Your search keyword '"E, Guangxin"' showing total 119 results

1. Phylogenetic Relations and High-Altitude Adaptation in Wild Boar (Sus scrofa), Identified Using Genome-Wide Data.

Author

Fang, Shiyong, Zhang, Haoyuan, Long, Haoyuan, Zhang, Dongjie, Chen, Hongyue, Yang, Xiuqin, Pan, Hongmei, Pan, Xiao, Liu, Di, and E, Guangxin

Subjects

WILD boar, FANCONI'S anemia, HAPLOTYPES, GLUCOSE metabolism, GENETIC variation

Abstract

Simple Summary: The genetic diversity and phylogenetic relationships among wild boars in major regions of the world were assessed using genome-wide data from the Qinghai–Tibet Plateau (QTP), southern and northern regions of China, Europe, Northeast Asia, and Southeast Asia. We clarified the close phylogenetic relationship of QTP wild boars with those in southern China. In addition, genome-wide selection signal analysis based on cross-population extended haplotype homozygosity, fixation index parameters, and run of homozygosity island recognition technology was performed to obtain a series of candidate genes related to the plateau adaptability of wild boar, such as TSC2, TELO2, VCP, SLC5A1, and SLC5A4. In particular, SLC5A1 and SLC5A4 are involved in glucose homeostasis and may be the key to the plateau adaptability of wild boars. This study enhances our understanding of the genetic mechanism of high-altitude adaptation in wild boars. The Qinghai–Tibet Plateau (QTP) wild boar is an excellent model for investigating high-altitude adaptation. In this study, we analyzed genome-wide data from 93 wild boars compiled from various studies worldwide, including the QTP, southern and northern regions of China, Europe, Northeast Asia, and Southeast Asia, to explore their phylogenetic patterns and high-altitude adaptation based on genome-wide selection signal analysis and run of homozygosity (ROH) estimation. The findings demonstrate the alignment between the phylogenetic associations among wild boars and their geographical location. An ADMIXTURE analysis indicated a relatively close genetic relationship between QTP and southern Chinese wild boars. Analyses of the fixation index and cross-population extended haplotype homozygosity between populations revealed 295 candidate genes (CDGs) associated with high-altitude adaptation, such as TSC2, TELO2, SLC5A1, and SLC5A4. These CDGs were significantly overrepresented in pathways such as the mammalian target of rapamycin signaling and Fanconi anemia pathways. In addition, 39 ROH islands and numerous selective CDGs (e.g., SLC5A1, SLC5A4, and VCP), which are implicated in glucose metabolism and mitochondrial function, were discovered in QTP wild boars. This study not only assessed the phylogenetic history of QTP wild boars but also advanced our comprehension of the genetic mechanisms underlying the adaptation of wild boars to high altitudes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genome-Wide Selection Sweep Analysis to Identify Candidate Genes with Black and Brown Color in Tibetan Sibu Yaks.

Author

Wu, Xinming, Xu, Lu, Zhang, Haoyuan, Zhu, Yong, Zhang, Qiang, Zhang, Chengfu, and E, Guangxin

Subjects

ANIMAL coloration, YAK, MELANOGENESIS, PHENOTYPES, INBREEDING, HOMOZYGOSITY

Abstract

Simple Summary: We performed a genome-wide selection sweep analysis on 50 domesticated yaks to investigate the genetic basis of coat color phenotypes. We identified numerous candidate genes (e.g., PLCB1, LEF1, and DTNBP1) that play key roles in melanin synthesis. Unique candidate genes for different coat color groups may explain the variations in coat color. Additionally, a range of selected genes associated with melanin and pigment deposition were identified within the ROH islands. This study provides a solid theoretical basis for understanding yak coat color. Although coat color is an important economic phenotype in domesticated yaks (Bos grunniens), its genetic basis is not yet fully understood. In this study, a genome-wide selective sweep and high-frequency runs of homozygosity (ROH) identification were performed on 50 yaks with different coat colors to investigate candidate genes (CDGs) related to coat color. The results suggested that 2263 CDGs were identified from the 5% interaction windows of the FST and θπ ratio, along with 2801 and 2834 CDGs from black and brown yaks with iHS, respectively. Furthermore, 648 and 691 CDGs from black and brown yaks, which were widely enriched in pathways related to melanogenesis, melanocyte differentiation, and melanosome organization via GO and KEGG functional enrichment, respectively, were confirmed on the basis of the intersection of three parameters. Additionally, the genome of brown yaks presented more ROH, longer ROH fragments, and higher inbreeding levels than those of black yaks. Specifically, a large number of genes related to melanin synthesis and regulation (e.g., UST, TCF25, and AHRR) from the ROH islands were confirmed to be under strong selection. In summary, the results of this study enhance the understanding of the genetic basis for determining yak coat color. [ABSTRACT FROM AUTHOR]

Published

2024

3. Role and Regulatory Mechanism of circRNA_14820 in the Proliferation and Differentiation of Goat Skeletal Muscle Satellite Cells.

Author

Yang, Pu, Li, Xuelong, Liu, Chengli, Han, Yanguo, E, Guangxin, and Huang, Yongfu

Subjects

SATELLITE cells, ADENOSINE triphosphatase, MYOBLASTS, MUSCLE cells, SKELETAL muscle, CIRCULAR RNA

Abstract

Skeletal muscle satellite cells (SMSCs), a type of myogenic stem cell, play a pivotal role in postnatal muscle regeneration and repair in animals. Circular RNAs (circRNAs) are a distinct class of non-coding RNA molecules capable of regulating muscle development by modulating gene expression, acting as microRNAs, or serving as protein decoys. In this study, we identified circ_14820, an exonic transcript derived from adenosine triphosphatase family protein 2 (ATAD2), through initial RNA-Seq analysis. Importantly, overexpression of circ_14820 markedly enhanced the proliferation of goat SMSCs while concomitantly suppressing their differentiation. Moreover, circ_14820 exhibited predominant localization in the cytoplasm of SMSCs. Subsequent small RNA and mRNA sequencing of circ_14820-overexpressing SMSCs systematically elucidated the molecular regulatory mechanisms associated with circ_14820. Our preliminary findings suggest that the circ_14820-miR-206-CCND2 regulatory axis may govern the development of goat SMSCs. These discoveries contribute to a deeper understanding of circRNA-mediated mechanisms in regulating skeletal muscle development, thereby advancing our knowledge of muscle biology. [ABSTRACT FROM AUTHOR]

