Project description:This dataset is part of a study aimed at developing algorithms for the quantification of stable isotope content in microorganisms after labeling them with stable isotope-labeled substrates. In this dataset Escherichia coli cultures were labeled with different percentages (1% or 10%) of either single-carbon 13C glucose (13C2) or fully-labeled 13C glucose (13C1-6). Labeled cells were subsequently mixed with unlabeled E. coli cells in fixed ratios (50%, 90%, 95%, 99%). Cultures of E. coli were grown in M9 minimal medium in which a percentage of the glucose was replaced with 13C2 or 13C1-6 glucose for >10 generations to achieve close to complete labeling of cells. Triplicate cultures were grown for each percentage. Please note that the unlabeled glucose that was used of course had a natural content of 13C of around 1.1%, thus the 0% added label samples have an actual 13C content of 1.1% and all added label is on top of this value. We included a tab delimited table with this submission providing details on all raw files.

Project description:This dataset is part of a study aimed at developing algorithms for the quantification of stable isotope content in microorganisms after labeling them with stable isotope-labeled substrates. In this dataset Escherichia coli and Bacillus subtilis cultures were labeled with different percentages of fully labeled 13C glucose (13C6). Cultures of B. subtilis and E. coli were grown in Bacillus minimal medium or M9 minimal medium (E. coli) in which a percentage of the glucose was replaced with 13C6 glucose for >10 generations to achieve close to complete labeling of cells. The following percentages of 13C6 glucose were added 0, 0.01, 0.025, 0.1, 0.25, 1, 5 and 10%. Triplicate cultures were grown for each percentage. Please note that the unlabeled glucose that was used of course had a natural content of 13C of around 1.1%, thus the 0% added label samples have an actual 13C content of 1.1% and all added label is on top of this value. We included a tab delimited table with this submission providing details on all raw files.

Project description:This dataset is part of a study aimed at developing algorithms for the quantification of stable isotope content in microorganisms after labeling them with stable isotope-labeled substrates. In this dataset Escherichia coli and Bacillus subtilis cultures were labeled with different percentages of single-carbon 13C glucose (13C2). Cultures of B. subtilis and E. coli were grown in Bacillus minimal medium or M9 minimal medium (E. coli) in which a percentage of the glucose was replaced with 13C2 glucose for >10 generations to achieve close to complete labeling of cells. The following percentages of 13C2 glucose were added 0, 0.01, 0.025, 0.1, 0.25, 1, 5 and 10%. Triplicate cultures were grown for each percentage. Please note that the unlabeled glucose that was used of course had a natural content of 13C of around 1.1%, thus the 0% added label samples have an actual 13C content of 1.1% and all added label is on top of this value. We included a tab delimited table with this submission providing details on all raw files.

Project description:This dataset is part of a study aimed at developing algorithms for the quantification of stable isotope content in microorganisms in microbial communities after labeling them with stable isotope-labeled substrates. For this dataset Escherichia coli cultures were labeled with different percentages (1, 5 and 10%) of fully labeled 13C glucose (13C1-6) and spiked-in into a mock microbial community consisting of 32 species of bacteria, archaea, eukaryote and bacteriophages (UNEVEN Community described in Kleiner et al. 2017 Nat Communications 8(1):1558). The community also contained unlabeled E. coli cells and labeled/unlabeled E. coli cells in the spike-in sample were at a 1:1 ratio. Cultures of E. coli were grown in M9 minimal medium in which a percentage of the glucose was replaced with 13C1-6 glucose for >10 generations to achieve close to complete labeling of cells. The following percentages of 13C1-6 glucose were added 1, 5 and 10%. Triplicate cultures were grown for each percentage. Please note that the unlabeled glucose that was used of course had a natural content of 13C of around 1.1%, thus the 0% added label samples have an actual 13C content of 1.1% and all added label is on top of this value. We included a tab delimited table with this submission providing details on all raw files.

Project description:" The novel mass spectrometry quantitation tool pyQms can calculate isotope patterns for molecules that have any isotope enrichment or combinations of, e.g. 13C or 15N and allows partially labeled molecules to be quantified as well, as observed in pulse or pulse-chase experiments where enrichment levels change dynamically. In order to test how pyQms performs on such a task, we created a gold standard (GS) data set of partially labeled proteomes, which allows evaluation of algorithms detecting partial labeld isotopologues against the ground truth against 5 mixed samples. Cultures of Chlamydomonas reinhardtii were grown on medium containing 20, 40, 60, 80 and 100% 15N. Since partially labeled peptides will not produce interpretable fragmentation spectra, each of the partially labeled proteomes were mixed with an unlabeled (14N) or fully labeled (15N) proteome, yielding 5 mixed samples (0|100, 20|100, 40|100, 0|60 and 0|80). " (Modified from manuscript)

Project description:Wild type and ypl230w mutant under stationary phase. Cultures were grown to OD600 of 0.27 (Ypl230w mutants) and 0.4 (congenic wild-type; DBY8778), at which point time zero samples were collected. Samples were further collected at 2 (or 3), 5, 7, 9, and 24 hours. Experimental samples were used to generate Cy5-labeled cDNA probes, whereas mRNA reference pools extracted from cultures of the respective strains grown to early log phase under normal conditions, were used to generate Cy3-labeled cDNA probes. Cy5- and Cy3-labeled probes were hybridized together to microarrays printed with PCR-amplified fragments, representing 6280 of the Saccharomyces cerevisiae ORFs. Keywords: time-course

Project description:In this experiment, we used advanced proteomics techniques to discern differences in energy allocation between three strains of ammonia oxidizing bacteria: Nitrosomonas europaea, Nitrosomonas ureae, and Nitrosospira multiformis, during ammonia starved and ammonia replete conditions. Replicate cultures in late log phase from the three strains were starved of ammonia for 24 hours and compared to replicate control cultures grown for the same period. All three species were grown with three biological replicates for each condition and species with the exception of two replicates from the N. ureae starved cultures due to sample processing loss. This study has, to our knowledge, produced the first complete proteomes of Nitrosospira multiformis and Nitrosomonas ureae.

Project description:Gene content comparison of Salmonella enterica sv Typhimurium LT2, sv Typhi CT18 and sv Typhi TY2 cultures grown to log phase versus cultures grown overnight Keywords: parallel sample

Project description:In this work we used stable isotope probing/proteomics to study uptake of carbon sources by members of the cyanobacterial consortium. The database for protein identification was obtained from assembled metagenomes.

Project description:Ribosome profiling was performed on E. coli wild type cells. All replicates were grown to an OD of ~0.4 in MOPS rich Media with 0.2% glucose supplemented, aerobically in shake flasks. Cultures were treated with chloramphenicol 2 min prior to harvest.