APA

Palhais B., Præstegaard V. S., Sabaratnam R., Doktor T. K., Lutz S., Burda P., Suormala T., Baumgartner M., Fowler B., Bruun G. H., Andersen H. S., Kožich V. & Andresen B. S. (20150731). Splice-shifting oligonucleotide (SSO) mediated blocking of an exonic splicing enhancer (ESE) created by the prevalent c.903+469T>C MTRR mutation corrects splicing and restores enzyme activity in patient cells. : Nucleic acids research.

Chicago

Palhais Bruno, Præstegaard Veronica S, Sabaratnam Rugivan, Doktor Thomas Koed, Lutz Seraina, Burda Patricie, Suormala Terttu, Baumgartner Matthias, Fowler Brian, Bruun Gitte Hoffmann, Andersen Henriette Skovgaard, Kožich Viktor and Andresen Brage Storstein. 20150731. Splice-shifting oligonucleotide (SSO) mediated blocking of an exonic splicing enhancer (ESE) created by the prevalent c.903+469T>C MTRR mutation corrects splicing and restores enzyme activity in patient cells. : Nucleic acids research.

Harvard

Palhais B., Præstegaard V. S., Sabaratnam R., Doktor T. K., Lutz S., Burda P., Suormala T., Baumgartner M., Fowler B., Bruun G. H., Andersen H. S., Kožich V. and Andresen B. S. (20150731). Splice-shifting oligonucleotide (SSO) mediated blocking of an exonic splicing enhancer (ESE) created by the prevalent c.903+469T>C MTRR mutation corrects splicing and restores enzyme activity in patient cells. : Nucleic acids research.

MLA

Palhais Bruno, Præstegaard Veronica S, Sabaratnam Rugivan, Doktor Thomas Koed, Lutz Seraina, Burda Patricie, Suormala Terttu, Baumgartner Matthias, Fowler Brian, Bruun Gitte Hoffmann, Andersen Henriette Skovgaard, Kožich Viktor and Andresen Brage Storstein. Splice-shifting oligonucleotide (SSO) mediated blocking of an exonic splicing enhancer (ESE) created by the prevalent c.903+469T>C MTRR mutation corrects splicing and restores enzyme activity in patient cells. : Nucleic acids research. 20150731.