Published

2024

4. Temporal expression of the KISS1/GPR54 system in goats’ testes and epididymides and its spatial expression in pubertal goats

Author

Han, Yanguo, Zhao, Yuhetian, Si, Weijiang, Jiang, Xunping, Wu, Jiayuan, Na, Risu, Han, Yuqing, Li, Kai, Yang, Liguo, E, Guangxin, Zeng, Yan, Zhao, Yongju, and Huang, Yongfu

Published

2020

5. Effect of a novel somatostatin-14 DNA vaccine fused to tPA signal peptide and CpG adjuvant on goat lactation and milk composition

Author

Han, Yanguo, Na, Risu, Jiang, Xunping, Wu, Jiayuan, Han, Yuqing, Zeng, Yan, E., Guangxin, Liang, Aixin, Yang, Liguo, Zhao, Yongju, and Huang, Yongfu

Published

2020

6. Genome-wide selection signal analysis of Australian Boer goat by using insertion/deletion variants

Author

yuan, ying, primary, Yang, Bai-Gao, additional, he, yongmeng, additional, Duan, xinghai, additional, zhang, weiyi, additional, Na, Ri-Su, additional, Han, yanguo, additional, Zeng, Yan, additional, Huang, Yongfu, additional, Zhao, Yong-Ju, additional, Zhao, Zhong-Quan, additional, wang, shizhi, additional, and e, guangxin, additional

Published

2024

7. Wide-genome selective analysis of Boer goat to investigate the dynamic heredity evolution under different domestic stages

Author

Yuan, Ying, primary, Liu, Cheng-Li, additional, Zhang, Wei-Yi, additional, HE, YONG-MENG, additional, zhang, hao-yuan, additional, Xu, Lu, additional, Yang, Bai-Gao, additional, Huang, Yong-Fu, additional, Ren, Hang-Xing, additional, Wang, Gao-Fu, additional, and e, guangxin, additional

Published

2024

8. Comparative Transcriptomic Profiling in Ovarian Tissues of Lohmann Hens and Chengkou Mountain Chicken

Author

Wang, Zhuanyun, primary, E, Guangxin, primary, Liu, Chengli, primary, Liu, Changbao, primary, Song, Daijun, primary, and Li, Minghui, primary

Published

2023

9. Novel Heredity Basis of the Four-Horn Phenotype in Sheep Using Genome-Wide Sequence Data

Author

Zhang, Haoyuan, primary, Yang, Pu, additional, Liu, Chengli, additional, Ma, Yuehui, additional, Han, Yanguo, additional, Zeng, Yan, additional, Huang, Yongfu, additional, Zhao, Yongju, additional, Zhao, Zhongquan, additional, He, Xiaohong, additional, and E, Guangxin, additional

Published

2023

10. Genome-Wide Selection Signal Analysis to Investigate Wide Genomic Heredity Divergence between Eurasian Wild Boar and Domestic Pig

Author

Wu, Xinming, primary, Zhang, Haoyuan, additional, Long, Haoyuan, additional, Zhang, Dongjie, additional, Yang, Xiuqin, additional, Liu, Di, additional, and E, Guangxin, additional

Published

2023

11. Identification of Body Size Determination Related Candidate Genes in Domestic Pig Using Genome-Wide Selection Signal Analysis

Author

Pan, Bing, primary, Long, Haoyuan, additional, Yuan, Ying, additional, Zhang, Haoyuan, additional, Peng, Yangyang, additional, Zhou, Dongke, additional, Liu, Chengli, additional, Xiang, Baiju, additional, Huang, Yongfu, additional, Zhao, Yongju, additional, Zhao, Zhongquan, additional, and E, Guangxin, additional

Published

2022

12. A deletion variant within the FGF5 gene in goats is associated with gene expression levels and cashmere growth

Author

Li, Yefang, primary, Song, Shen, additional, Zhang, Zhengkai, additional, Liu, Xuexue, additional, Zhang, Yanli, additional, E, Guangxin, additional, Ma, Yuehui, additional, and Jiang, Lin, additional

Published

2022

13. Hereditary Basis of Coat Color and Excellent Feed Conversion Rate of Red Angus Cattle by Next-Generation Sequencing Data

Author

He, Yongmeng, primary, Huang, Yongfu, additional, Wang, Shizhi, additional, Zhang, Lupei, additional, Gao, Huijiang, additional, Zhao, Yongju, additional, and E, Guangxin, additional

Published

2022

14. Genome-Wide Selective Analysis of Boer Goat to Investigate the Dynamic Heredity Evolution under Different Stages

Author

Yuan, Ying, primary, Zhang, Weiyi, additional, Liu, Chengli, additional, He, Yongmeng, additional, Zhang, Haoyuan, additional, Xu, Lu, additional, Yang, Baigao, additional, Zhao, Yongju, additional, Ma, Yuehui, additional, Chu, Mingxing, additional, Zhao, Zhongquan, additional, Huang, Yongfu, additional, Han, Yanguo, additional, Zeng, Yan, additional, Ren, Hangxing, additional, Wang, Gaofu, additional, and E, Guangxin, additional

Published

2022

15. Geographical contrasts of Y-chromosomal haplogroups from wild and domestic goats reveal ancient migrations and recent introgressions

