info:eu-repo/semantics/article
Chromatin, DNA structure and alternative splicing
Fecha
2015-06Registro en:
Nieto Moreno, Nicolás; Giono, Luciana Eugenia; Cambindo Botto, Adrian Edgardo; Muñoz, Manuel Javier; Kornblihtt, Alberto Rodolfo; Chromatin, DNA structure and alternative splicing; Elsevier Science; FEBS Letters; 589; 22; 6-2015; 3370-3378
0014-5793
CONICET Digital
CONICET
Autor
Nieto Moreno, Nicolás
Giono, Luciana Eugenia
Cambindo Botto, Adrian Edgardo
Muñoz, Manuel Javier
Kornblihtt, Alberto Rodolfo
Resumen
Coupling of transcription and alternative splicing via regulation of the transcriptional elongation rate is a well-studied phenomenon. Template features that act as roadblocks for the progression of RNA polymerase II comprise histone modifications and variants, DNA-interacting proteins and chromatin compaction. These may affect alternative splicing decisions by inducing pauses or decreasing elongation rate that change the time-window for splicing regulatory sequences to be recognized. Herein we discuss the evidence supporting the influence of template structural modifications on transcription and splicing, and provide insights about possible roles of non-B DNA conformations on the regulation of alternative splicing.