Other formats:
BibTeX
LaTeX
RIS
@article{1828124, author = {Hujová, Pavla and Souček, Přemysl and Radová, Lenka and Kramarek, Michal and Kováčová, Tatiana and Freiberger, Tomáš}, article_location = {BASEL}, article_number = {21-22}, doi = {http://dx.doi.org/10.1007/s00018-021-03943-2}, keywords = {RNA splicing; Alternative splicing; Splicing isoform; NAG choice}, language = {eng}, issn = {1420-682X}, journal = {Cellular and molecular life sciences}, title = {Nucleotides in both donor and acceptor splice sites are responsible for choice in NAGNAG tandem splice sites}, url = {https://link.springer.com/article/10.1007%2Fs00018-021-03943-2}, volume = {78}, year = {2021} }
TY - JOUR ID - 1828124 AU - Hujová, Pavla - Souček, Přemysl - Radová, Lenka - Kramarek, Michal - Kováčová, Tatiana - Freiberger, Tomáš PY - 2021 TI - Nucleotides in both donor and acceptor splice sites are responsible for choice in NAGNAG tandem splice sites JF - Cellular and molecular life sciences VL - 78 IS - 21-22 SP - 6979-6993 EP - 6979-6993 PB - SPRINGER BASEL AG SN - 1420682X KW - RNA splicing KW - Alternative splicing KW - Splicing isoform KW - NAG choice UR - https://link.springer.com/article/10.1007%2Fs00018-021-03943-2 N2 - Among alternative splicing events in the human transcriptome, tandem NAGNAG acceptor splice sites represent an appreciable proportion. Both proximal and distal NAG can be used to produce two splicing isoforms differing by three nucleotides. In some cases, the upstream exon can be alternatively spliced as well, which further increases the number of possible transcripts. In this study, we showed that NAG choice in tandem splice site depends considerably not only on the concerned acceptor, but also on the upstream donor splice site sequence. Using an extensive set of experiments with systematically modified two-exonic minigene systems of AFAP1L2 or CSTD gene, we recognized the third and fifth intronic upstream donor splice site position and the tandem acceptor splice site region spanning from -10 to +2, including NAGNAG itself, as the main drivers. In addition, competition between different branch points and their composition were also shown to play a significant role in NAG choice. All these nucleotide effects appeared almost additive, which explained the high variability in proximal versus distal NAG usage. ER -
HUJOVÁ, Pavla, Přemysl SOUČEK, Lenka RADOVÁ, Michal KRAMAREK, Tatiana KOVÁČOVÁ and Tomáš FREIBERGER. Nucleotides in both donor and acceptor splice sites are responsible for choice in NAGNAG tandem splice sites. \textit{Cellular and molecular life sciences}. BASEL: SPRINGER BASEL AG, 2021, vol.~78, 21-22, p.~6979-6993. ISSN~1420-682X. Available from: https://dx.doi.org/10.1007/s00018-021-03943-2.
|