Author

Consortium, Vargoats, primary, Nijman, Isaäc, additional, Rosen, Benjamin, additional, Bardou, Philippe, additional, Faraut, Thomas, additional, Cumer, Tristan, additional, Daly, Kevin, additional, Zheng, Zhuqing, additional, Cai, Yudong, additional, Asadollahpour, Hojjat, additional, Cinar-Kul, Bengi, additional, Zhang, Wei-Yi, additional, e, guangxin, additional, Ayin, A, additional, Baird, Hayley, additional, Bakhtin, Meirat, additional, Balteanu, Valentin, additional, Barfield, Diana, additional, Berger, Beate, additional, Blichfeldt, Thor, additional, Boink, Geert, additional, Bugiwati, Sri Rachma, additional, Cai, Zexi, additional, Carolan, Sean, additional, Clark, Emily, additional, Curik, Vladka Cubrić, additional, Dagong, Muhammad, additional, Dorji, Tashi, additional, Drew, Louise, additional, Guo, Jiazhong, additional, Hallsson, Jón, additional, Horvat, Simon, additional, Kantanen, Juha, additional, Kawaguchi, Fuki, additional, Kazymbet, Polat, additional, khayatzadeh, Negar, additional, Kim, Namshin, additional, Shah, Manoj Kumar, additional, Liao, Yuying, additional, Martinez, Amparo, additional, Masangkay, Joseph, additional, Masaoka, Maho, additional, Mazza, Raffaele, additional, McEwan, John, additional, Milanesi, Marco, additional, Faruque, Md Omar, additional, Nomura, Yuto, additional, Ouchene-Khelifi, Nadjet-Amina, additional, Pereira, Filipe, additional, Sahana, Goutam, additional, Salavati, Mazdak, additional, Sasazaki, Shinji, additional, SILVA, Anne DA, additional, Simčič, Mojca, additional, Soelkner, Johann, additional, Sutherland, Alison, additional, Tigchelaar, Johannes, additional, Zhang, Hongping, additional, Consortium, Econogene, additional, Marsan, Paolo Ajmone, additional, Bradley, Daniel, additional, Colli, Licia, additional, Drögemüller, Cord, additional, Jiang, Yu, additional, Lei, chuzhao, additional, Mannen, H, additional, Pompanon, Francois, additional, TOSSER-KLOPP, GWENOLA, additional, and Lenstra, Johannes A., additional

Published

2022

16. Genetic Basis of Follicle Development in Dazu Black Goat by Whole-Transcriptome Sequencing

Author

Xu, Lu, primary, Liu, Chengli, additional, Na, Risu, additional, Zhang, Weiyi, additional, He, Yongmeng, additional, Yuan, Ying, additional, Zhang, Haoyuan, additional, Han, Yanguo, additional, Zeng, Yan, additional, Si, Weijiang, additional, Wang, Xiao, additional, Huang, Chaonan, additional, Zeng, Shiqi, additional, Zhao, Yongju, additional, Zhao, Zhongquan, additional, Huang, Yongfu, additional, and E, Guangxin, additional

Published

2021

17. Comparative analysis of the genetic diversity of the neutral microsatellite loci and second exon of the goat MHC-DQB1 gene.

Author

Gong, Ying, Guo, Yi, He, Yong-Meng, Yuan, Ying, Yang, Bai-Gao, Duan, Xing-Hai, Liu, Cheng-Li, Zhang, Jia-Hua, Hong, Qiong-Hua, Ma, Yue-Hui, Na, Ri-Su, Han, Yan-Guo, Zeng, Yan, Huang, Yong-Fu, Zhao, Yong-Ju, Zhao, Zhong-Quan, and E., Guangxin

Subjects

GOAT breeds, GENETIC variation, MAJOR histocompatibility complex, CATTLE genetics, MICROSATELLITE repeats, LOCUS (Genetics), GOATS, COMPARATIVE studies

Abstract

This study compared and analyzed the genetic diversity and population structure of exon 2 of the DQB1 gene and 13 autosomal neutral microsatellite markers from 14 Chinese goat breeds to explore the potential evolutionary mechanism of the major histocompatibility complex (MHC). A total of 287 haplotypes were constructed from MHC-DQB1 exon 2 from 14 populations, and 82 nucleotide polymorphic sites (SNPs, 31.78%) and 172 heterozygous individuals (79.12%) were identified. The FST values of the microsatellites and MHC-DQB ranged between 0.01831–0.26907 and 0.00892–0.38871, respectively. Furthermore, 14 goat populations showed rich genetic diversity in the microsatellite loci and MHC-DQB1 exon 2. However, the population structure and phylogenetic relationship represented by the two markers were different. Positive selection and Tajima's D test results showed the occurrence of a diversified selection mechanism, which was primarily based on a positive and balancing selection in goat DQB. This study also found that the DQB sequences of bovines exhibited trans-species polymorphism (TSP) among species and families. In brief, this study indicated that positive and balancing selection played a major role in maintaining the genetic diversity of DQB, and TSP of MHC in bovines was common, which enhanced the understanding of the MHC evolution. [ABSTRACT FROM AUTHOR]

Published

2023

18. Genome-Wide Association Study Based on Random Regression Model Reveals Candidate Genes Associated with Longitudinal Data in Chinese Simmental Beef Cattle

Author

Du, Lili, primary, Duan, Xinghai, additional, An, Bingxing, additional, Chang, Tianpeng, additional, Liang, Mang, additional, Xu, Lingyang, additional, Zhang, Lupei, additional, Li, Junya, additional, E, Guangxin, additional, and Gao, Huijiang, additional

Published

2021

19. Comparative analysis of the genetic diversity of the neutral microsatellite loci and second exon of the goat MHC-DQB1 gene

