Project description:Background Mismatched oligonucleotides are widely used on microarrays to differentiate specific from nonspecific hybridization. While many experiments rely on such oligos, the hybridization behavior of various degrees of mismatch (MM) structure has not been extensively studied. Here, we present the results of two large-scale microarray experiments on S.cerevisiae and H.sapiens genomic DNA, to explore MM oligonucleotide behavior with real sample mixtures under tiling-array conditions. Results We examined all possible nucleotide substitutions at the central position of 36-nucleotide probes, and found that nonspecific binding by MM oligos depends upon the individual nucleotide substitutions they incorporate: C->A, C->G and T->A (yielding purine-purine mispairs) are most disruptive, whereas A->X were least disruptive. We also quantify a marked GC skew effect: substitutions raising probe GC content exhibit higher intensity (and vice versa). This skew is small in highly-expressed regions (±0.5% of total intensity range) and large (±2% or more) elsewhere. Multiple mismatches per oligo are largely additive in effect: each MM added in a distributed fashion causes an additional 21% intensity drop relative to PM, three-fold more disruptive than adding adjacent mispairs (7% drop per MM). This SuperSeries is composed of the following subset Series: GSE13172: Mismatch oligonucleotides in human GSE13174: Mismatch oligonucleotides in yeast Refer to individual Series

Project description:A 10 ul drop of B. cinerea spores prepared in half-strength commercial grape juice was placed in the middle of detached Arabidopsis leaves. A cock-borer of 6 mm diameter was used to harvest leaf discs starting from the edge of the lesion (close, 0-6 mm) and the edge of the first disc (away, 6-12 mm) 48 hr after inoculation. Control plants were inoculated with a 10 ul drop of half-strength commercial grape juice with no spores.

Project description:A 10 ul drop of B. cinerea spores prepared in half-strength commercial grape juice was placed in the middle of detached Arabidopsis leaves. A cock-borer of 6 mm diameter was used to harvest leaf discs starting from the edge of the lesion (close, 0-6 mm) and the edge of the first disc (away, 6-12 mm) 48 hr after inoculation. Control plants were inoculated with a 10 ul drop of half-strength commercial grape juice with no spores.

Project description:Whole genome sequencing to identify spontaneous nucleotide substitutions / deletions that allowed suppression of motility defect phenotype in ∆motV or ∆motW of Vibrio cholerae

Project description:FAMIN is a multifunctional purine enzyme enabling the purine nucleotide cycle (Macrophage RNA Seq dataset)

Project description:Systems genetics of single nucleotide substitutions at the Drosophila Obp56h locus

Project description:Transposable elements (TEs) play a pivotal role in shaping diversity in eukaryotic genomes. The covered smut pathogen on barley, Ustilago hordei, encountered a recent genome expansion. Using long reads, we assembled genomes of 6 U. hordei strains and 3 sister species, to study this genome expansion. We found that larger genome sizes can mainly be attributed to a higher genome fraction of long terminal repeat retrotransposons (LTR-RTs). In the studied smut genomes, LTR-RTs fractions are the largest in U. hordei and are positively correlated to the mating-type locus sizes, which is up to ~560 kb in U. hordei. Furthermore, LTR-RTs were found to be associated with higher nucleotide substitution levels, as these occur in specific genome regions of smut species with a recent LTR-RT proliferation. Moreover, genes in genome regions with higher nucleotide substitution levels generally reside closer to LTR-RTs than other genome regions. Genome regions with many nucleotide substitutions encountered an especially high fraction of CG substitutions, which is not observed for LTR-RT sequences. The high nucleotide substitution levels particularly accelerate the evolution of secretome genes, as their more accessory nature results that substitutions often lead to amino acid alterations.

Project description:Using a high throughput splicing reporter assay, we tested 1,080 single nucleotide variants in POU1F1, a key transcription factor essential for pituitary development. Our saturation splicing effect map identifies 96 splice disruptive variants, including 14 synonymous variants, of which 8 were found in unrelated patients diagnosed with hypopituitarism.

Project description:A 10 ul drop of B. cinerea spores prepared in half-strength commercial grape juice was placed in the middle of detached Arabidopsis leaves. A cock-borer of 6 mm diameter was used to harvest leaf discs starting from the edge of the lesion (close, 0-6 mm) and the edge of the first disc (away, 6-12 mm) 48 hr after inoculation. Control plants were inoculated with a 10 ul drop of half-strength commercial grape juice with no spores. Three Biological replicates were done of which the third replicate was a dye-swap. In total 12 samples were analyzed. Each array constituted one replicate making six arrays for the whole experiment.

Project description:The NimbleGen array contains 387,000 46~50-mer oligos, including 377,230 salmonella probes whose sequences only hit genome once. The probes were designed based on Salmonella typhimurium LT2 (NC_003197) genome, with a moving window of about 12 bases. Raw intensities were normalized by the median intensity in each channel and the ratios were calculated by log base 2 (hns-bound DNA / genomic DNA) after the normalization. Keywords: ChIP-chip