Juhlin, C. C. Et Al. 2015. Whole-exome sequencing defines the mutational landscape of pheochromocytoma and identifies KMT2D as a recurrently mutated gene. GENES CHROMOSOMES & CANCER , vol.54, no.9 , 542-554.

Juhlin, C. C., Stenman, A., Haglund, F., Clark, V. E., Brown, T. C., Baranoski, J., ... Bilguvar, K.(2015). Whole-exome sequencing defines the mutational landscape of pheochromocytoma and identifies KMT2D as a recurrently mutated gene. GENES CHROMOSOMES & CANCER , vol.54, no.9, 542-554.

Juhlin, C. Et Al. "Whole-exome sequencing defines the mutational landscape of pheochromocytoma and identifies KMT2D as a recurrently mutated gene," GENES CHROMOSOMES & CANCER , vol.54, no.9, 542-554, 2015

Juhlin, C. C. Et Al. "Whole-exome sequencing defines the mutational landscape of pheochromocytoma and identifies KMT2D as a recurrently mutated gene." GENES CHROMOSOMES & CANCER , vol.54, no.9, pp.542-554, 2015

Juhlin, C. C. Et Al. (2015) . "Whole-exome sequencing defines the mutational landscape of pheochromocytoma and identifies KMT2D as a recurrently mutated gene." GENES CHROMOSOMES & CANCER , vol.54, no.9, pp.542-554.

@article{article, author={C. Christofer Juhlin Et Al. }, title={Whole-exome sequencing defines the mutational landscape of pheochromocytoma and identifies KMT2D as a recurrently mutated gene}, journal={GENES CHROMOSOMES & CANCER}, year=2015, pages={542-554} }