Author

Gong, Ying, primary, Guo, Yi, additional, He, Yong-Meng, additional, Yuan, Ying, additional, Yang, Bai-Gao, additional, Duan, Xing-Hai, additional, Liu, Cheng-Li, additional, Zhang, Jia-Hua, additional, Hong, Qiong-Hua, additional, Ma, Yue-Hui, additional, Na, Ri-Su, additional, Han, Yan-Guo, additional, Zeng, Yan, additional, Huang, Yong-Fu, additional, Zhao, Yong-Ju, additional, Zhao, Zhong-Quan, additional, and E., Guangxin, additional

Published

2021

20. Genome‐wide selection signal analysis of Australian Boer goat reveals artificial selection imprinting on candidate genes related to muscle development

Author

Yang, B.‐G., primary, Yuan, Y., additional, Zhou, D.‐K., additional, Ma, Y.‐H., additional, Mahrous, K.‐F., additional, Wang, S.‐Z., additional, He, Y.‐M., additional, Duan, X.‐H., additional, Zhang, W.‐Y., additional, and E, Guangxin, additional

Published

2021

21. Geographical contrasts of Y‐chromosomal haplogroups from wild and domestic goats reveal ancient migrations and recent introgressions.

Author

Nijman, Isaäc J., Rosen, Benjamin D., Bardou, Philippe, Faraut, Thomas, Cumer, Tristan, Daly, Kevin G., Zheng, Zhuqing, Cai, Yudong, Asadollahpour, Hojjat, Kul, Bengi Çınar, Zhang, Wei‐Yi, E., Guangxin, Ayin, A., Baird, Hayley, Bakhtin, Meirat, Bâlteanu, Valentin A., Barfield, Diana, Berger, Beate, Blichfeldt, Thor, and Boink, Geert

Subjects

GOATS, HAPLOGROUPS, HAPLOTYPES, GENE flow, FOSSIL DNA, CROSSBREEDING

Abstract

By their paternal transmission, Y‐chromosomal haplotypes are sensitive markers of population history and male‐mediated introgression. Previous studies identified biallelic single‐nucleotide variants in the SRY, ZFY and DDX3Y genes, which in domestic goats identified four major Y‐chromosomal haplotypes, Y1A, Y1B, Y2A and Y2B, with a marked geographical partitioning. Here, we extracted goat Y‐chromosomal variants from whole‐genome sequences of 386 domestic goats (75 breeds) and seven wild goat species, which were generated by the VarGoats goat genome project. Phylogenetic analyses indicated domestic haplogroups corresponding to Y1B, Y2A and Y2B, respectively, whereas Y1A is split into Y1AA and Y1AB. All five haplogroups were detected in 26 ancient DNA samples from southeast Europe or Asia. Haplotypes from present‐day bezoars are not shared with domestic goats and are attached to deep nodes of the trees and networks. Haplogroup distributions for 186 domestic breeds indicate ancient paternal population bottlenecks and expansions during migrations into northern Europe, eastern and southern Asia, and Africa south of the Sahara. In addition, sharing of haplogroups indicates male‐mediated introgressions, most notably an early gene flow from Asian goats into Madagascar and the crossbreeding that in the 19th century resulted in the popular Boer and Anglo‐Nubian breeds. More recent introgressions are those from European goats into the native Korean goat population and from Boer goat into Uganda, Kenya, Tanzania, Malawi and Zimbabwe. This study illustrates the power of the Y‐chromosomal variants for reconstructing the history of domestic species with a wide geographical range. [ABSTRACT FROM AUTHOR]

Published

2022

22. Genome-Wide Association Analysis of Growth Curve Parameters in Chinese Simmental Beef Cattle

Author

Duan, Xinghai, primary, An, Bingxing, additional, Du, Lili, additional, Chang, Tianpeng, additional, Liang, Mang, additional, Yang, Bai-Gao, additional, Xu, Lingyang, additional, Zhang, Lupei, additional, Li, Junya, additional, E, Guangxin, additional, and Gao, Huijiang, additional

Published

2021

23. Deletion of an enhancer in FGF5 is associated with ectopic expression in goat hair follicles and the cashmere growth phenotype

Author

Li, Yefang, primary, Song, Shen, additional, Liu, Xuexue, additional, Zhang, Yanli, additional, Wang, Dandan, additional, He, Xiaohong, additional, Zhao, Qianjun, additional, Pu, Yabin, additional, Guan, Weijun, additional, E, Guangxin, additional, Ma, Yuehui, additional, and Jiang, Lin, additional

Published

2020

24. SNP screening of the MSTN gene and correlation analysis between genetic polymorphisms and growth traits in Dazu black goat

Author

Na, Risu, primary, Ni, Weiwei, additional, E, Guangxin, additional, Zeng, Yan, additional, Han, Yanguo, additional, and Huang, Yongfu, additional

Published

2020

25. Local expressions and function of Kiss1/GPR54 in goats' testes

Author

Han, Yanguo, primary, Peng, Xiaoli, additional, Si, Weijiang, additional, Liu, Guiqiong, additional, Han, Yuqing, additional, Jiang, Xunping, additional, Na, Risu, additional, Yang, Liguo, additional, Wu, Jiayuan, additional, E, Guangxin, additional, Zeng, Yan, additional, Zhao, Yongju, additional, and Huang, Yongfu, additional

Published

2020

26. Immunization with oral KISS1 DNA vaccine inhibits testicular Leydig cell proliferation mainly via the hypothalamic–pituitary–testicular axis and apoptosis-related genes in goats

Author

Han, Yanguo, primary, Si, Weijiang, additional, Han, Yuqing, additional, Na, Risu, additional, Zeng, Yan, additional, E, Guangxin, additional, Yang, Liguo, additional, Wu, Jiayuan, additional, Zhao, Yongju, additional, and Huang, Yongfu, additional

Published

2019

27. Genetic Diversity and Population Structure of Seven Tibet Yak Ecotype Populations using Microsatellite Markers

Author

E GuangXin, Basang WangDui, Dawa YangLa, Luosang DunZhu, Pingcuo ZhanDui, Zhu YanBin, Cidan YangJi, and Luo Sang

Subjects

medicine.medical_specialty, Genetic diversity, Ecotype, Genetic distance, Phylogenetics, Genetic marker, Evolutionary biology, Molecular genetics, medicine, Microsatellite, Animal Science and Zoology, Taxonomy (biology), Biology

Published

2019

28. SNP screening of the MSTN gene and correlation analysis between genetic polymorphisms and growth traits in Dazu black goat.

