review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Douglas H. Bartlett | Q91997771 |
Federico M. Lauro | Q30539719 | ||
P2860 | cites work | Genome Streamlining in a Cosmopolitan Oceanic Bacterium | Q22065795 |
Prokaryotes: the unseen majority | Q22066200 | ||
Genome sequence of the deep-sea gamma-proteobacterium Idiomarina loihiensis reveals amino acid fermentation as a source of carbon and energy | Q22066385 | ||
The Uncultured Microbial Majority | Q22255617 | ||
Extremely barophilic bacteria isolated from the Mariana Trench, Challenger Deep, at a depth of 11,000 meters | Q24519088 | ||
Extracellular DNA plays a key role in deep-sea ecosystem functioning | Q57087921 | ||
Adaptation of the membrane lipids of a deep-sea bacterium to changes in hydrostatic pressure | Q57088473 | ||
Sea snow microcosms | Q57106371 | ||
High pressure equilibrium studies on the dissociation-association of E. coli ribosomes | Q67481534 | ||
Pressure-induced dissociation of ribosomes and elongation cycle intermediates. Stabilizing conditions and identification of the most sensitive functional state | Q72679048 | ||
The effects of hydrostatic pressure on ribosome conformation in Escherichia coli: and in vivo study using differential scanning calorimetry | Q74602028 | ||
In vitro increases in plasmid DNA supercoiling by hydrostatic pressure | Q77761340 | ||
Transcriptional response reveals translation machinery as target for high pressure in Lactobacillus sanfranciscensis | Q80934217 | ||
Comparison of prokaryotic diversity at offshore oceanic locations reveals a different microbiota in the Mediterranean Sea | Q83321673 | ||
Microscale nutrient patches in planktonic habitats shown by chemotactic bacteria | Q95442822 | ||
Genome sequence of Oceanobacillus iheyensis isolated from the Iheya Ridge and its unexpected adaptive capabilities to extreme environments | Q24537612 | ||
Genome sequencing in microfabricated high-density picolitre reactors | Q24544260 | ||
Archaea in coastal marine environments | Q24564723 | ||
recD: the gene for an essential third subunit of exonuclease V | Q24630457 | ||
Microbial diversity in the deep sea and the underexplored "rare biosphere" | Q24685531 | ||
Laterally transferred elements and high pressure adaptation in Photobacterium profundum strains | Q24817221 | ||
Environmental genome shotgun sequencing of the Sargasso Sea | Q27860605 | ||
Isolation of an autotrophic ammonia-oxidizing marine archaeon | Q28273549 | ||
Life at Depth: Photobacterium profundum Genome Sequence and Expression Analysis | Q29400080 | ||
Community structure and metabolism through reconstruction of microbial genomes from the environment | Q29547528 | ||
Community genomics among stratified microbial assemblages in the ocean's interior | Q29614711 | ||
Taxonomic studies of extremely barophilic bacteria isolated from the Mariana Trench and description of Moritella yayanosii sp. nov., a new barophilic bacterial isolate. | Q30559956 | ||
Psychromonas kaikoae sp. nov., a novel from the deepest piezophilic bacterium cold-seep sediments in the Japan Trench | Q30735670 | ||
Moritella japonica sp. nov., a novel barophilic bacterium isolated from a Japan Trench sediment. | Q30758062 | ||
Psychromonas profunda sp. nov., a psychropiezophilic bacterium from deep Atlantic sediments | Q30788106 | ||
Colwellia piezophila sp. nov., a novel piezophilic species from deep-sea sediments of the Japan Trench. | Q30962298 | ||
Hyperthermophilic life at deep-sea hydrothermal vents. | Q31965974 | ||
Taxonomic studies of deep-sea barophilic Shewanella strains and description of Shewanella violacea sp. nov. | Q31974475 | ||
Photobacterium profundum sp. nov., a new, moderately barophilic bacterial species isolated from a deep-sea sediment. | Q32050751 | ||
