APA
Libby R. T., Monckton D. G., Fu Y., Martinez R. A., McAbney J. P., Lau R., Einum D. D., Nichol K., Ware C. B., Ptacek L. J., Pearson C. E. & La Spada A. R. (20030703). Genomic context drives SCA7 CAG repeat instability, while expressed SCA7 cDNAs are intergenerationally and somatically stable in transgenic mice. : Human molecular genetics.
Chicago
Libby Randell T, Monckton Darren G, Fu Ying-Hui, Martinez Refugio A, McAbney John P, Lau R, Einum David D, Nichol K, Ware Carol B, Ptacek Louis J, Pearson Christopher E and La Spada Albert R. 20030703. Genomic context drives SCA7 CAG repeat instability, while expressed SCA7 cDNAs are intergenerationally and somatically stable in transgenic mice. : Human molecular genetics.
Harvard
Libby R. T., Monckton D. G., Fu Y., Martinez R. A., McAbney J. P., Lau R., Einum D. D., Nichol K., Ware C. B., Ptacek L. J., Pearson C. E. and La Spada A. R. (20030703). Genomic context drives SCA7 CAG repeat instability, while expressed SCA7 cDNAs are intergenerationally and somatically stable in transgenic mice. : Human molecular genetics.
MLA
Libby Randell T, Monckton Darren G, Fu Ying-Hui, Martinez Refugio A, McAbney John P, Lau R, Einum David D, Nichol K, Ware Carol B, Ptacek Louis J, Pearson Christopher E and La Spada Albert R. Genomic context drives SCA7 CAG repeat instability, while expressed SCA7 cDNAs are intergenerationally and somatically stable in transgenic mice. : Human molecular genetics. 20030703.