Author

Na, Risu, Ni, Weiwei, E, Guangxin, Zeng, Yan, Han, Yanguo, and Huang, Yongfu

Subjects

SINGLE nucleotide polymorphisms, GOAT breeds, GENETIC polymorphisms, STATISTICAL correlation, STATURE, GENES, TWENTY twenties

Abstract

The aim of this study was to detect SNPs in myostatin (MSTN) gene of four goat breeds, and analyze the correlation of these markers on body measurement traits in the Dazu black goat breed. In total, twenty polymorphic sites were found in one hundred forty-eight individuals, and all SNPs were distributed in introns 1 and 2, except g. 425 C > T, which was found in the regulatory region. Three SNPs (g. 2732 C > T, g. 2752 G > A and g. 4552 A > C) were polymorphic in all four breeds. None of the tag SNPs (g. 425 C > T, g. 1583 A > G, 2732 C > T, g. 4552 A > C and g. 5167 C > T) were significantly correlated with body measurement traits (p > 0.05) in the Dazu black goat. However, individuals with genotype combination 3 (GtC 3) of tag SNPs had higher birth weight and weaning weight than individuals with the other genotype combinations (p < 0.05). Moreover, the genotype combination 4 (GtC 4) was significantly associated with body length and height at the age of 2 months (p < 0.05), and genotype combination 13 (GtC 13) was significantly correlated with body height at 6 months (p < 0.05). Briefly, the combined tag SNP markers might be useful for goat marker-associated selective breeding. [ABSTRACT FROM AUTHOR]

Published

2021

29. Immunization with oral KISS1 DNA vaccine inhibits testicular Leydig cell proliferation mainly via the hypothalamic–pituitary–testicular axis and apoptosis-related genes in goats.

Author

Han, Yanguo, Si, Weijiang, Han, Yuqing, Na, Risu, Zeng, Yan, E, Guangxin, Yang, Liguo, Wu, Jiayuan, Zhao, Yongju, and Huang, Yongfu

Subjects

LEYDIG cells, DNA vaccines, CELL proliferation, INHIBITION of cellular proliferation, GOATS, HYPOTHALAMUS, PITUITARY gland, GOAT diseases

Abstract

This study aimed to analyze the effect and mechanism of immunization of oral KISS1 DNA vaccine on the proliferation of goat testicular Leydig cells. Ten 8-week-old male goats were randomly divided into KISS1 DNA vaccine and control groups for immunization (five goats each group). These goats were sacrificed at 8 weeks after primary immunization, and the tissue samples of hypothalamus, pituitary, and testis and Leydig cell samples were collected for RT-PCR and CCK8 assay. Immunization with the oral KISS1 DNA vaccine effectively inhibited the proliferation of Leydig cells, the expression of hypothalamus KISS1, GPR54, and GnRH mRNA, pituitary GnRHR and LH mRNA, testicular LHR mRNA, and apoptosis-inhibitory gene Bcl-2 mRNA in Leydig cells. By contrast, the immunization enhanced the mRNA expression of apoptosis-promoting gene Bax and Clusterin in Leydig cells. These findings indicate that immunization with the oral KISS1 DNA vaccine can inhibit the proliferation of goat testicular Leydig cells mainly via the hypothalamic–pituitary–testicular axis and apoptosis-related genes. [ABSTRACT FROM AUTHOR]

Published

2021

30. Assessment of genetic variation among four populations of Small East African goats using microsatellite markers

Author

L. Chen, E. Guangxin, Charles Moses Lyimo, G. Msalya, S.W. Chenyambuga, Y. Zhao, Yong-Fu Huang, and A. S. Nguluma

Subjects

0301 basic medicine, Genetics, Veterinary medicine, Genetic diversity, education.field_of_study, Population, Conservation, genetic diversity, Biology, Breed, 03 medical and health sciences, 030104 developmental biology, Genetic distance, Genetic marker, Genetic variation, Genetic structure, genetic markers, Conservation, genetic diversity, genetic markers, local genetic resources, Animal Science and Zoology, local genetic resources, education, Inbreeding

Abstract

The majority of goats in Tanzania belong to the Small East African (SEA) breed, which exhibits large phenotypic variation. This study aimed to determine the genetic structure of, and relationships among four populations (Sukuma, Gogo, Sonjo, and Pare) of the SEA breed that have not been studied adequately. A total of 120 individuals (24 from each population) were analysed at eight microsatellite loci. In addition, 24 goats of the South African Boer breed were used as reference. Observed heterozygosity (Ho) ranged from 0.583 ± 0.04 for Sukuma to 0.659 ± 0.030 for Gogo, while expected heterozygosity (He) ranged from 0.632 ± 0.16 for Sukuma to 0.716 ± 0.16 for Boer. Five loci deviated from Hardy–Weinberg equilibrium (HWE) across populations. The mean number of alleles ranged from 4.75 ± 1.58 for Pare to 6.88 ± 3.00 for Sukuma. The mean inbreeding coefficient (FIS) ranged from 0.003 in Sonjo to 0.148 in Sukuma. The differentiation coefficient (FST) was highest (0.085) between Boer and Sukuma and lowest (0.008) between Gogo and Sonjo. The largest genetic distance (0.456) was found between Sukuma and Boer, while the smallest (0.031) was between Gogo and Sonjo populations. Pare, Gogo, and Sonjo populations, formed one cluster, while Sukuma and Boer populations formed two separate clusters. From the findings, it can be concluded that the SEA goats in this study showed high in population genetic variation, which implies that there is good scope for their further improvement through selection within populations. The Sukuma population, which has fairly high inbreeding, is moderately differentiated from Pare, Sonjo, and Gogo goat populations, which showed a high level of admixture. Conservation and improvement strategies of the goats should be designed with first priority being on Sukuma goats.Keywords: Conservation, genetic diversity, genetic markers, local genetic resources

