Project description:Naegleria gruberi is a single-celled eukaryote best known for its remarkable ability to form an entire microtubule cytoskeleton de novo during its metamorphosis from an amoeba into a flagellate, including two basal bodies (equivalent to centrioles), two flagella (equivalent to cilia), and a cytoplasmic microtubule array. This full-genome transcriptional analysis, performed at 20-minute intervals throughout Naegleria differentiation, reveals vast transcriptional changes, including the differential expression of cytoskeletal, metabolism, signaling and stress response genes. Naegleria gruberi (strain NEG) was grown in association with Kleibsiella pneumoniae on solid media. Cells were prepared and differentiated using standard protocols, and harvested at 0, 20, 40, 60 and 80 minutes after initiation of differentiation.
Project description:Naegleria gruberi is a single-celled eukaryote best known for its remarkable ability to form an entire microtubule cytoskeleton de novo during its metamorphosis from an amoeba into a flagellate, including two basal bodies (equivalent to centrioles), two flagella (equivalent to cilia), and a cytoplasmic microtubule array. This full-genome transcriptional analysis, performed at 20-minute intervals throughout Naegleria differentiation, reveals vast transcriptional changes, including the differential expression of cytoskeletal, metabolism, signaling and stress response genes. Naegleria gruberi (strain NEG) was grown in association with Kleibsiella pneumoniae on solid media. Cells were prepared and differentiated using standard protocols, and harvested at 0, 20, 40, 60 and 80 minutes after initiation of differentiation. Three independent biological replicates were obtained from differentiating N. gruberi. Each replicate series included the following timepoints: 0, 20, 40, 60 and 80 minutes after initiation of differentiation.
Project description:In this study the transcriptomes of Acinetobacter baumannii strains ATCC 17978 and 17978hm were compared. Strain 17978hm is a hns knockout derivative of strain ATCC 17978. Strain 17978hm displays a hyper-motile phenotype on semi-solid Mueller-Hinton (MH) media (0.25% agar). ATCC 17978 and 17978hm from an 37C overnight culture were transferred to the centre of the semi-solid MH plate and incubated at 37C for 8 hours. Only 17978hm cells displayed a motile phenotype and covered the complete surface of the plate. These motile 17978hm cells and the non-motile wild-type ATCC 17978 cells were harvested and RNA was isolated. The comparative transcriptome analysis was performed using the FairPlay labeling kit and a custom made Agilent MicroArray with probes designed to coding regions of the ATCC 17978 genome. The data was analyzed using Agilent GeneSpring GX9 and the significance analysis of microarray MS Excel add-on.
Project description:Corynebacterium glutamicum strain ATCC 21831 is a producer of L-arginine that was created by random mutagenesis. It is resistant to the arginine structural analogue canavanine. In order to identify potential bottlenecks in the biosynthetic pathway that leads to this industrially important amino acid, relative metabolite abundances of biosynthetic intermediates were determined in comparison to the type strain ATCC 13032. An extract of U13C-labeled biomass was used as internal standard, to correct for different ionization efficiencies. Metabolites were identified using the ALLocator web platform.