Singh, N. N., Lawler, M. N., Ottesen, E. W., Upreti, D., Kaczynski, J. R., & Singh, R. N. (2013). An intronic structure enabled by a long-distance interaction serves as a novel target for splicing correction in spinal muscular atrophy. Oxford University Press.
Chicago Style CitationSingh, Natalia N., Mariah N. Lawler, Eric W. Ottesen, Daya Upreti, Jennifer R. Kaczynski, i Ravindra N. Singh. An Intronic Structure Enabled By a Long-distance Interaction Serves As a Novel Target for Splicing Correction in Spinal Muscular Atrophy. Oxford University Press, 2013.
Cita MLASingh, Natalia N., et al. An Intronic Structure Enabled By a Long-distance Interaction Serves As a Novel Target for Splicing Correction in Spinal Muscular Atrophy. Oxford University Press, 2013.