Published

2018

31. Screening for signatures of selection of Tianzhu white yak using genome‐wide re‐sequencing

Author

E, Guangxin, primary, Yang, B.‐G., additional, Basang, W.‐D., additional, Zhu, Y.‐B., additional, An, T.‐W., additional, and Luo, X.‐L., additional

Published

2019

32. WITHDRAWN:Phylogenetic relationship and variation among four strains of Small East African goats of Tanzania based on mitochondrial DNA

Author

Yong-Fu Huang, Yongju Zhao, A. S. Nguluma, E Guangxin, Charles Moses Lyimo, Sebastian Willson Chenyambuga, G. Msalya, and Lipen Chen

Subjects

Mitochondrial DNA, Variation (linguistics), Tanzania, Evolutionary biology, Ecology, Animal Science and Zoology, Biology, biology.organism_classification, Phylogenetic relationship, Food Science

Abstract

Ahead of Print article withdrawn by publisher.

Published

2017

33. Genetic variability, evidence of potential recombinational event and selection of LEI0258 in chicken

Author

Jian-Lin Han, Rinai Sha, E Guangxin, Jianfei Pan, Chen Wang, and Shengcheng Zeng

Subjects

Genetic Markers, Recombination, Genetic, Genetics, Haplotype, Genetic Variation, General Medicine, Biology, Major histocompatibility complex, Polymorphism, Single Nucleotide, Evolution, Molecular, Major Histocompatibility Complex, Tandem repeat, Genetic drift, Tandem Repeat Sequences, biology.protein, Animals, Genetic variability, Allele, Evolutionary dynamics, Chickens, Microsatellite Repeats, Genetic association

Abstract

The chicken major histocompatibility complex (MHC) plays an important role in the immune response, disease resistance, productivity, and other important economic traits of the chicken. Therefore, a description of the polymorphisms of this region is crucial for understanding the genetic pattern of the MHC. The tandem repeat LEI0258 is located within the B region of the chicken MHC and is surprisingly strongly associated with serology. This marker has been used worldwide to provide a picture of the core area of the chicken MHC-B region and to categorize chicken MHC haplotypes. Thus, insight into the evolutionary pattern of LEI0258 may be useful for understanding MHC diversity. In the current study, 30 alleles of LEI0258 from 12 populations were screened and sequenced, and alleles that have previously been published in GenBank were also analyzed. The resulting 124 alleles were classified into four clusters according to the SNPs and indels found within the sequences flanking the repeats. Furthermore, a recombination region was identified between -30 and +43 that suggests that recombination may have played a role in the evolution of this MHC. Finally, strong evidence regarding the selection and evolutionary dynamics of the LEI0258 region is presented. Generally speaking, microsatellite is a classic anonymous marker which changes by genetic drift rather than by direct selection. Although, the genotypes of LEI0258 in MHC-B correlate with serology, its mechanism of inheritance and evolution was unclear. This study not only establishes a framework of further diversity or association studies in LEI0258, but also unraveling the reason what driving force and formulate the evolutionary dynamics of this region.

Published

2014

34. Potent effect of KISS1-54 DNA vaccine compared with KISS1-10 DNA vaccine in inhibiting the fertility of female rats

Author

Han, Yanguo, primary, Peng, Xiaoli, additional, Li, Kai, additional, Jiang, Xunping, additional, Liu, Guiqiong, additional, Yang, Liguo, additional, Liang, Caiyou, additional, Zhao, Yuhetian, additional, Huang, Yongjie, additional, E, Guangxin, additional, Zhao, Yongju, additional, and Huang, Yongfu, additional

Published

2018

35. Microsatellite marker-based estimation of the genetic diversity of cattle in Chongqing

Author

Ni, Weiwei, primary, Jiang, An, additional, Zhang, Jian, additional, E, Guangxin, additional, and Huang, Yongfu, additional

Published

2018

36. The effects of low levels of aflatoxin B1 on health, growth performance and reproductivity in male rabbits

Author

Sun, Yawang, primary, Dong, Guozhong, additional, E, Guangxin, additional, Liao, Min, additional, Tao, Lin, additional, and Lv, Jingzhi, additional

Published

2018

37. Identifying novel genes for carcass traits by testing G × E interaction through genome-wide meta-analysis in Chinese Simmental beef cattle

Author

Wang, Xiaoqiao, primary, Miao, Jian, additional, Xia, Jiangwei, additional, Chang, Tianpeng, additional, E, Guangxin, additional, Bao, Jinshan, additional, Jin, Shengyun, additional, Xu, Lingyang, additional, Zhang, Lupei, additional, Zhu, Bo, additional, Gao, Xue, additional, Chen, Yan, additional, Li, Junya, additional, and Gao, Huijiang, additional

Published

2018

38. Clone and Bioinformatics Analysis of Pig SRPK1 Gene 5′ UTR Region

Author

Xiu-qin Yang, Dong-Jie Zhang, Di Liu, E Guangxin, and Cui Yu

Subjects

Untranslated region, Genetics, medicine.medical_specialty, SRPK1 Gene, Five prime untranslated region, Transcription (biology), Molecular genetics, Gene expression, medicine, Promoter, Biology, Transcription factor

Abstract

Part 5′ UTR region of pig SRPK1 gene was cloned by inverse PCR (I-PCR), then a 425 bp gene sequence was acquired. A promoter region in −1-−309 bp was predicted by online tool (TFSEARCH) and 32 binding sites of transcription with scores higher than 85 were getten, of which scores of Sp1, MyoD, and HSF2 were over 90. Some of these binding sites of transcription factors were connected with promoters, but TATA-box, which was important to gene expression, hadn't been found in this region. By using PCR-SSCP method to search SNPs this part (5′ UTR of SRPK1 in pig), total of 40 Large White pigs were obtained as the research objects, but no polymorphism were found. Thus, 5′ UTR of SRPK1 was speculated with a characteristic of high conservation, while it might have been directly or indirectly selected in commercial breeding. The paper provided a further feature of SRPK1 gene in molecular genetics.

