Open AccessDissertation
G-quadruplexes and gene expression in Arabidopsis thaliana
TLDR
A novel method for identifying G4s is introduced, which uses a machine learning approach trained on datasets derived from the high throughput sequencing of G4 structures, to study the prevalence of PG4s in the genome of Arabidopsis thaliana, the model plant.Abstract:
G-Quadruplexes (G4s) are four stranded DNA structures which form in regions with high GC content and high GC skew. Because of the dependence of G4 structure on specific sequences, it is possible to predict putative G4s (PG4s) throughout genomic sequence. PG4s are non-uniformly distributed in genomes, with higher densities within various genic features, particularly promoters, 5’ untranslated regions (UTRs) and coding sequences (CDSs). When they form G4s, these sequences can have a variety of implications for biological processes including replication, transcription, translation and splicing. Here, we introduce a novel method for identifying PG4s, which uses a machine learning approach trained on datasets derived from the high throughput sequencing of G4 structures. We apply this and other techniques, to study the prevalence of PG4s in the genome of Arabidopsis thaliana, the model plant. Finally, we study the effect of G4 stabilisation on gene expression in Arabidopsis, using the GQuadruplex binding agent N-methyl mesoporphyrin (NMM). We identify a family of genes which are strongly downregulated by NMM, and find that they contain large numbers of PG4s in their CDSs.read more
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References
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High-affinity hnRNP A1 binding sites and duplex-forming inverted repeats have similar effects on 5' splice site selection in support of a common looping out and repression mechanism.
TL;DR: It is shown that splicing is repressed when flanked by two high-affinity A1 binding sites or by inverted repeats, and that inactivation of the internal 5' splice site is sufficient to elicit a strong increase in the use of the distal donor site.
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TL;DR: A newly developed Bioconductor package for identifying potential quadruplex‐forming sequences (PQS), which allows for sequence searches that accommodate possible divergences from the optimal G4 base composition and demonstrates that the algorithm behind the searches has a 96% accuracy.
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A novel K(+)-dependent DNA synthesis arrest site in a commonly occurring sequence motif in eukaryotes.
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Why the activity of a gene depends on its neighbors.
TL;DR: It is suggested that apparently-different regulatory motifs including enhancers, silencers, insulators, barriers, and boundaries act similarly - they are active promoters that tether target genes close to, or distant from, appropriate transcription sites or 'factories'.
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PCR amplification of repetitive DNA: a limitation to genome editing technologies and many other applications
TL;DR: The molecular mechanisms leading to undesired artifact products or deletions in PCR amplifications of repetitive DNA/RNA-binding domains are described and limited solutions in amplifying repetitive DNA regions are described.