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Series GSE2891 Query DataSets for GSE2891
Status Public on Jul 06, 2006
Title Transcriptional response to nitrogen availability in yeast
Organism Saccharomyces cerevisiae
Experiment type Expression profiling by array
Summary We used cDNA microarray technology to compare the genome-wide expression profiles of a wild type strain (BY4700) (E02, E04, E06) or the isogenic strain deleted of GLN3 and GAT1 genes (E01, E03, E05) grown in YNB medium with glutamine as nitrogen source (M.Gln) against the wild type strain grown in M.Gln after addition of rapamacyn (20 min) (E01, E02), or M.proline (M.Pro) (E03, E04) or after a two hours shift from M.Gln to M.Pro (E05, E06), all growth conditions known to modify the expression of genes involved in nitrogen utilization. These microarrays allowed to identify the set of genes that were up or down-regulated in response to the quality of the nitrogen source. To evaluate whether the majority of genes responding to the nitrogen source were dependent on Gln3 and Gat1, we compared the expression profiles of the wild type strain and of the isogenic strain deleted of GLN3 and GAT1 genes (03167b: ura3, gln3∆, gat1∆), when both strains were grown on M.Gln + rapamycin (E07), or M.Pro (E08) or after a shift from M.Gln to M.Pro (E09). We also used an independent means of identifying Gln3-Gat1 regulated genes by comparing the expression profiles in wild type and ure2∆ (4709∆URE2) strains on M.Gln medium (E10).
Keywords: nitrogen availability, knock-out response
 
Overall design The hybridization signal was measured using a GSM418 laser scanner. Image analysis for each array was processed using the GenePix Pro 4.0 (Axon Instruments, Inc.) software package, which measures fluorescence intensity pairs for each gene. Following image acquisition, a visual inspection of the individual spots on each microarray (size, signal-to-noise ratio, background level, and spot uniformity) completed the flagging (present/not present, good/bad) of the data. To maximize sensitivity two scans were made, one at high laser power and high PMT (Photo Multiplier Tube) gain to detect the faintest spots, and a second one using low laser power and a PMT gain avoiding saturation. The values for spots presenting ≥ 5% saturation in the first scan were calculated based on an extrapolation after linear regression analysis of the intensities from both scans. These data were then imported in the GeneSpring 7.1 (Silicon Genetics) software package, applying a per spot per chip intensity-dependent (Lowess) normalization for further analysis.
 
Contributor(s) Scherens B, Feller A, Vierendeels F, Messenguy F, Dubois E
Citation(s) 16879428
Submission date Jul 08, 2005
Last update date Mar 16, 2012
Contact name Bart Scherens
Organization name IRMW-ULB
Department Microbiology
Street address Av. E. Gryson, 1
City Brussels
ZIP/Postal code 1070
Country Belgium
 
Platforms (3)
GPL2600 Toulouse Genopole Yeast ORFs
GPL2602 Eurogentec C060C Yeast ORFs
GPL2603 Eurogentec L090D Yeast ORFs
Samples (20)
GSM63138 E01_30
GSM63143 E01_80
GSM63191 E03_30
Relations
BioProject PRJNA92587

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