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Articles 1 - 9 of 9
Full-Text Articles in Marine Biology
Characterization Of The Bioluminescent Symbionts From Ceratioids Collected In The Gulf Of Mexico, Lindsay L. Freed
Characterization Of The Bioluminescent Symbionts From Ceratioids Collected In The Gulf Of Mexico, Lindsay L. Freed
HCNSO Student Theses and Dissertations
Anglerfishes are easily one of the most popular deep-sea creatures due to their menacing appearance, extreme sexual dimorphism, parasitic mating approach, and eye catching bioluminescent lure. Unlike most bioluminescent fishes, which intrinsically generate light, female anglerfishes belonging to nine of the 11 families within the suborder Ceratioidei (deep-sea anglerfishes) have developed a symbiotic relationship with bioluminescent bacteria that are housed within the light organs. Previous molecular work had identified symbionts from two anglerfish species as novel and possibly unculturable taxa (Haygood et al., 1992), but nothing more has been revealed about the bioluminecent symbionts of ceratioids. As part of …
Fine Grained Compositional Analysis Of Port Everglades Inlet Microbiome Using High Throughput Dna Sequencing, Lauren M. O'Connell, Song Gao, Donald S. Mccorquodale Jr., Jay M. Fleisher, Jose Lopez
Fine Grained Compositional Analysis Of Port Everglades Inlet Microbiome Using High Throughput Dna Sequencing, Lauren M. O'Connell, Song Gao, Donald S. Mccorquodale Jr., Jay M. Fleisher, Jose Lopez
Marine & Environmental Sciences Faculty Articles
Background
Similar to natural rivers, manmade inlets connect inland runoff to the ocean. Port Everglades Inlet (PEI) is a busy cargo and cruise ship port in South Florida, which can act as a source of pollution to surrounding beaches and offshore coral reefs. Understanding the composition and fluctuations of bacterioplankton communities (“microbiomes”) in major port inlets is important due to potential impacts on surrounding environments. We hypothesize seasonal microbial fluctuations, which were profiled by high throughput 16S rRNA amplicon sequencing and analysis.
Methods & Results
Surface water samples were collected every week for one year. A total of four samples …
Microbiome And Bacterioplankton Rrna Gene Sequence Data Collected From Gulf Of Mexico Seawater Samples, Cruises Dp03 And Dp04 From April - August 2016, Cole Easson, Lindsey Freed
Microbiome And Bacterioplankton Rrna Gene Sequence Data Collected From Gulf Of Mexico Seawater Samples, Cruises Dp03 And Dp04 From April - August 2016, Cole Easson, Lindsey Freed
DEEPEND Datasets
Seawater was collected and filtered for microbiome and bacterioplankton sequencing and analyses at various depths during planned DEEPEND cruise expeditions to the GOM in 2016. Filters were stored and then processed for total environmental genomic DNA according to standard methods (see earthmicrobiome.org). 16S rRNA amplicon libraries covering the V4 hypervariable regions were generated with universal PCR primers and then sequenced on an Illumina MiSeq DNA sequencing platform. Raw paired-end sequences were joined and quality filtered in the bioinformatics program, QIIME. Vertical baseline characterizations will track alpha and beta diversity at different depths ranging from 0 – 1500 m, assess seasonal …
Dna Sequences Of The Mitochondrial Cytochrome C Oxidase I (Coi) Genes From Deep Sea Fishes, Cruises Dp03 And Dp04 From May 2016 - August 2016, Max Weber, Kimberly A. Finnegan, Andrea Bernard, Ron Eytan, Mahmood S. Shivji
Dna Sequences Of The Mitochondrial Cytochrome C Oxidase I (Coi) Genes From Deep Sea Fishes, Cruises Dp03 And Dp04 From May 2016 - August 2016, Max Weber, Kimberly A. Finnegan, Andrea Bernard, Ron Eytan, Mahmood S. Shivji
DEEPEND Datasets
The deep sea ecosystem is believed to contain the highest biomass of fish in the oceans. However, the taxonomic diversity in this ecosystem is incompletely described and likely to be vastly underestimated. DNA sequence data (barcodes) have become a key tool to discover hidden biodiversity. We generated mitochondrial DNA barcode datasets based on the Cytochrome c oxidase I (COI) gene from deep sea fishes. These data were analyzed using phylogenetic and statistical methods to reveal cryptic species and make taxonomic linkages between adult fishes and their early life stages. These datasets were generated from fishes collected in the northern Gulf …
Mitochondrial Dna Sequence Alignments And Raw Fastq Files For The Population Genetic Analysis Of The Deep Sea Isopod, Bathynomus Giganteus, Laura Timm, Barbara Moahamed
Mitochondrial Dna Sequence Alignments And Raw Fastq Files For The Population Genetic Analysis Of The Deep Sea Isopod, Bathynomus Giganteus, Laura Timm, Barbara Moahamed
DEEPEND Datasets
This data set includes three alignments (12S, 16S, COI) of mitochondrial DNA sequences, as well as two raw fastq files generated through the next-generation sequencing (NGS) method ddRADseq. This data was collected from Bathynomus giganteus specimens collected from throughout the northeastern Gulf of Mexico.
