Xin Wang

　　 　　

Xin Wang, professor, doctoral supervisor.She has been selected as New Century Excellent Talents of the Ministry of Education. She is interested in understanding the regulatory mechanisms of hair follicle morphogenesisand other livestock important economic traits by using multiomics technology, and how these factors contribute to the processes like cellular proliferation and differentiation for genetic improvement of goats,which would promote the sustainabilityand rapid increases in animal production.

Professional Experience

2014- Present, Professor, Northwest A&FUniversity, China.

2013-2014, Senior Visiting Scholar, University of Wisconsin-Madison, USA.

2008– 2013,AssociateProfessor,Northwest A&FUniversity, China.

2002– 2008, Lecture, Northwest A&F University, China.

Education

2002– 2005,Ph.D, Northwest A&F University, China.

1999-2002, M.S, Northwest A&F University, China.

1995-1999, B.S, Shandong Agricultural University, China.

Research Areas

1. The transcriptional landscapes during hair follicle morphogenesis

2. Gene function and regulatory analysis on livestock complex economic traits

3. Animal breeding

Selected Publications: (*Corresponding Author)

1. Li F, Xu TT, Li JL, Hao XX, Ge W*, Wang X*. Single-cell chromatin landscapes of mouse skin development. Scientific Data. 2022, 9:741.

   Zhang YL, Li F, Shi YJ, Zhang TT, Wang X*. Comprehensive transcriptome analysis of hair follicle morphogenesis reveals that lncRNA-H19 promotes dermal papilla cell proliferation through the chi-miR-214-3p/_-catenin axis in cashmere goats. Int. J. Mol. Sci. 2022, 23, 10006.

   Ge W, Zhang WD, Zhang YL, Zheng YJ, Li F, Wang SH, Li JW, Tan SJ, Yan ZH, Wang L, Shen W, Qu L, Wang X*. A single-cell transcriptome atlas of cashmere goat hair follicle morphogenesis. Genomics Proteomics Bioinformatics. 2021, 19(3):437-451.

   Ge W, Tan S J, Wang S H, Li L, Sun X F, Shen W, Wang X*. Single-cell transcriptome profiling reveals dermal and epithelial cell fate decisions during embryonic hair follicle development. Theranostics. 2020, 10(17):7581-7598.

   Wang S H, Li F, Liu J W, Zhang Y L, Zheng Y J, Ge W, Qu L, Wang X*. Integrative analysis of methylome and transcriptome reveals the regulatory mechanisms of hair follicle morphogenesis in cashmere goat. Cells. 2020, 9, 969.

   Zhang Y L, Xia S Z, Wang T C, Wang S H, Yuan D, Li F, Wang X*. Chi-miR-30b-5p inhibits dermal palilla cells proliferation by targeting CaMKIIδ gene in cashmere goat. BMC Genomics. 2020, 21(1):430.

   Zhang X L, Cheng Z X, Wang L X, Jiao B L, Yang H, Wang X*. MiR-21-3p centric regulatory network in dairy cow mammary epithelial cell proliferation J Agric Food Chem. 2019, 67(40):11137-11147.

   Jiao B L, Zhang X L, Wang S H, Wang L X, Luo Z X, Zhao H B, Khatib H, Wang X*. MicroRNA-221 regulates proliferation of bovine mammary gland epithelial cells by targeting the STAT5a and IRS1 Genes. J Dairy Sci. 2019, 102(1):426-435.

   Wang S H, Luo Z X, Zhang Y L, Yuan D, Ge W, Wang X*. The inconsistent regulation of Hoxc13 on different keratins and the regulation mechanism on Hoxc13 in cashmere goat (Capra hircus). BMC Genomics. 2018, 19(1):630.

   Wang S H, Ge W, Luo Z X, Guo Y, Jiao B L, Qu L, Zhang Z Y, Wang X*. Integrated analysis of coding genes and non-coding RNAs during hair follicle cycle of cashmere goat (Capra hircus). BMC Genomics. 2017, 18:767.

Contacts:

Email:xinwang5@nwsuaf.edu.cn