N. Rangkasenee Et Al. , "Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs," PHYSIOLOGICAL GENOMICS , vol.45, no.18, pp.856-865, 2013
Rangkasenee, N. Et Al. 2013. Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs. PHYSIOLOGICAL GENOMICS , vol.45, no.18 , 856-865.
Rangkasenee, N., Murani, E., Schellander, K., Cinar, M. U., Ponsuksili, S., & Wimmers, K., (2013). Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs. PHYSIOLOGICAL GENOMICS , vol.45, no.18, 856-865.
Rangkasenee, Noppawan Et Al. "Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs," PHYSIOLOGICAL GENOMICS , vol.45, no.18, 856-865, 2013
Rangkasenee, Noppawan Et Al. "Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs." PHYSIOLOGICAL GENOMICS , vol.45, no.18, pp.856-865, 2013
Rangkasenee, N. Et Al. (2013) . "Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs." PHYSIOLOGICAL GENOMICS , vol.45, no.18, pp.856-865.
@article{article, author={Noppawan Rangkasenee Et Al. }, title={Gene expression profiling of articular cartilage reveals functional pathways and networks of candidate genes for osteochondrosis in pigs}, journal={PHYSIOLOGICAL GENOMICS}, year=2013, pages={856-865} }