Mitochondrial And Nuclear Sequences For Phylogenetic Analysis Of Three Cephalopod Species, Northern Gulf Of Mexico, May 2015 To May 2017, Amanda Sosnowki
Mitochondrial And Nuclear Sequences For Phylogenetic Analysis Of Three Cephalopod Species, Northern Gulf Of Mexico, May 2015 To May 2017, Amanda Sosnowki
DEEPEND Datasets
The midwater column contains a wide diversity of cephalopods in the northern Gulf of Mexico. DNA sequence data (barcodes) have become a key tool to discover hidden biodiversity. We generated mitochondrial DNA barcode datasets based on the Cytochrome c oxidase I (COI), 16s, and 28s genes from cephalopods. These data were analyzed using phylogenetic methods to examine possible connectivity of 3 species (Vampyroteuthis infernalis, Pyroteuthis margaritifera, and Cranchia scabra) between two basins, the Gulf of Mexico and the area surrounding Bear Seamount in the northwestern Atlantic Ocean. These datasets were generated from cephalopods collected in the northern Gulf of Mexico …
16s And Coi Barcoding Sequences For Crustaceans Collected From The Northern Gulf Of Mexico For Cruises Dp02, Dp03, And Dp04 From August 2015 - August 2016, Heather Bracken-Grissom Dr.
16s And Coi Barcoding Sequences For Crustaceans Collected From The Northern Gulf Of Mexico For Cruises Dp02, Dp03, And Dp04 From August 2015 - August 2016, Heather Bracken-Grissom Dr.
DEEPEND Datasets
These are the 16S and COI barcoding sequences for crustaceans collected on cruises DP02, DP03, and DP04. These barcodes, obtained from the species we collected, will be used to aid in species identification efforts, evolutionary relationships analyses, adult-larval linkages, and new species discoveries. Samples were taken from animals collected during cruises that took place in the northern Gulf of Mexico from August 2015 - August 2016.
Dna Sequences Of Mitochondrial Cytochrome C Oxidase I (Coi) Genes From Deep Sea Fishes Collected During Deepend Cruise Dp05 From 2017-05-01 To 2017-05-11, Kimberly A. Finnegan, Andrea Bernard, M. Weber, Ron Eytan, Mahmood S. Shivji
Dna Sequences Of Mitochondrial Cytochrome C Oxidase I (Coi) Genes From Deep Sea Fishes Collected During Deepend Cruise Dp05 From 2017-05-01 To 2017-05-11, Kimberly A. Finnegan, Andrea Bernard, M. Weber, Ron Eytan, Mahmood S. Shivji
DEEPEND Datasets
Deep sea fishes were collected in the northern Gulf of Mexico during DEEPEND cruise DP05 from May 1 to 11, 2017. This dataset contains Genbank accession numbers of DNA sequences of the mitochondrial Cytochrome c oxidase I (COI) gene from fish species collected.
Comparison Of Porifera Bacterial Symbiont Community Profiles Based On Host Species And Source Template, Celeste Banfill, Jose Lopez
Comparison Of Porifera Bacterial Symbiont Community Profiles Based On Host Species And Source Template, Celeste Banfill, Jose Lopez
Lopez Laboratory: Genomics & Microbial Data
The present microbiome study reports a follow up microbiome characterization of the Porifera Tree of Life (PorToL) project, which has recognized the significance of understanding the evolutionary relationships among diverse sponge taxa (Redmond et al 2012; Thacker et al, 2013; and see http://Portol.org). The aim of this research is to opportunistically expand on the work of Hill et al. (2013) to provide preliminary data that 1) compares the diversity of bacterial communities across eight sponge taxa and 2) compares the differences between DNA and cDNA (RNA) generated 16S rRNA data to distinguish active vs. non-active bacteria.