Upload Avatar (500 x 500)
Meiying Fang
Animal Science and Technology
China Agricultural University
Beijing
Language: Chinese, English
Contact
Pig Genetic Resources Molecular Breeding Genomics Genetic Diversity Gene Cloning Functional Identification Snp Chip Genome Selection Evolution Analysis
Areas of Focus
  • Pig Genetic Resources and Molecular Breeding
Work Experience
  • 1997.07-1999.09 - Nanjing Agricultural University, College of Animal Science - Lecturer
  • 2002.10-2007.01 - Swedish University of Agricultural Sciences, Department of Animal Genetics and Breeding - Postdoctoral and Project Researcher
  • 2014.01-2015.01 - Cornell University - Visiting Scholar
  • 2007.02-present - China Agricultural University, College of Animal Science and Technology - Associate Professor, Professor
Academic Background & Achievements
  • 1990.09-1994.07 Bachelor of Agriculture: Jiangxi Agricultural University, Animal Husbandry
  • 1994.09-1997.07 Master of Agriculture: Nanjing Agricultural University, Animal Genetics and Breeding
  • 1999.09-2002.07 Doctor of Agriculture: China Agricultural University, Animal Genetics and Breeding
Publications
  • HIF-1 regulates energy metabolism of the Tibetan chicken brain during embryo development under hypoxia, Qiguo Tang, Qinqin Xu, Cui Ding, Hao Zhang, Yao Ling, Changxin Wu, and Meiying Fang, 2021
  • Mitochondrial Fusion Potentially Regulates a Metabolic Change in Tibetan Chicken Embryonic Brain During Hypoxia, Tang Q, Ding C, Xu Q, et al., 2021
  • Bacterial magnetic particles-polyethylenimine vectors deliver target genes into multiple cell types with a high efficiency and low toxicity, Yang, W., Tang, Q., Bai, Y. et al., 2020
  • Genome-Wide Analysis Reveals Human-Mediated Introgression from Western Pigs to Indigenous Chinese Breeds, Wang J, Liu C, Chen J, Bai Y, Wang K, Wang Y, Fang M, 2020
  • Integrated Analysis of miRNA-mRNA Network Reveals Different Regulatory Patterns in the Endometrium of Meishan and Duroc Sows during Mid-Late Gestation, Yang K, Wang J, Wang K, Luo Y, Tang Q, Liu X, Fang M, 2020
  • Protein expression profiles in Meishan and Duroc sows during mid-gestation reveal differences affecting uterine capacity, endometrial receptivity, and the maternal–fetal Interface, Wang K, Yang K, Xu Q, Liu Y, Li W, Bai Y, Wang J, Ding C, Liu X, Tang Q et al., 2019
  • Transcriptomic Analysis of Coding Genes and Non-Coding RNAs Reveals Complex Regulatory Networks Underlying the Black Back and White Belly Coat Phenotype in Chinese Wuzhishan Pigs, Qiao Xu, Meiying Fang, 2019
  • Integrated miRNA-mRNA analysis reveals regulatory pathways underlying the curly fleece trait in Chinese tan sheep, Liu Y, Zhang J, Xu Q, et al., 2018
  • A post‐GWAS confirming GPAT3 gene associated with pig growth and a significant SNP influencing its promoter activity, Wang K, Liu Y, Xu Q, et al., 2017
  • Characteristics and Expression Profile of KRT71 Screened by Suppression Subtractive Hybridization cDNA Library in Curly Fleece Chinese Tan Sheep, Kang X, Liu Y, Zhang J, et al., 2017
  • Differential expression of KRT83 regulated by the transcript factor CAP1 in Chinese Tan sheep, Liu Y, Kang X, Yang W, et al., 2017
  • ssc-miR-7134-3p regulates fat accumulation in castrated male pigs by targeting MARK4 gene, Wang K, Li W, Bai Y, et al., 2017
  • Identification of growth trait related genes in a Yorkshire purebred pig population by genome-wide association studies, Meng Q, Wang K, Liu X, et al., 2017
  • Attaching biosynthesized bacterial magnetic particles to polyethylenimine enhances gene delivery into mammalian cells, Yang W, Bai Y, Wang X, et al., 2016
  • Genome wide association analysis reveals new production trait genes in a male Duroc population, Wang K, Liu D, Hernandez-Sanchez J, et al., 2015
  • Differential expression of CYB5A in Chinese and European pig breeds due to genetic variations in the promoter region, Bai Y, Zhang J B, Xue Y, et al., 2015
