Your search keyword '"Han, Jian Lin"' showing total 7 results

1. Mitochondrial genomes from modern and ancient Turano-Mongolian cattle reveal an ancient diversity of taurine maternal lineages in East Asia

Author

One Health Toxicologie, Xia, Xiao-Ting, Achilli, Alessandro, Lenstra, Johannes A, Tong, Bin, Ma, Yun, Huang, Yong-Zhen, Han, Jian-Lin, Sun, Zhou-Yong, Chen, Hong, Lei, Chu-Zhao, Hu, Song-Mei, Chen, Ning-Bo, One Health Toxicologie, Xia, Xiao-Ting, Achilli, Alessandro, Lenstra, Johannes A, Tong, Bin, Ma, Yun, Huang, Yong-Zhen, Han, Jian-Lin, Sun, Zhou-Yong, Chen, Hong, Lei, Chu-Zhao, Hu, Song-Mei, and Chen, Ning-Bo

Published

2021

2. Whole-genome resequencing of wild and domestic sheep identifies genes associated with morphological and agronomic traits

Author

Sub Cellular Protein Chemistry, One Health Toxicologie, Afd Pharmacology, Li, Xin, Yang, Ji, Shen, Min, Xie, Xing-Long, Liu, Guang-Jian, Xu, Ya-Xi, Lv, Feng-Hua, Yang, Hua, Yang, Yong-Lin, Liu, Chang-Bin, Zhou, Ping, Wan, Peng-Cheng, Zhang, Yun-Sheng, Gao, Lei, Yang, Jing-Quan, Pi, Wen-Hui, Ren, Yan-Ling, Shen, Zhi-Qiang, Wang, Feng, Deng, Juan, Xu, Song-Song, Salehian-Dehkordi, Hosein, Hehua, Eer, Esmailizadeh, Ali, Dehghani-Qanatqestani, Mostafa, Štěpánek, Ondřej, Weimann, Christina, Erhardt, Georg, Amane, Agraw, Mwacharo, Joram M, Han, Jian-Lin, Hanotte, Olivier, Lenstra, Johannes A, Kantanen, Juha, Coltman, David W, Kijas, James W, Bruford, Michael W, Periasamy, Kathiravan, Wang, Xin-Hua, Li, Meng-Hua, Sub Cellular Protein Chemistry, One Health Toxicologie, Afd Pharmacology, Li, Xin, Yang, Ji, Shen, Min, Xie, Xing-Long, Liu, Guang-Jian, Xu, Ya-Xi, Lv, Feng-Hua, Yang, Hua, Yang, Yong-Lin, Liu, Chang-Bin, Zhou, Ping, Wan, Peng-Cheng, Zhang, Yun-Sheng, Gao, Lei, Yang, Jing-Quan, Pi, Wen-Hui, Ren, Yan-Ling, Shen, Zhi-Qiang, Wang, Feng, Deng, Juan, Xu, Song-Song, Salehian-Dehkordi, Hosein, Hehua, Eer, Esmailizadeh, Ali, Dehghani-Qanatqestani, Mostafa, Štěpánek, Ondřej, Weimann, Christina, Erhardt, Georg, Amane, Agraw, Mwacharo, Joram M, Han, Jian-Lin, Hanotte, Olivier, Lenstra, Johannes A, Kantanen, Juha, Coltman, David W, Kijas, James W, Bruford, Michael W, Periasamy, Kathiravan, Wang, Xin-Hua, and Li, Meng-Hua

Published

2020

3. Functional and phylogenetic analyses of camel rumen microbiota associated with different lignocellulosic substrates.

Author

Gharechahi J, Sarikhan S, Han JL, Ding XZ, and Salekdeh GH

Subjects

Animals, Camelus microbiology, Lignin, Phylogeny, Microbiota genetics, Rumen microbiology

