Large-scale pyrosequencing of synthetic DNA: a comparison with results from Sanger dideoxy sequencing.

Pyrosequencing is a relatively recent method for sequencing short stretches of DNA. Because both Pyrosequencing and Sanger dideoxy sequencing were recently used to characterize and validate DNA molecular barcodes in a large yeast gene-deletion project, a meta-analysis of those data allow an excellent and timely opportunity for evaluating Pyrosequencing against the current gold standard, Sanger dideoxy sequencing. Starting with yeast genomic DNA, parallel PCR amplification methods were used to prepared 4747 short barcode-containing constructs from 6000 Saccharomyces cerevisiae gene-deletion strains.

A haplotype framework for cystic fibrosis mutations in Iran.

This is the first comprehensive profile of cystic fibrosis transmembrane conductance regulator (CFTR) mutations and their corresponding haplotypes in the Iranian population. All of the 27 CFTR exons of 60 unrelated Iranian CF patients were sequenced to identify disease-causing mutations. Eleven core haplotypes of CFTR were identified by genotyping six high-frequency simple nucleotide polymorphisms.

Characterization of synthetic DNA bar codes in Saccharomyces cerevisiae gene-deletion strains.

Incorporation of strain-specific synthetic DNA tags into yeast Saccharomyces cerevisiae gene-deletion strains has enabled identification of gene functions by massively parallel growth rate analysis. However, it is important to confirm the sequences of these tags, because mutations introduced during construction could lead to significant errors in hybridization performance. To validate this experimental system, we sequenced 11,812 synthetic 20-mer molecular bar codes and adjacent sequences (>1.

Sequence-specific recognition of the major groove of RNA by deoxystreptamine.

Aminoglycoside antibiotics specifically interact with a variety of RNA sequences, and in particular with the decoding region of 16S ribosomal RNA in the aminoacyl tRNA acceptor site (A-site). Ring II of aminoglycosides (2-deoxystreptamine) is the most conserved element among aminoglycoside antibiotics that bind to the A-site. NMR structures of aminoglycoside-A-site RNA complexes suggested that the 2-deoxystreptamine core of aminoglycosides specifically recognizes (5')G-U(3') and potentially (5')G-G(3') or (5')U-G(3') steps in the major groove of RNA.