (TYR, DCT, EDNRB, MLPH and OCA2) regulated by DEmiRNAs (g ga-miR-140-5p, gga-miR-1682, gga-miR-3529, gga-miR-499-3p, novel-m0012-3p, gga-miR-200b-5p, gga-miR-203a, gga-miR-6651-5p, gga-miR-7455-3p, gga-miR-31-5p, miR-140-x, miR-455-x, novel-m0065-3p, gga-miR-29b-1-5p, miR-455-y, novel-m0085-3p, and gga-miR-196-1-3p). These DEmiRNAs competitively interacted with DElncRNAs including MSTRG.2609.2, MSTRG.4185.1, LOC112530666, LOC112533366, LOC771030, LOC107054724, LOC121107411, LOC100859072, LOC101750037, LOC121108550, LOC121109224, LOC121110876, and LOC101749016 , as well as DEcircRNAs, such as novel_circ_000158, novel_circ_000623, novel_001518, and novel_circ_003596. The findings from this study provide insight into the mechanisms that regulate lncRNA, circRNA, miRNA, and mRNA expression in chicken melanin deposition. [ABSTRACT FROM AUTHOR]

Published

2024