Published

2011

39. Phylogenetic relationship and variation among four strains of Small East African goats of Tanzania based on mitochondrial DNA

Author

Nguluma, Athumani Shabani, primary, Msalya, George, additional, Lyimo, Charles Moses, additional, Huang, Yongfu, additional, Zhao, Yongju, additional, Chen, Lipen, additional, E, Guangxin, additional, and Chenyambuga, Sebastian Willson, additional

Published

2017

40. A complete mitochondrial genome of Youzhou black-skin goat

Author

E, Guangxin, primary, Chen, Li-Peng, additional, Na, Ri-Su, additional, Zhao, Yong-Ju, additional, Gao, Hui-Jiang, additional, Zhao, Zhong-Quan, additional, Jiang, Cao-De, additional, Zhang, Jia-Hua, additional, Sun, Ya-Wang, additional, Zeng, Yan, additional, Ma, Yue-Hui, additional, and Huang, Yong-Fu, additional

Published

2015

41. Complete mitochondrial genome of Hechuan white goat in China (Capra hircus)

Author

E, Guangxin, primary, Na, Ri-Su, additional, Zhao, Yong-Ju, additional, Gao, Hui-Jiang, additional, Zhao, Zhong-Quan, additional, Jiang, Cao-De, additional, Zhang, Jia-Hua, additional, Chen, Li-Peng, additional, Ma, Yue-Hui, additional, and Huang, Yong-Fu, additional

Published

2015

42. Comparative analysis the variability of a complete mitochondrial genome of polledness intersexual goat (PIS- -) from China

Author

E, GuangXin, primary, Huang, Yong-Fu, additional, Zhao, Yong-Ju, additional, Na, Ri-Su, additional, Zhao, Zhong-Quan, additional, Sun, Ya-Wang, additional, Chen, Li-Peng, additional, and Qiu, Xiao-Yu, additional

Published

2015

43. Complete mitochondrial genome of the a rare subspecies of genusBos, Tianzhu white yak from Tibetan area in China

Author

E, Guangxin, primary, Na, Ri-Su, additional, Zhao, Yong-Ju, additional, Gao, Hui-Jiang, additional, An, Tian-Wu, additional, and Huang, Yong-Fu, additional

Published

2014

44. Genetic variability, evidence of potential recombinational event and selection of LEI0258 in chicken

Author

E., Guangxin, primary, Sha, Rinai, additional, Zeng, Shengcheng, additional, Wang, Chen, additional, Pan, Jianfei, additional, and Han, Jianlin, additional

Published

2014

45. A complete mitochondrial genome of Youzhou black-skin goat.

Author

E, Guangxin, Chen, Li-Peng, Na, Ri-Su, Zhao, Yong-Ju, Gao, Hui-Jiang, Zhao, Zhong-Quan, Jiang, Cao-De, Zhang, Jia-Hua, Sun, Ya-Wang, Zeng, Yan, Ma, Yue-Hui, and Huang, Yong-Fu

Subjects

*GOATS, *GENOMES, *MITOCHONDRIA, *GENETICS, *TRANSFER RNA

Abstract

The Youzhou black-skin goat (Capra hircus), an indigenous breed of Chinese southwest. Here, we describe the complete mitochondrial genome sequence of Hechuan white goat. The mitogenome is 16,640 nt in length, consisting of 13 protein-coding genes, 22 transfer RNA (tRNA) genes, 2 ribosomal RNA (rRNA) genes and a control region. As in other mammals, most mitochondrial genes are encoded on the heavy strand, except for ND6 and eight tRNA genes, which are encoded on the light strand. Its overall base composition is A: 33.5%, T: 27.3%, C: 26.1% and G: 13.1%. The complete mitogenome of the local subspecies of Hechuan white goat could provide an important data to further breed improvement and animal genetics resource conservation in China. [ABSTRACT FROM AUTHOR]

Published

2016

46. Complete mitochondrial genome of Hechuan white goat in China ( Capra hircus ).

Author

E, Guangxin, Na, Ri-Su, Zhao, Yong-Ju, Gao, Hui-Jiang, Zhao, Zhong-Quan, Jiang, Cao-De, Zhang, Jia-Hua, Chen, Li-Peng, Ma, Yue-Hui, and Huang, Yong-Fu

Subjects

*GOATS, *GENOMES, *MITOCHONDRIA, *GENETICS

Abstract

The Hechuan white goat (Capra hircus), an indigenous of China. Here, we describe the complete mitochondrial genome sequence of Hechuan white goat. The mitogenome is 16,640 nt in length, consisting of 13 protein-coding genes, 22 transfer RNA (tRNA) genes, 2 ribosomal RNA (rRNA) genes and a control region. As in other mammals, most mitochondrial genes are encoded on the heavy strand, except for ND6 and eight tRNA genes, which are encoded on the light strand. Its overall base composition is A: 33.5%, T: 27.3%, C: 26.1% and G: 13.1%. The complete mitogenome of the local subspecies of Hechuan white goat could provide an important data to further explore the breed improvement in Chinese goat. [ABSTRACT FROM AUTHOR]

Published

2016

47. Complete mitochondrial genome of the a rare subspecies of genus Bos , Tianzhu white yak from Tibetan area in China.

Author

E, Guangxin, Na, Ri-Su, Zhao, Yong-Ju, Gao, Hui-Jiang, An, Tian-Wu, and Huang, Yong-Fu

