Mo Wang

Dr. Mo Wang received his doctor’s degree from Institute of Genetics and Developmental Biology (IGDB), Chinese Academy of Sciences in 2013. Then he completed 4 years’ postdoctoral research at the Ohio State University. Dr. Wang is now a Professor at the Fujian Agriculture and Forestry University. His research focuses on the molecular mechanism of rice immune responses against pathogens, function of cell cycle proteins in regulating the pathogenicity of rice blast fungus, and the harpin-induced plant immunity activation.

Lab Information

Fujian Agriculture and Forestry University

Research Area and Skills

Recognize this scientist’s Expertise for their contribution in your research

Plant Immunity 0 Plant Pathogens 0 Pathogenicity 0

More

  • Post
  • Publication
  • Plasmid
  • Following (0)
  • Follower (3)
I’m glad to join the Cloud Scientist Community!
Post

Reply

Follower

Hello everyone! I have successfully joined Cloud Scientist program! My name is Mo Wang, a Professor of the Fujian Agriculture and Forestry University. My research focuses on the molecular mechanism of rice immune responses against pathogens, function of cell cycle proteins in ...Learn More

  1. Tian DG, Lin Y, Chen ZQ, Chen ZJ, Yang F, Wang F*, Wang ZH*, Wang M*. (2020). Exploring the Distribution of Resistance Alleles at the Pi2/9 Locus in Major Rice Producing Areas of China by a Novel Indel Marker. Plant Disease. DOI: 10.1094/PDIS-10-19-2187-RE. (*corresponding authors)

  2. Tian DG, Guo XR, Zhang ZJ, Wang M* and Wang F*. (2019). Developing Improved Lines of Hui 316 with Introgressed Resistant Genes to Rice Blast by Marker-assisted Selection. Biotechnology & Biotechnological Equipment. 33: 1195-1203. (*corresponding authors)

  3. Wang M, Rui L, Yan HJ, Shi H, Zhao WY, Lin JS, Zhang K, Blakeslee JJ, Mackey D, Tang DZ, Wei ZM and Wang GL. (2018). The major leaf ferredoxin Fd2 regulates plant innate immunity in Arabidopsis. Molecular Plant Pathology. 19:1377-1390.

  4. Wang M, Tang D, Luo Q, Jin Y, Shen Y, Wang KJ and Cheng ZK (2012). BRK1, the Bub1-related kinase, is essential for generating proper tension between homologous kinetochores at metaphase I in rice meiosis. Plant Cell 24: 4961-4973.

  5. Wang M, Tang D, Wang KJ, Shen Y, Qin BX, Miao CB, Li M and Cheng ZK (2011). OsSGO1 maintains synaptonemal complex stabilization in addition to protecting centromeric cohesion during rice meiosis. Plant Journal 67: 583-594.

  6. Wang M, Wang KJ, Tang D, Wei CX, Li M, Shen Y, Chi ZC, Gu MH and Cheng ZK (2010). The Central Element Protein ZEP1 of the Synaptonemal Complex Regulates the Number of Crossovers during Meiosis in Rice. Plant Cell 22: 417-430.

  7. Wang KJ#, Wang M#, Tang D#, Miao CB, Hu Q, Lu TG and Cheng ZK (2012). The Role of Rice HEI10 in the Formation of Meiotic Crossovers. PLoS Genetics 8: e1002809. (# Co-first authors)

  8. Wang KJ#, Wang M#, Tang D#, Shen Y, Qin BX, Li M and Cheng ZK (2011). PAIR3, an axis-associated protein, is essential for the recruitment of recombination elements onto meiotic chromosomes in rice. Molecular Biology of the Cell 22:12-19. (# Co-first authors)

  9. Yu HX#, Wang M#, Tang D, Wang KJ, Chen FL., Gong ZY, Gu MH and Cheng ZK (2010). OsSPO11 is essential for both homologous chromosome pairing and crossover formation in rice. Chromosoma 119: 625-636. (# Co-first authors)

  10. Zhang BW#, Wang M#, Tang D, Li YF, Xu M, Gu MH, Cheng ZK, Yu HX (2015). XRCC3 is essential for proper double-strand break repair and homologous recombination in rice meiosis. Journal of Experimental Botany 66:5713-5725. (# Co-first authors)


This guy hasn’t plasmids anything yet.

Hot plasmids


This guy has no following anyone.

Popular Cloud Scientists

Co-build a Global Biological Community
Cloud Scientists
View all
Ezcoupon Reward Program

About Us · User Accounts and Benefits · Privacy Policy · Management Center · FAQs
© 2024 MolecularCloud