Abstract is: Edward Francis DeLong (born 1958), is a marine microbiologist and professor in the Department of Oceanography at the University of Hawaii, Manoa, and is considered a pioneer in the field of metagenomics. He is best known for his discovery of the bacterial use of the rhodopsin protein in converting sunlight to biochemical energy in marine microbial communities.
| human | Q5 |
| P8214 | curriculum vitae URL | https://www.soest.hawaii.edu/oceanography/faculty/CV/2019/DeLong.CV_July2019.pdf |
| P6178 | Dimensions author ID | 01011374764.11 |
| P646 | Freebase ID | /m/0gfgf0z |
| P1960 | Google Scholar author ID | wEkWbTQAAAAJ |
| P269 | IdRef ID | 172454271 |
| P5380 | National Academy of Sciences member ID | 65273 |
| P8189 | National Library of Israel J9U ID | 987007323131305171 |
| P1207 | NUKAT ID | n2014081544 |
| P496 | ORCID iD | 0000-0002-3088-4965 |
| P6023 | ResearchGate contributions ID | 38620444 |
| P214 | VIAF ID | 305451387 |
| P166 | award received | Fellow of the American Association for the Advancement of Science | Q5442484 |
| Vladimir Ivanovich Vernadsky Medal | Q21129798 | ||
| A.G. Huntsman Award for Excellence in the Marine Sciences | Q23578865 | ||
| P27 | country of citizenship | United States of America | Q30 |
| P69 | educated at | University of California, Davis | Q129421 |
| Scripps Institution of Oceanography | Q604029 | ||
| Santa Rosa Junior College | Q7419896 | ||
| P108 | employer | Massachusetts Institute of Technology | Q49108 |
| University of Hawaiʻi at Mānoa | Q2000129 | ||
| P734 | family name | DeLong | Q110859487 |
| DeLong | Q110859487 | ||
| DeLong | Q110859487 | ||
| P735 | given name | Edward | Q278835 |
| Edward | Q278835 | ||
| P463 | member of | American Association for the Advancement of Science | Q40358 |
| National Academy of Sciences | Q270794 | ||
| American Academy of Arts and Sciences | Q463303 | ||
| American Society for Microbiology | Q466809 | ||
| Association for the Sciences of Limnology and Oceanography | Q743678 | ||
| American Academy of Microbiology | Q24736527 | ||
| P106 | occupation | microbiologist | Q3779582 |
| researcher | Q1650915 | ||
| P21 | sex or gender | male | Q6581097 |
| Q51615041 | A cryptic sulfur cycle in oxygen-minimum-zone waters off the Chilean coast. |
| Q90240724 | A distinct lineage of giant viruses brings a rhodopsin photosystem to unicellular marine predators |
| Q24614435 | A psychrophilic crenarchaeon inhabits a marine sponge: Cenarchaeum symbiosum gen. nov., sp. nov |
| Q107522114 | A system of coordinated autonomous robots for Lagrangian studies of microbes in the oceanic deep chlorophyll maximum |
| Q33760140 | Abundances of crenarchaeal amoA genes and transcripts in the Pacific Ocean |
| Q55951015 | Aerobic production of methane in the sea |
| Q53418319 | Alien invasions and gut "island biogeography". |
| Q59032643 | All in the packaging |
| Q97418790 | Alternative strategies of nutrient acquisition and energy conservation map to the biogeography of marine ammonia-oxidizing archaea |
| Q24564723 | Archaea in coastal marine environments |
| Q34597648 | Archaeal mysteries of the deep revealed |
| Q34539332 | Archaeal pre-mRNA splicing: a connection to hetero-oligomeric splicing endonuclease |
| Q89789352 | Assembly-free single-molecule sequencing recovers complete virus genomes from natural microbial communities |
| Q46244262 | Bacterial Succession on Sinking Particles in the Ocean's Interior |
| Q46252443 | Bacteriophage Distributions and Temporal Variability in the Ocean's Interior |
| Q117742639 | Biogeochemical Dynamics in Adjacent Mesoscale Eddies of Opposite Polarity |
| Q64917270 | Biological composition and microbial dynamics of sinking particulate organic matter at abyssal depths in the oligotrophic open ocean. |
| Q57307467 | Characterization of a DMSP-degrading bacterial isolate from the Sargasso Sea |
| Q34772467 | Characterization of canthaxanthin biosynthesis genes from an uncultured marine bacterium |