Abstract

Rumen microbiota facilitates nutrition through digestion of recalcitrant lignocellulosic substrates into energy-accessible nutrients and essential metabolites. Despite the high similarity in rumen microbiome structure, there might be distinct functional capabilities that enable different ruminant species to thrive on various lignocellulosic substrates as feed. Here, we applied genome-centric metagenomics to explore phylogenetic diversity, lignocellulose-degrading potential and fermentation metabolism of biofilm-forming microbiota colonizing 11 different plant substrates in the camel rumen. Diversity analysis revealed significant variations in the community of rumen microbiota colonizing different substrates in accordance with their varied physicochemical properties. Metagenome reconstruction recovered genome sequences of 590 bacterial isolates and one archaeal lineage belonging to 20 microbial phyla. A comparison to publicly available reference genomes and rumen metagenome-assembled genomes revealed that most isolates belonged to new species with no well-characterized representatives. We found that certain low abundant taxa, including members of Verrucomicrobiota, Planctomycetota and Fibrobacterota, possessed a disproportionately large number of carbohydrate active enzymes per Mb of genome, implying their high metabolic potential to contribute to the rumen function. In conclusion, we provided a detailed picture of the diversity and functional significance of rumen microbiota colonizing feeds of varying lignocellulose composition in the camel rumen. A detailed analysis of 591 metagenome-assembled genomes revealed a network of interconnected microbiota and highlighted the key roles of certain taxonomic clades in rumen function, including those with minimal genomes (e.g., Patescibacteria). The existence of a diverse array of gene clusters encoding for secondary metabolites unveiled the specific functions of these biomolecules in shaping community structure of rumen microbiota., (© 2022. The Author(s).)

Published

2022

4. Mitochondrial genomes from modern and ancient Turano-Mongolian cattle reveal an ancient diversity of taurine maternal lineages in East Asia.

Author

Xia XT, Achilli A, Lenstra JA, Tong B, Ma Y, Huang YZ, Han JL, Sun ZY, Chen H, Lei CZ, Hu SM, and Chen NB

Subjects

Animals, DNA, Mitochondrial genetics, Asia, Eastern, Genetic Variation, Haplotypes, Cattle genetics, Genome, Mitochondrial

Abstract

Turano-Mongolian cattle are a group of taurine cattle from Northern and Eastern Asia with distinct morphological traits, which are known for their ability to tolerate harsh environments, such as the Asian steppe and the Tibetan plateau. Through the analysis of 170 mitogenomes from ten modern breeds, two sub-lineages within T3 (T3 119 and T3 055 ) were identified as specific of Turano-Mongolian cattle. These two T3 sub-lineages, together with the previously identified T4, were also present in six Neolithic samples, dated to ~3900 years BP, which might represent the earliest domestic taurine stocks from Southwest Asia. The rare haplogroup Q, found in three Tibetan cattle, testifies for the legacy of ancient migrations from Southwest Asia and suggests that the isolated Tibetan Plateau preserved unique prehistoric genetic resources. These findings confirm the geographic substructure of Turano-Mongolian cattle breeds, which have been shaped by ancient migrations and geographic barriers.

Published

2021

5. Author Correction: 863 genomes reveal the origin and domestication of chicken.

Author

Wang MS, Thakur M, Peng MS, Jiang Y, Frantz LAF, Li M, Zhang JJ, Wang S, Peters J, Otecko NO, Suwannapoom C, Guo X, Zheng ZQ, Esmailizadeh A, Hirimuthugoda NY, Ashari H, Suladari S, Zein MSA, Kusza S, Sohrabi S, Kharrati-Koopaee H, Shen QK, Zeng L, Yang MM, Wu YJ, Yang XY, Lu XM, Jia XZ, Nie QH, Lamont SJ, Lasagna E, Ceccobelli S, Gunwardana HGTN, Senasige TM, Feng SH, Si JF, Zhang H, Jin JQ, Li ML, Liu YH, Chen HM, Ma C, Dai SS, Bhuiyan AKFH, Khan MS, Silva GLLP, Le TT, Mwai OA, Ibrahim MNM, Supple M, Shapiro B, Hanotte O, Zhang G, Larson G, Han JL, Wu DD, and Zhang YP

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

6. 863 genomes reveal the origin and domestication of chicken.