Desulfovibrio hydrothermalis sp. nov., a novel sulfate-reducing bacterium isolated from hydrothermal vents | Q33186505 | ||
Moritella profunda sp. nov. and Moritella abyssi sp. nov., two psychropiezophilic organisms isolated from deep Atlantic sediments. | Q33186795 | ||
Oceanography. Microbes, molecules, and marine ecosystems | Q33199396 | ||
Reverse methanogenesis: testing the hypothesis with environmental genomics | Q33206556 | ||
Microbial enzymes mined from the Urania deep-sea hypersaline anoxic basin | Q33222351 | ||
Novel genes for nitrite reductase and Amo-related proteins indicate a role of uncultivated mesophilic crenarchaeota in nitrogen cycling | Q33227862 | ||
Metagenomic analysis of mesopelagic Antarctic plankton reveals a novel deltaproteobacterial group | Q33232471 | ||
Comparative genomics of DNA fragments from six Antarctic marine planktonic bacteria | Q33233237 | ||
Comparative proteome approach to characterize the high-pressure stress response of Lactobacillus sanfranciscensis DSM 20451(T). | Q33233607 | ||
In-depth analyses of marine microbial community genomics | Q33248827 | ||
Pressure effects on in vivo microbial processes | Q33425155 | ||
Biochemical function and ecological significance of novel bacterial lipids in deep-sea procaryotes | Q33434444 | ||
Isolation of a deep-sea barophilic bacterium and some of its growth characteristics | Q33438091 | ||
Loss of Bacterial Motility under Pressure | Q33474925 | ||
High pressure modulation of Escherichia coli DNA gyrase activity | Q33487100 | ||
DNA/DNA hybridization to microarrays reveals gene-specific differences between closely related microbial genomes | Q33934049 | ||
Archaeal dominance in the mesopelagic zone of the Pacific Ocean | Q33934862 | ||
Monounsaturated but not polyunsaturated fatty acids are required for growth of the deep-sea bacterium Photobacterium profundum SS9 at high pressure and low temperature. | Q33984728 | ||
A study of deep-sea natural microbial populations and barophilic pure cultures using a high-pressure chemostat | Q33986143 | ||
rRNA operon copy number reflects ecological strategies of bacteria | Q33986862 | ||
Development and evaluation of functional gene arrays for detection of selected genes in the environment | Q33990933 | ||
FabF is required for piezoregulation of cis-vaccenic acid levels and piezophilic growth of the deep-Sea bacterium Photobacterium profundum strain SS9 | Q33993903 | ||
Ubiquity and diversity of ammonia-oxidizing archaea in water columns and sediments of the ocean. | Q34078488 | ||
High-density microarray of small-subunit ribosomal DNA probes | Q34114910 | ||
Cultivation of the ubiquitous SAR11 marine bacterioplankton clade. | Q34143482 | ||
Novel major archaebacterial group from marine plankton | Q34354657 | ||
A study of the effects of hydrostatic pressure on macromolecular synthesis in Escherichia coli | Q34355390 | ||
Cultivating the uncultured | Q34388876 | ||
Desulfovibrio profundus sp. nov., a novel barophilic sulfate-reducing bacterium from deep sediment layers in the Japan Sea. | Q34421686 | ||
Evolutionary relationships of cultivated psychrophilic and barophilic deep-sea bacteria | Q34424181 | ||
Genetic diversity in Sargasso Sea bacterioplankton | Q34540053 | ||
Microbial ecology and evolution: a ribosomal RNA approach | Q34658122 | ||
Microarray-based analysis of subnanogram quantities of microbial community DNAs by using whole-community genome amplification | Q34719033 | ||
A Sanger/pyrosequencing hybrid approach for the generation of high-quality draft assemblies of marine microbial genomes | Q34983920 | ||
Direct profiling of environmental microbial populations by thermal dissociation analysis of native rRNAs hybridized to oligonucleotide microarrays | Q34992517 | ||
Quantifying archaeal community autotrophy in the mesopelagic ocean using natural radiocarbon. | Q35025035 | ||