| Q33366838 | Characterizing microbial diversity in production water from an Alaskan mesothermic petroleum reservoir with two independent molecular methods |
| Q37683595 | Closely related phytoplankton species produce similar suites of dissolved organic matter. |
| Q100504019 | Combined pigment and metatranscriptomic analysis reveals highly synchronized diel patterns of phenotypic light response across domains in the open oligotrophic ocean |
| Q35086390 | Community transcriptomics reveals universal patterns of protein sequence conservation in natural microbial communities |
| Q34096903 | Comparative genomic analysis of archaeal genotypic variants in a single population and in two different oceanic provinces |
| Q33233237 | Comparative genomics of DNA fragments from six Antarctic marine planktonic bacteria |
| Q33471287 | Comparative metagenomic analysis of a microbial community residing at a depth of 4,000 meters at station ALOHA in the North Pacific subtropical gyre |
| Q39649988 | Comparison of fluorescently labeled oligonucleotide and polynucleotide probes for the detection of pelagic marine bacteria and archaea |
| Q34245967 | Comparison of large-insert, small-insert and pyrosequencing libraries for metagenomic analysis |
| Q55088823 | Comparison of large-insert, small-insert and pyrosequencing libraries for metagenomic analysis. |
| Q110912378 | Complex marine microbial communities partition metabolism of scarce resources over the diel cycle |
| Q38651984 | Coordinated regulation of growth, activity and transcription in natural populations of the unicellular nitrogen-fixing cyanobacterium Crocosphaera. |
| Q59698177 | Correction: Pathways of Carbon Assimilation and Ammonia Oxidation Suggested by Environmental Genomic Analyses of Marine Crenarchaeota |
| Q60538655 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538656 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538658 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538660 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538661 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538664 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538665 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538666 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q60538710 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times |
| Q45823112 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times. |
| Q45910661 | Correction: The Light-Driven Proton Pump Proteorhodopsin Enhances Bacterial Survival during Tough Times. |
| Q33306603 | Design and testing of 'genome-proxy' microarrays to profile marine microbial communities |
| Q33539537 | Development and quantitative analyses of a universal rRNA-subtraction protocol for microbial metatranscriptomics |
| Q33713469 | Dibiphytanyl ether lipids in nonthermophilic crenarchaeotes |
| Q90680974 | Diel Oscillation of Microbial Gene Transcripts Declines With Depth in Oligotrophic Ocean Waters |
| Q46025251 | Diel cycling and long-term persistence of viruses in the ocean's euphotic zone. |
| Q93046145 | Diel cycling of the cosmopolitan abundant Pelagibacter virus 37-F6: one of the most abundant viruses on earth |
| Q33205789 | Different SAR86 subgroups harbour divergent proteorhodopsins |
| Q44716394 | Distinct dissolved organic matter sources induce rapid transcriptional responses in coexisting populations of Prochlorococcus, Pelagibacter and the OM60 clade. |
| Q113167821 | Diverse Genomic Traits Differentiate Sinking-Particle-Associated versus Free-Living Microbes throughout the Oligotrophic Open Ocean Water Column |
| Q36185166 | Diversity and Activity of Communities Inhabiting Plastic Debris in the North Pacific Gyre |
| Q124852568 | Diversity and origins of bacterial and archaeal viruses on sinking particles reaching the abyssal ocean |
| Q33991157 | Diversity of radA genes from cultured and uncultured archaea: comparative analysis of putative RadA proteins and their use as a phylogenetic marker |