Subjects

*BOS, *YAK, *GENOMES, *MITOCHONDRIA, *RIBOSOMAL RNA

Abstract

The population of domestic yak, Tianzhu white yak, from Tibetan area in China is considered as a rareBos grunniensspecies. We first determined and annotated its complete mitochondrial genome. The mitogenome is 16,319 bp in length, consisting of 13 protein-coding genes, 22 transfer RNA (tRNA) genes, 2 ribosomal RNA (rRNA) genes and a control region. As in other mammals, most mitochondrial genes are encoded on the heavy strand, except for ND6 and eight tRNA genes, which are encoded on the light strand. Its overall base composition is A: 33.7%, T: 27.2%, C: 25.8% and G: 13.2%. The complete mitogenome of the new subspecies ofBosgrunniens could provide an important data to further explore the taxonomic status of the subspecies. [ABSTRACT FROM AUTHOR]

Published

2016

48. Candidate circRNAs related to skeletal muscle development in Dazu black goats.

Author

Liu, Chengli, Yang, Pu, Wang, Xiao, Xiang, Baiju, E, Guangxin, and Huang, Yongfu

Abstract

Abstract Circular RNA (CircRNA), as a classical noncoding RNA, has been proven to regulate skeletal muscle development (SMD). However, the molecular genetic basis of circRNA regulation in muscle cells remains unclear. In this study, the expression patterns of circRNAs in the longissimus dorsi muscle at embryonic day 75 and postnatal day 1 in DBGs were investigated to identify the key circRNAs that play an important role in SMD in goats. A total of 140 significantly and differentially expressed circRNAs (DEcircRNAs) were identified among the groups at different developmental stages. Among the 116 host genes (HGs) of DEcircRNAs, 76 were significantly and differentially expressed, which was confirmed by previous RNA_seq data. Furthermore, the expression pattern of 10 DEcircRNAs with RT-qPCR was verified, which showed 80% concordance rate with that of RNA_seq datasets. Moreover, the authenticity of seven randomly selected DEcircRNAs was verified by PCR Sanger sequencing. Based on the functional annotation results, among the 76 significantly and differentially expressed HGs, 74 were enriched in 845 GO terms, whereas 35 were annotated to 85 KEGG pathways. The results of this study could provide a comprehensive understanding of the genetic basis of circRNAs involved in SMD and muscle growth. [ABSTRACT FROM AUTHOR]

Published

2023

49. Genomic Insights into Pig Domestication and Adaptation: An Integrated Approach Using Genome-Wide Selection Analysis and Multiple Public Datasets.

Author

Zhang H, Ruan P, Cong H, Xu L, Yang B, Ren T, Zhang D, Chen H, Hu P, Wang Z, Pan H, Yang X, Han Y, Zeng Y, Zhao Y, Liu D, Ceccobelli S, and E G

Abstract

As a global focus of animal husbandry, pigs provide essential meat resources for humans. Therefore, analyzing the genetic basis of adaptability, domestication, and artificial selection in pigs will contribute to further breeding. This study performed a genome-wide selection sweep analysis to identify candidate genes related to domestication and adaptive selection via data from 2413 public genotypes. Two complementary statistical analyses, F ST (fixation index) and XP-EHH (cross-population extended haplotype homozygosity) were applied. The results revealed that numerous candidate genes were associated with high-altitude adaptability (e.g., SIRPA , FRS2 , and GRIN2B ) and habitat temperature adaptability (e.g., MITF , PI3KC2A , and FRS2 ). In addition, candidate genes related to the domestic genetic imprint of indigenous pigs (e.g., TNR , NOCT , and SPATA5 ) and strong artificial selection pressure in commercial breeds (e.g., ITPR2 , HSD17B12 , and UGP2 ) were identified in this study. Specifically, some MHC-related genes (e.g., ZRTB12 , TRIM26 , and C7H6orf15 ) were also under selection during domestication and artificial selection. Additionally, a phylogenetic comparative analysis revealed that the genetic divergence between populations does not fully follow the geographical distribution and management history in the major histocompatibility complex region/major histocompatibility complex II haplotypes, unlike that of the genome-wide genotypes. Furthermore, the higher heterozygosity and haplotype alleles of MHC reduce the differences between populations. Briefly, this study not only helps promote the relative theoretical understanding of environmental adaptive selection and domestication but also provides a theoretical reference for disease-resistant breeding in pigs.

Published

2024

50. Candidate circRNAs related to skeletal muscle development in Dazu black goats.

Author

Liu C, Yang P, Wang X, Xiang B, E G, and Huang Y

Subjects

Animals, Goats genetics, Gene Expression Profiling veterinary, Gene Expression Profiling methods, Muscle Development genetics, RNA, Circular genetics, MicroRNAs genetics

Abstract

Circular RNA (CircRNA), as a classical noncoding RNA, has been proven to regulate skeletal muscle development (SMD). However, the molecular genetic basis of circRNA regulation in muscle cells remains unclear. In this study, the expression patterns of circRNAs in the longissimus dorsi muscle at embryonic day 75 and postnatal day 1 in DBGs were investigated to identify the key circRNAs that play an important role in SMD in goats. A total of 140 significantly and differentially expressed circRNAs (DEcircRNAs) were identified among the groups at different developmental stages. Among the 116 host genes (HGs) of DEcircRNAs, 76 were significantly and differentially expressed, which was confirmed by previous RNA&#95;seq data. Furthermore, the expression pattern of 10 DEcircRNAs with RT-qPCR was verified, which showed 80% concordance rate with that of RNA&#95;seq datasets. Moreover, the authenticity of seven randomly selected DEcircRNAs was verified by PCR Sanger sequencing. Based on the functional annotation results, among the 76 significantly and differentially expressed HGs, 74 were enriched in 845 GO terms, whereas 35 were annotated to 85 KEGG pathways. The results of this study could provide a comprehensive understanding of the genetic basis of circRNAs involved in SMD and muscle growth.

Published

2024