2024
Lost in the dark: Antipatharia-Symbiodiniaceae association in the deep waters of the Red Sea
Vicario S, Terraneo T, Castano C, Chimienti G, Oury N, Vimercati S, Hume B, Marchese F, Nolan M, Eweida A, Purkis S, Rodrigue M, Pieribone V, Qurban M, Duarte C, Benzoni F. Lost in the dark: Antipatharia-Symbiodiniaceae association in the deep waters of the Red Sea. Frontiers In Marine Science 2024, 11: 1330118. DOI: 10.3389/fmars.2024.1330118.Peer-Reviewed Original ResearchBlack coralsSaudi Arabian Red SeaRed SeaDiversity of SymbiodiniaceaeRed Sea recordsEfficient photosynthetic activityDeep marine ecosystemsHigh-throughput sequencingAssociated with dinoflagellatesHeterotrophic feedingFamily SymbiodiniaceaeHard coralsITS2 regionObligate autotrophsMarine ecosystemsSymbiodiniaceaeLow light penetrationPhotosynthetic activityCommunity diversityNo significant patternCoralsSampling localitiesEvolutionary processWater environmentSymbiotic relationshipDiversity and distribution of coral gall crabs associated with Red Sea mesophotic corals
Vimercati S, Terraneo T, Marchese F, Eweida A, Rodrigue M, Pieribone V, Qurban M, Duarte C, Benzoni F. Diversity and distribution of coral gall crabs associated with Red Sea mesophotic corals. Frontiers In Marine Science 2024, 11: 1305396. DOI: 10.3389/fmars.2024.1305396.Peer-Reviewed Original ResearchSaudi Arabian Red SeaRed SeaMesophotic coralsMesophotic depthsRemotely operated vehicleCoral-associated faunaReef-building coralsSaudi Arabian coastShallow-water coralsNorthern Red SeaFamily AgariciidaeMarine biodiversityGall crabsOpecarcinusSemi-enclosed basinCoralsArabian coastObligate symbiosisNuclear markersPhylogenetic treeDecapod speciesDepth distributionSpeciesSeaGenus
2008
Patterns of fluorescent protein expression in Scleractinian corals.
Gruber DF, Kao HT, Janoschka S, Tsai J, Pieribone VA. Patterns of fluorescent protein expression in Scleractinian corals. Biological Bulletin 2008, 215: 143-54. PMID: 18840775, DOI: 10.2307/25470695.Peer-Reviewed Original ResearchConceptsFluorescent proteinGreat Barrier ReefDistribution of zooxanthellaeFluorescent protein distributionMajority of speciesAustralia's Great Barrier ReefClasses of organismsGreen fluorescent proteinFluorescent protein expressionCoral speciesScleractinian coralsMost speciesProtein distributionBarrier ReefCoralsTargeted expressionProteinSpeciesVariety of familiesProtein expressionBiofluorescenceOrganismsStudy sitesSignificant overlapDistinct patterns
2007
Dynamic Regulation of Fluorescent Proteins from a Single Species of Coral
Kao HT, Sturgis S, DeSalle R, Tsai J, Davis D, Gruber DF, Pieribone VA. Dynamic Regulation of Fluorescent Proteins from a Single Species of Coral. Marine Biotechnology 2007, 9: 733-746. PMID: 17955294, DOI: 10.1007/s10126-007-9025-1.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnthozoaBase SequenceDNA PrimersEnvironmentGene Expression ProfilingGene Expression RegulationLuminescent ProteinsMolecular Sequence DataPhylogenyPigmentationReproducibility of ResultsReverse Transcriptase Polymerase Chain ReactionRNA, Ribosomal, 18SSensitivity and SpecificityStatistics as TopicTubulinConceptsFluorescent proteinMontastraea cavernosaSingle speciesBelizean Barrier ReefGroup of proteinsFluorescent protein familyNatural functionProtein familyDynamic regulationBarrier ReefProteinSpeciesOverall expressionCoralsPhysiological conditionsCurrent hypothesesExpressionNatural colorationReefsDistinct spectral classesColorationBetter understandingRegulationTurneffeFamily