| Q89723354 | Double-stranded DNA virioplankton dynamics and reproductive strategies in the oligotrophic open ocean water column |
| Q34107835 | Draft genome sequence of marine alphaproteobacterial strain HIMB11, the first cultivated representative of a unique lineage within the Roseobacter clade possessing an unusually small genome |
| Q36011755 | Draft genome sequence of strain HIMB100, a cultured representative of the SAR116 clade of marine Alphaproteobacteria |
| Q57900050 | Enhanced metabolic versatility of planktonic sulfur-oxidizing γ-proteobacteria in an oxygen-deficient coastal ecosystem |
| Q22066163 | Environmental Diversity of Bacteria and Archaea |
| Q38624954 | Environmental drivers of a microbial genomic transition zone in the ocean's interior. |
| Q57201525 | Erratum: Corrigendum: Genomic perspectives in microbial oceanography |
| Q84008787 | Evolution. Microbial evolution in the wild |
| Q34277761 | Experimental incubations elicit profound changes in community transcription in OMZ bacterioplankton |
| Q33307513 | Fosmids of novel marine Planctomycetes from the Namibian and Oregon coast upwelling systems and their cross-comparison with planctomycete genomes. |
| Q33606881 | Functional characterization of flavobacteria rhodopsins reveals a unique class of light-driven chloride pump in bacteria |
| Q35889929 | Genetic Diversity Affects the Daily Transcriptional Oscillations of Marine Microbial Populations |
| Q22066321 | Genomic analysis of the uncultivated marine crenarchaeote Cenarchaeum symbiosum |
| Q32016534 | Genomic analysis reveals chromosomal variation in natural populations of the uncultured psychrophilic archaeon Cenarchaeum symbiosum |
| Q24810416 | Genomic encyclopedia of bacteria and archaea: sequencing a myriad of type strains |
| Q34504656 | Genomic islands and the ecology and evolution of Prochlorococcus. |
| Q33346822 | Genomic patterns of recombination, clonal divergence and environment in marine microbial populations |
| Q33990073 | Genomic perspectives in microbial oceanography |
| Q35536033 | Genomic potential for nitrogen assimilation in uncultivated members of Prochlorococcus from an anoxic marine zone |
| Q42590040 | Genomic potential for nitrogen assimilation in uncultivated members of Prochlorococcus from an anoxic marine zone. |
| Q35943235 | Growth and methane oxidation rates of anaerobic methanotrophic archaea in a continuous-flow bioreactor |
| Q42059135 | Growth and population dynamics of anaerobic methane-oxidizing archaea and sulfate-reducing bacteria in a continuous-flow bioreactor |
| Q36756366 | High molecular weight dissolved organic matter enrichment selects for methylotrophs in dilution to extinction cultures |
| Q24530576 | Histones in crenarchaea |
| Q30980403 | Identification of methyl coenzyme M reductase A (mcrA) genes associated with methane-oxidizing archaea |
| Q35931896 | Improved Environmental Genomes via Integration of Metagenomic and Single-Cell Assemblies |
| Q33768696 | Integrated metatranscriptomic and metagenomic analyses of stratified microbial assemblages in the open ocean |
| Q21184039 | Interesting things come in small packages |
| Q110912435 | Iron Depletion in the Deep Chlorophyll Maximum: Mesoscale Eddies as Natural Iron Fertilization Experiments |
| Q46272073 | Isolation and Characterization of Bacteria That Degrade Phosphonates in Marine Dissolved Organic Matter |
| Q93132791 | Kīlauea lava fuels phytoplankton bloom in the North Pacific Ocean |
| Q33382123 | Large-scale screens of metagenomic libraries |
| Q38526222 | Light-induced transcriptional responses associated with proteorhodopsin-enhanced growth in a marine flavobacterium |
| Q36140821 | Low genomic diversity in tropical oceanic N2-fixing cyanobacteria |
| Q61757258 | MOLECULAR PHYLOGENETIC ANALYSIS OF THE HETEROTROPHIC CHRYSOPHYTE GENUS PARAPHYSOMONAS (CHRYSOPHYCEAE), AND THE DESIGN OF rRNA-TARGETED OLIGONUCLEOTIDE PROBES FOR TWO SPECIES |
