Whole-genome sequencing identifies a recurrent functional synonymous mutation in melanoma
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Author
Gartner, Jared J.
Parker, Stephen C. J.
Prickett, Todd D.
Stitzel, Michael L.
Lin, Jimmy C.
Davis, Sean
Simhadri, Vijaya L.
Jha, Sujata
Katagiri, Nobuko
Gotea, Valer
Teer, Jamie K.
Wei, Xiaomu
Morken, Mario A.
Bhanot, Umesh K.
Chen, Guo
Elnitski, Laura L.
Davies, Michael A.
Gershenwald, Jeffrey E.
Carter, Hannah
Karchin, Rachel
Robinson, William
Robinson, Steven
Rosenberg, Steven A.
Collins, Francis S.
Komar, Anton A.
Kimchi-Sarfaty, Chava
Hayward, Nicholas K.
Margulies, Elliott H.
Samuels, Yardena
Becker, Jesse
Benjamin, Betty
Blakesley, Robert
Bouffard, Gerry
Brooks, Shelise
Coleman, Holly
Dekhtyar, Mila
Gregory, Michael
Guan, Xiaobin
Gupta, Jyoti
Han, Joel
Hargrove, April
Ho, Shi-ling
Johnson, Taccara
Legaspi, Richelle
Lovett, Sean
Maduro, Quino
Masiello, Cathy
Maskeri, Baishali
McDowell, Jenny
Montemayor, Casandra
Mullikin, James
Park, Morgan
Riebow, Nancy
Schandler, Karen
Schmidt, Brian
Sison, Christina
Stantripop, Mal
Thomas, James
Thomas, Pam
Vemulapalli, Meg
Young, Alice
Note: Order does not necessarily reflect citation order of authors.
Published Version
https://doi.org/10.1073/pnas.1304227110Metadata
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Gartner, J. J., S. C. J. Parker, T. D. Prickett, K. Dutton-Regester, M. L. Stitzel, J. C. Lin, S. Davis, et al. 2013. “Whole-Genome Sequencing Identifies a Recurrent Functional Synonymous Mutation in Melanoma.” Proceedings of the National Academy of Sciences 110 (33) (July 30): 13481–13486. doi:10.1073/pnas.1304227110.Abstract
Synonymous mutations, which do not alter the protein sequence, have been shown to affect protein function [Sauna ZE, Kimchi-Sarfaty C (2011) Nat Rev Genet 12(10):683–691]. However, synonymous mutations are rarely investigated in the cancer genomics field. We used whole-genome and -exome sequencing to identify somatic mutations in 29 melanoma samples. Validation of one synonymous somatic mutation in BCL2L12 in 285 samples identified 12 cases that harbored the recurrent F17F mutation. This mutation led to increased BCL2L12 mRNA and protein levels because of differential targeting of WT and mutant BCL2L12 by hsa-miR-671–5p. Protein made from mutant BCL2L12 transcript bound p53, inhibited UV-induced apoptosis more efficiently than WT BCL2L12, and reduced endogenous p53 target gene transcription. This report shows selection of a recurrent somatic synonymous mutation in cancer. Our data indicate that silent alterations have a role to play in human cancer, emphasizing the importance of their investigation in future cancer genome studies.Other Sources
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3746936/http://www.researchgate.net/profile/Anton_Komar/publication/255821987_Whole-genome_sequencing_identifies_a_recurrent_functional_synonymous_mutation_in_melanoma/links/00b49520bde9d9f6ae000000
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