  • Metabolism of androstenone, 17β-estradiol and dihydrotestosterone in primary cultured pig hepatocytes and the role of 3β-hydroxysteroid dehydrogenase in this process, Chen G, Bai Y, Ren L, et al., 2015
  • A comprehensive microRNA expression profile of the backfat tissue from castrated and intact full-sib pair male pigs, Bai Y, Huang J M, Liu G, et al., 2014
  • Transcriptome profile at different physiological stages reveals potential mode for curly fleece in Chinese tan sheep, Kang X, Liu G, Liu Y, et al., 2013
  • Review on the development of genotyping methods for assessing farm animal diversity, Yang W, Kang X, Yang Q, et al., 2013
  • Transcriptome profile at different physiological stages reveals potential mode for curly fleece in Chinese tan sheep, Kang X, Liu G, Liu Y, et al., 2013
  • Investigation of testosterone, androstenone, and estradiol metabolism in HepG2 cells and primary culture pig hepatocytes and their effects on 17βHSD7 gene expression, Chen G, Li S, Dong X, et al., 2012
  • Investigation on the transcription factors of porcine 3β-hydroxysteroid dehydrogenase and 17β-hydroxysteroid dehydrogenase genes, Dong X, Bai Y, Xin Y, et al., 2012
  • Molecular cloning and characterization of the porcine FTO promoter and coding regions, Huang J, Yang Y, Liu G, et al., 2011
  • Expression Analysis of HIF-1 az and HIF-2az Genes in Tibetan Chicken under Normoxia and Hypoxia, Yang Y Z, Bai Y, Dong X X, et al., 2011
  • Genetic variations and sequences analysis of MTATP6 and MTATP8 genes among different Chinese pig breeds, Liu G, Liu Y, Zhang H, et al., 2010
  • Splice variant identification and expression analysis of the fat mass and obesity-associated (FTO) gene in intact and castrated male pigs, Huang J, Liu G, Liu Y, et al., 2010
  • Sequences and polymorphisms of exons 3 and 4 in porcine UCP~ 2 gene, Fang M, Liu C, Zhao X, et al., 2002
  • Genetic uniqueness of Chinese village pig populations inferred from microsatellite markers, Fang M, Hu X, Jin W, et al., 2009
  • Contrasting mode of evolution at a coat color locus in wild and domestic pigs, Fang M, Larson G, Ribeiro H S, et al., 2009
  • Mitochondrial diversity in European and Chinese pigs is consistent with population expansions that occurred prior to domestication, Fang M, Andersson L, 2006
  • Mitochondrial haplotypes of European wild boars with 2n= 36 are closely related to those of European domestic pigs with 2n= 38, Fang M, Berg F, Ducos A, et al., 2006
  • Genetic variation of exon 2 of SLA-DQB gene in Chinese pigs, Fang M, Braunschweig M, Hu X, Hu L, et al., 2005
  • The phylogeny of Chinese indigenous pig breeds inferred from microsatellite markers, Fang M, Hu X, Jiang T, et al., 2005
  • Genetic analysis on 3′-terminal flanking region of uncoupling protein 3 in different pig breeds, Fang M, Zhao X, Li N, et al., 2002
  • 基于不同密度SNP芯片在杜洛克公猪中的全基因组选择效果分析, 王珏,刘成琨,刘德武,
Awards
  • Ministry of Education Science and Technology Progress Award Second Prize (Ranked 2nd): Molecular Evaluation of Genetic Evolution and Diversity of Chinese Domestic Pigs
  • Dabeinong Science and Technology Special Award (Ranked 3rd): Evolution and Molecular Breeding Application of Chinese Domestic Pig Germplasm Characteristics
  • Wu Changxin Animal Genetics and Breeding Science and Technology Achievement Award (Ranked 1st): Molecular Mechanism of Androgen Regulation of Fat Deposition and Meat Quality Flavor in Boars
  • Ministry of Education Science and Technology Progress Award First Prize (Ranked 8th): Discovery and Application Research of FSH β Gene for High Litter Size in Pigs
Post a Project

Contact us

Let's talk!
* Required
* Required
* Required
* Invalid email address
By submitting this form, you agree that IoT ONE may contact you with insights and marketing messaging.
No thanks, I don't want to receive any marketing emails from IoT ONE.
Submit

Thank you for your message!
We will contact you soon.