| Q31130885 | Marine Bacterial and Archaeal Ion-Pumping Rhodopsins: Genetic Diversity, Physiology, and Ecology. |
| Q28743015 | Meeting Report: BioSharing at ISMB 2010 |
| Q28743033 | Meeting Report: Metagenomics, Metadata and MetaAnalysis (M3) at ISMB 2010 |
| Q34108029 | Meeting report: Ocean 'omics science, technology and cyberinfrastructure: current challenges and future requirements (August 20-23, 2013). |
| Q31138327 | Metagenomic analysis of size-fractionated picoplankton in a marine oxygen minimum zone |
| Q33221279 | Metagenomic analysis reveals diverse polyketide synthase gene clusters in microorganisms associated with the marine sponge Discodermia dissoluta |
| Q33946333 | Metatranscriptomic analysis of autonomously collected and preserved marine bacterioplankton |
| Q35075429 | Metatranscriptomic analysis of sulfur oxidation genes in the endosymbiont of solemya velum |
| Q37342455 | Metatranscriptomic and functional metagenomic analysis of methylphosphonate utilization by marine bacteria |
| Q34981167 | Metatranscriptomics reveals unique microbial small RNAs in the ocean's water column |
| Q112783557 | Microbial Sources of Exocellular DNA in the Ocean |
| Q41857893 | Microbial communities in nature and laboratory--interview |
| Q24651959 | Microbial community gene expression in ocean surface waters |
| Q36123645 | Microbial community genomics in the ocean |
| Q31087253 | Microbial community phylogenetic and trait diversity declines with depth in a marine oxygen minimum zone |
| Q35622234 | Microbial community structure and function on sinking particles in the North Pacific Subtropical Gyre |
| Q35567171 | Microbial community transcriptional networks are conserved in three domains at ocean basin scales. |
| Q34151710 | Microbial community transcriptomes reveal microbes and metabolic pathways associated with dissolved organic matter turnover in the sea |
| Q126208163 | Microbial dynamics of elevated carbon flux in the open ocean’s abyss |
| Q34413958 | Microbial eukaryote diversity in the marine oxygen minimum zone off northern Chile |
| Q33787220 | Microbial metatranscriptomics in a permanent marine oxygen minimum zone. |
| Q34921895 | Microbial population genomics and ecology |
| Q51193549 | Microbial population genomics and ecology: the road ahead. |
| Q80642236 | Microbiology. Life on the thermodynamic edge |
| Q51561119 | Microbiology. Microbial life breathes deep. |
| Q51701449 | Modern microbial seascapes. Forward. |
| Q33186077 | Molecular diversity among marine picophytoplankton as revealed by psbA analyses. |
| Q34065053 | Multiple archaeal groups mediate methane oxidation in anoxic cold seep sediments |
| Q46355766 | Near real-time, autonomous detection of marine bacterioplankton on a coastal mooring in Monterey Bay, California, using rRNA-targeted DNA probes |
| Q113226711 | Novel Integrative Elements and Genomic Plasticity in Ocean Ecosystems |
| Q33193403 | Novel Proteorhodopsin variants from the Mediterranean and Red Seas. |
| Q112664049 | Novel integrative elements and genomic plasticity in ocean ecosystems |
| Q53504836 | Ocean microbes. Multispecies diel transcriptional oscillations in open ocean heterotrophic bacterial assemblages. |
| Q34440876 | Oxygen at nanomolar levels reversibly suppresses process rates and gene expression in anammox and denitrification in the oxygen minimum zone off northern Chile |
| Q34435061 | Oxygen minimum zones harbour novel viral communities with low diversity |
| Q21563616 | Pathways of carbon assimilation and ammonia oxidation suggested by environmental genomic analyses of marine Crenarchaeota |
| Q34560505 | Pattern and synchrony of gene expression among sympatric marine microbial populations. |
| Q90836877 | Persistent Core Populations Shape the Microbiome Throughout the Water Column in the North Pacific Subtropical Gyre |
| Q53170694 | PhnY and PhnZ comprise a new oxidative pathway for enzymatic cleavage of a carbon-phosphorus bond. |
