Project description:Colwellia psychrerythraea is a marine psychrophilic bacterium known for its remarkable ability to maintain activity during long-term exposure to extreme subzero temperatures and correspondingly high salinities in sea ice. These microorganisms must have simultaneous adaptations to high salinity and low temperature to survive, be metabolically active, or grow in the ice. Here we report results obtained through an experimental design that allowed us to monitor culturability, activity, and proteomic signatures of Colwellia psychrerythraea strain 34H (Cp34H) to subzero temperature, salinity, and nutrient availability by performing long-term incubations in eight different conditions. Shotgun proteomics revealed novel metabolic strategies used to maintain culturability in response to each independent experimental variable, particularly in pathways regulating carbon, nitrogen, and fatty acid metabolism. For the first time, statistical analysis of differential abundances of proteins uniquely identified in these isolated conditions provide metabolism-specific protein biosignatures indicative of growth or survival in either increased salinity, decreased temperature, or nutrient limitation. Additionally, to aid in the search for extant life on other icy worlds, analysis of detected short peptides enriched and retained in -10oC incubations for four months identified over 400 potential biosignatures that could indicate the presence of terrestrial-like cold-active or halophilic metabolisms on other icy worlds.

Project description:Comparison of gene expression levels in non-hardened (NH), cold-hardened (CH) and subzero-hardened (SZH) Triticum aestivum L. cv Jackson crowns with Affymetrix GeneChip Barley Genome Array.

Project description:Glaciers are populated by a large number of microorganisms including bacteria, archaea and microeukaryotes. Several factors such as solar radiation, nutrient availability and water content greatly determine the diversity and abundance of these microbial populations, the type of metabolism and the biogeochemical cycles. In order to study their metabolic potentials, samples of glacial ice were taken from several glacial ecosystems. Microorganisms were analyzed by a polyphasic approach that combines a set of -omic techniques: 16S rRNA sequencing, culturomics and metaproteomics. This combination provides key information about diversity and functions of microbial populations, especially in rare habitats. Several whole essential proteins and enzymes related to metabolism and energy production, recombination and translation were found that demonstrate the existence of cellular activity at subzero temperatures.

Project description:Glaciers are populated by a large number of microorganisms including bacteria, archaea and microeukaryotes. Several factors such as solar radiation, nutrient availability and water content greatly determine the diversity and abundance of these microbial populations, the type of metabolism and the biogeochemical cycles. In order to study their metabolic potentials, samples of glacial ice were taken from several glacial ecosystems. Microorganisms were analyzed by a polyphasic approach that combines a set of -omic techniques: 16S rRNA sequencing, culturomics and metaproteomics. This combination provides key information about diversity and functions of microbial populations, especially in rare habitats. Several whole essential proteins and enzymes related to metabolism and energy production, recombination and translation were found that demonstrate the existence of cellular activity at subzero temperatures.

Project description:Comparison of gene expression levels in non-hardened (NH), cold-hardened (CH) and subzero-hardened (SZH) Triticum aestivum L. cv Jackson crowns with Affymetrix GeneChip Barley Genome Array. Keywords = wheat Keywords = crowns Keywords = cold tolerance Keywords = freezing resistance Keywords = Triticum aestivum L. cv Jackson Keywords: repeat sample

Project description:This is the first whole-cell proteomic study performed on a subzero-growing permafrost-associated isolate at such a low temperature (-10C) and one that connects subzero growth and the salt response. Through whole-cell proteomic analyses at -10C, 23C, and high/low salt conditions, we could identify functional pathways and mechanisms important for subzero growth in the extremophile Planococcus halocryophilus.

Project description:The nuclear lamina (NL) interacts with hundreds of large genomic regions termed lamina-associated domains (LADs). The dynamics of these interactions and the relation to epigenetic modifications are poorly understood. We visualized the fate of LADs in single cells using a novel 'molecular contact memory' approach. In each interphase nucleus, only ~30% of LADs are positioned at the periphery; these LADs are in intermittent molecular contact with the NL but remain constrained to the periphery. Upon mitosis, LAD positioning is not detectably inherited but instead is stochastically reshuffled. Contact of individual LADs with the NL correlates with their degree of H3K9 dimethylation in single cells, and inactivation of the H3K9 methyltransferase G9a reduces the NL contact frequencies. These results indicate that nuclear positioning and histone modification of LADs are both stochastic yet linked in single cells. Collectively, these results highlight principles of the dynamic spatial architecture of chromosomes. 12 RNA-seq experiments for 6 samples, each with a biological replicate: m6ATracer-VP16+/DamLaminB1+ m6ATracer-VP16+/DamLaminB1- m6ATracer-VP16-/DamLaminB1- m6ATracer-GFP+/DamLaminB1+ m6ATracer-GFP+/DamLaminB1- m6ATracer-GFP-/DamLaminB1-

Project description:Nematostella is a sea anemone. Its venom ispacked into nematocysyts. In this work we studied proteom of the nematocyst soluble content from planula larva to identify new toxins.

Project description:Histone acetylation and deacetylation are among the principal mechanisms by which chromatin is regulated during transcription, DNA silencing, and DNA repair. We analyzed patterns of genetic interactions uncovered during comprehensive genome-wide analyses in yeast to probe how histone acetyltransferase (HAT) and histone deacetylase (HDAC) protein complexes interact. The genetic interaction data unveil an underappreciated role of HDACs in maintaining cellular viability, and led us to show that deacetylation of the histone variant Htz1p at lysine 14 is mediated by Hda1p. Studies of the essential nucleosome acetyltransferase of H4 (NuA4) revealed acetylation-dependent protein stabilization of Yng2p, a potential nonhistone substrate of NuA4 and Rpd3C, and led to a new functional organization model for this critical complex. We also found that DNA double-stranded breaks (DSBs) result in local recruitment of the NuA4 complex, followed by an elaborate NuA4 remodeling process concomitant with Rpd3p recruitment and histone deacetylation. These new characterizations of the HDA and NuA4 complexes demonstrate how systematic analyses of genetic interactions may help illuminate the mechanisms of intricate cellular processes. Keywords: genetic modification The 44 datasets in this Series profiled the genome-wide genetic interactions for query genes encoding either HAT and HDAC catalytic subunits or subunits of the associated protein complexes. Of the 32 query genes, 5 were essential and were tested as temperature-sensitive (ts) alleles at three or more temperatures. (ESA1 was also tested as a hypomorphic allele.) The other query genes were tested as null deletion alleles derived from the Yeast Knockout strain collection.

Project description:An branched-chain amino acids auxotroph eca39∆ mutant fission yeast exhibits an unusual adaptive growth phenotype on solid minimal media containing Ile, Leu and Val when other strains are growing nearby. The transcriptional profiles of an eca39∆ mutant before and after the adaptation were determined using Affymetrix DNA microarrays. Wild-type, the eca39∆ mutant, and the adapted eca39∆ mutant fission yeasts were inoculated in YE+2mM Ile, Leu and Val, and harvested at OD ~ 1. Total RNAs were purified from the 3 samples.