Microarrays for bacterial detection and microbial community analysis | Q35165307 | ||
Microbial life at high pressures | Q35280634 | ||
ompH gene expression is regulated by multiple environmental cues in addition to high pressure in the deep-sea bacterium Photobacterium species strain SS9 | Q35579600 | ||
Microarray-based analysis of microbial community RNAs by whole-community RNA amplification. | Q35633445 | ||
Bacillus subtilis genome diversity | Q35634576 | ||
The unique 16S rRNA genes of piezophiles reflect both phylogeny and adaptation | Q35642034 | ||
Psychropiezophilic microorganisms | Q35941307 | ||
Stress response of Escherichia coli to elevated hydrostatic pressure. | Q36123732 | ||
Evidence for RecA protein association with the cell membrane and for changes in the levels of major outer membrane proteins in SOS-induced Escherichia coli cells | Q36365196 | ||
Piezophilic adaptation: a genomic point of view | Q36509437 | ||
Analysis of hydrostatic pressure effects on transcription in Escherichia coli by DNA microarray procedure | Q38337179 | ||
Response of pathogenic Vibrio species to high hydrostatic pressure | Q39482291 | ||
RecD function is required for high-pressure growth of a deep-sea bacterium | Q39495111 | ||
Oligonucleotide microarray for 16S rRNA gene-based detection of all recognized lineages of sulfate-reducing prokaryotes in the environment | Q39648709 | ||
Starvation Response of the Marine Barophile CNPT-3 | Q39894388 | ||
Use of a reporter gene to follow high-pressure signal transduction in the deep-sea bacterium Photobacterium sp. strain SS9 | Q39937912 | ||
An SOS response induced by high pressure in Escherichia coli. | Q39964474 | ||
Proteins under pressure. The influence of high hydrostatic pressure on structure, function and assembly of proteins and protein complexes | Q40748944 | ||
Pressure stability of proteins | Q40788704 | ||
Microbiology to 10,500 meters in the deep sea. | Q40945241 | ||
Pressure-induced dissociation of tight couple ribosomes | Q41205027 | ||
Molecular analyses of the sediment of the 11,000-m deep Mariana Trench | Q42681764 | ||
Pressure effects on Clostridium strains isolated from a cold deep-sea environment | Q43015345 | ||
The molecular biology of barophilic bacteria | Q43025555 | ||
Structure and regulation of the omega-3 polyunsaturated fatty acid synthase genes from the deep-sea bacterium Photobacterium profundum strain SS9. | Q44021569 | ||
Induction of the SOS response in starved Escherichia coli | Q44119856 | ||
SulA-independent filamentation of Escherichia coli during growth after release from high hydrostatic pressure treatment | Q44623284 | ||
In situ experimental evidence of the fate of a phytodetritus pulse at the abyssal sea floor. | Q44736525 | ||
High-throughput cultivation of microorganisms using microcapsules | Q46198172 | ||
Two chemically distinct pools of organic nitrogen accumulate in the ocean | Q46488009 | ||
Effects of high hydrostatic pressure on bacterial cytoskeleton FtsZ polymers in vivo and in vitro | Q47376687 | ||
Evaluation of high hydrostatic pressure sensitivity of Staphylococcus aureus and Escherichia coli O157:H7 by differential scanning calorimetry | Q47584925 | ||
Alternative repair pathways for UV-induced DNA damage | Q47997507 | ||
Mrr instigates the SOS response after high pressure stress in Escherichia coli. | Q54629570 | ||
Serial analysis of V6 ribosomal sequence tags (SARST-V6): a method for efficient, high-throughput analysis of microbial community composition. | Q54682890 | ||
P433 | issue | 1 | |
P921 | main subject | deep sea | Q1070117 |
habitat | Q52105 | ||
P304 | page(s) | 15-25 | |
P577 | publication date | 2007-01-17 | |
P1433 | published in | Extremophiles | Q15766992 |
P1476 | title | Prokaryotic lifestyles in deep sea habitats. | |
P478 | volume | 12 |