Author

Wang MS, Thakur M, Peng MS, Jiang Y, Frantz LAF, Li M, Zhang JJ, Wang S, Peters J, Otecko NO, Suwannapoom C, Guo X, Zheng ZQ, Esmailizadeh A, Hirimuthugoda NY, Ashari H, Suladari S, Zein MSA, Kusza S, Sohrabi S, Kharrati-Koopaee H, Shen QK, Zeng L, Yang MM, Wu YJ, Yang XY, Lu XM, Jia XZ, Nie QH, Lamont SJ, Lasagna E, Ceccobelli S, Gunwardana HGTN, Senasige TM, Feng SH, Si JF, Zhang H, Jin JQ, Li ML, Liu YH, Chen HM, Ma C, Dai SS, Bhuiyan AKFH, Khan MS, Silva GLLP, Le TT, Mwai OA, Ibrahim MNM, Supple M, Shapiro B, Hanotte O, Zhang G, Larson G, Han JL, Wu DD, and Zhang YP

Subjects

Animal Distribution, Animals, Animals, Domestic genetics, Asia, Domestication, Gene Pool, Geography, Likelihood Functions, Poultry genetics, Selection, Genetic, Chickens genetics, Genome, Phylogeny

Abstract

Despite the substantial role that chickens have played in human societies across the world, both the geographic and temporal origins of their domestication remain controversial. To address this issue, we analyzed 863 genomes from a worldwide sampling of chickens and representatives of all four species of wild jungle fowl and each of the five subspecies of red jungle fowl (RJF). Our study suggests that domestic chickens were initially derived from the RJF subspecies Gallus gallus spadiceus whose present-day distribution is predominantly in southwestern China, northern Thailand and Myanmar. Following their domestication, chickens were translocated across Southeast and South Asia where they interbred locally with both RJF subspecies and other jungle fowl species. In addition, our results show that the White Leghorn chicken breed possesses a mosaic of divergent ancestries inherited from other subspecies of RJF. Despite the strong episodic gene flow from geographically divergent lineages of jungle fowls, our analyses show that domestic chickens undergo genetic adaptations that underlie their unique behavioral, morphological and reproductive traits. Our study provides novel insights into the evolutionary history of domestic chickens and a valuable resource to facilitate ongoing genetic and functional investigations of the world's most numerous domestic animal.

Published

2020

7. Expression profiling and functional characterization of miR-192 throughout sheep skeletal muscle development.

Author

Zhao Q, Kang Y, Wang HY, Guan WJ, Li XC, Jiang L, He XH, Pu YB, Han JL, Ma YH, and Zhao QJ

Subjects

Animals, Cell Culture Techniques, Cell Proliferation genetics, Gene Knockout Techniques, Humans, MicroRNAs classification, MicroRNAs isolation & purification, Muscle Development genetics, Muscle, Skeletal cytology, Muscle, Skeletal growth & development, Satellite Cells, Skeletal Muscle metabolism, Sheep genetics, Sheep growth & development, Cell Differentiation genetics, MicroRNAs genetics, Muscle, Skeletal metabolism, Retinoblastoma Protein genetics

Abstract

MicroRNAs (miRNAs) are evolutionarily conserved, small, non-coding RNAs that have emerged as key regulators of myogenesis. Here, we examined the miRNA expression profiles of developing sheep skeletal muscle using a deep sequencing approach. We detected 2,396 miRNAs in the sheep skeletal muscle tissues. Of these, miR-192 was found to be up-regulated in prenatal skeletal muscle, but was down-regulated postnatally. MiR-192 expression also decreased during the myogenic differentiation of sheep satellite cells (SCs). MiR-192 overexpression significantly attenuated SCs myogenic differentiation but promoted SCs proliferation, whereas miR-192 inhibition enhanced SCs differentiation but suppressed SCs proliferation. We found that miR-192 targeted retinoblastoma 1 (RB1), a known regulator of myogenesis. Furthermore, knockdown of RB1 in cultured cells significantly inhibited SCs myogenic differentiation but accelerated SCs proliferation, confirming the role of RB1 in myogenesis. Taken together, our findings enrich the ovine miRNA database, and outline the miRNA transcriptome of sheep during skeletal muscle development. Moreover, we show that miR-192 affects SCs proliferation and myogenic differentiation via down-regulation of RB1.

Published

2016