| Q93019366 | Phosphate-limited ocean regions select for bacterial populations enriched in the carbon-phosphorus lyase pathway for phosphonate degradation |
| Q82054027 | Phosphite utilization by the marine picocyanobacterium Prochlorococcus MIT9301 |
| Q33336810 | Phylogenetic analyses of ribosomal DNA-containing bacterioplankton genome fragments from a 4000 m vertical profile in the North Pacific Subtropical Gyre |
| Q98181215 | Planet Microbe: a platform for marine microbiology to discover and analyze interconnected 'omics and environmental data |
| Q28655550 | Planktonic Euryarchaeota are a significant source of archaeal tetraether lipids in the ocean |
| Q128342726 | Planktonic microbial signatures of sinking particle export in the open ocean’s interior |
| Q34028365 | Potential for chemolithoautotrophy among ubiquitous bacteria lineages in the dark ocean. |
| Q74536745 | Power from the deep |
| Q85984539 | Preface. Microbial metagenomics, metatranscriptomics, and metaproteomics |
| Q37544245 | Prokaryotic Super Program Advisory Committee DOE Joint Genome Institute, Walnut Creek, CA, March 27, 2013. |
| Q33194028 | Proteorhodopsin genes are distributed among divergent marine bacterial taxa |
| Q33234083 | Proteorhodopsin lateral gene transfer between marine planktonic Bacteria and Archaea |
| Q34577632 | Proteorhodopsin photosystem gene clusters exhibit co-evolutionary trends and shared ancestry among diverse marine microbial phyla |
| Q51151437 | Proteorhodopsin variability and distribution in the North Pacific Subtropical Gyre. |
| Q36471250 | Public good dynamics drive evolution of iron acquisition strategies in natural bacterioplankton populations |
| Q36202258 | Quantitative Transcriptomics Reveals the Growth- and Nutrient-Dependent Response of a Streamlined Marine Methylotroph to Methanol and Naturally Occurring Dissolved Organic Matter. |
| Q33283349 | Quantitative distribution of presumptive archaeal and bacterial nitrifiers in Monterey Bay and the North Pacific Subtropical Gyre |
| Q60065936 | Reconstructing the wild types |
| Q42955348 | Reply to Schouten et al.: Marine Group II planktonic Euryarchaeota are significant contributors to tetraether lipids in the ocean |
| Q33206556 | Reverse methanogenesis: testing the hypothesis with environmental genomics |
| Q28817115 | Siderophore-based microbial adaptations to iron scarcity across the eastern Pacific Ocean |
| Q33801668 | Single-cell enabled comparative genomics of a deep ocean SAR11 bathytype |
| Q48095607 | Solar-panel and parasol strategies shape the proteorhodopsin distribution pattern in marine Flavobacteriia |
| Q41045997 | Structural Mechanism for Light-driven Transport by a New Type of Chloride Ion Pump, Nonlabens marinus Rhodopsin-3. |
| Q88637444 | Thank You Ken, Joan and Dave, for 20 years of Environmental Microbiology! |
| Q33570577 | The light-driven proton pump proteorhodopsin enhances bacterial survival during tough times |
| Q34780678 | The microbial engines that drive Earth's biogeochemical cycles. |
| Q34981152 | The microbial ocean from genomes to biomes |
| Q43529586 | Time-series analyses of Monterey Bay coastal microbial picoplankton using a 'genome proxy' microarray |
| Q88637438 | Towards a microbial universal theory of all (nearly) totality: MUTANT |
| Q77983084 | Towards microbial systems science: integrating microbial perspective, from genomes to biomes |
| Q43981934 | Transcriptional responses of surface water marine microbial assemblages to deep-sea water amendment |
| Q34113142 | Unsuspected diversity among marine aerobic anoxygenic phototrophs |
| Q33507426 | Widespread known and novel phosphonate utilization pathways in marine bacteria revealed by functional screening and metagenomic analyses |
| Q35863141 | Wind and sunlight shape microbial diversity in surface waters of the North Pacific Subtropical Gyre |
| Category:Edward DeLong | wikimedia | |
| Edward F. DeLong | wikimedia | |
| Edward DeLong | wikipedia |
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