Dataset: Etelis spp. rangewide genetic data

Name: Microsatellite genotypes, and cytb sequences for Etelis coruscans, Etelis carbunculus, and Etelis sp. and sample collection information in the Indo-Pacific Ocean from 1997 and 2012
Published: 2022-04-26
Keywords: oceans

Cite This Dataset

DOI:10.26008/1912/bco-dmo.873568.1

Spatial Extent: N:32 E:-120.1551564 S:-35 W:29.8892

Temporal Extent: 1997 - 2012

Project:

Origins of Hawaiian Reef Fishes (Hawaiian Fish Origins)

Program:

Indo-Pac Research Coordination Network (Indo-Pac RCN)

Principal Investigator:

Brian Bowen (University of Hawai'i, UH)

Scientist:

Kimberly R. Andrews (University of Hawai'i, UH)

BCO-DMO Data Manager:

Amber D. York (Woods Hole Oceanographic Institution, WHOI BCO-DMO)

Version:

Version Date:

2022-04-26

Restricted:

Validated:

Yes

Current State:

Final no updates expected

Microsatellite genotypes, and cytb sequences for Etelis coruscans, Etelis carbunculus, and Etelis sp. and sample collection information in the Indo-Pacific Ocean from 1997 and 2012

Abstract:

Sample collection locations and microsatellite genotypes, and cytb sequences for Etelis coruscans, Etelis carbunculus, and Etelis sp. samples were collected in the Indo-Pacific Ocean between 1997 and 2012. Microsatellite analysis performed in 2015 - 2017. These data were published in Andrews et al. (2020).

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Archival Copy

Version Date	Archive	Persistent Identifier (PID)	Date PID Issued
2022-04-26	Marine Biological Laboratory/Woods Hole Oceanographic Institution Library (MBLWHOI DLA)	10.26008/1912/bco-dmo.873568.1	2022-05-10

Methods & Sampling

Specimen collection and DNA extraction

A total of 1,153 specimens were collected from 15 geographic regions for E. coruscans, 1,064 specimens from 11 regions for E. carbunculus, and 590 specimens from 16 regions for E. sp. Some of these specimens were used in two previous population genetic studies, as described below in the sections on mitochondrial DNA sequencing and microsatellite genotyping (Andrews et al. 2014; Andrews et al. 2016); in one of these studies, E. carbunculus was called Etelis marshi (Andrews et al. 2014) due to nomenclatural confusion and the existence of the cryptic species E. sp. (Andrews et al. 2016). Tissue specimens consisted of fin clips or muscle tissue collected by commercial fishers, purchased in fish markets, or collected on research cruises, and stored in salt-saturated DMSO buffer (Seutin et al. 1991). Within the Hawaiian Archipelago, specimens were collected between 1997 and 2012. For all other locations, specimens were collected between 2004 and 2012. Genomic DNA extractions were conducted using a phenol chloroform method (Cummings & Thorgaard 1994), DNeasy extraction kits (Qiagen, Valencia, CA, USA), or the Hotshot method (Meeker et al. 2007).

Mitochondrial DNA sequencing

We used cytochrome b (cytb) sequence data from two previous studies for E. coruscans and E. carbunculus collected throughout the Hawaiian Archipelago (Andrews et al. 2014), and for E. carbunculus and E. sp. collected from 13 additional regions in the Indo-Pacific (Andrews et al. 2016). In this study, we also generated cytb sequence data for E. coruscans specimens collected from 11 additional regions in the Indo-Pacific. PCR conditions and DNA sequencing methods were consistent across all studies. For E. coruscans, a 560bp fragment was amplified using the primers Cyb-05 L15020 (GCCAACGGCGCATCCTTCTTCTT; Meyer 1993) and Cyb-07 H15573 (AATAGGAAGTATCATTCGGGTTTGATG; Taberlet et al. 1992). For E. carbunculus and E. sp., a 524bp fragment was amplified using the primers EhucybF (TCAGTCGCACACATCTGCCG) and EhucybR (AGTGCAACAAGGACGGCTGC), both from Andrews et al. (2014); this region overlaps the region amplified for E. coruscans. PCR products were sequenced in one direction using an ABI 3730 automated DNA sequencer (Applied Biosystems, Foster City, CA), and sequences were edited and aligned using GENEIOUS PRO 5.6.2 (Biomatters, LTD, Auckland, NZ).

Microsatellite genotyping

We used microsatellite data obtained from the study of Andrews et al. (2014) for E. coruscans and E. carbunculus specimens collected throughout the Hawaiian Archipelago. We also generated microsatellite data from 10 additional Indo-Pacific locations for E. coruscans and three additional Indo-Pacific locations for E. carbunculus. Microsatellite PCR and genotyping protocols followed those described in Andrews et al. (2014), and were conducted by the same person as in the previous study for each species. A total of 10 microsatellite loci were analyzed for E. coruscans and 11 microsatellite loci for E. carbunculus. PCR products were analyzed on ABI 3730XL or ABI 3130XL genetic analyzers, with all fragments from each primer set run on one machine to avoid bias in fragment length estimates across sequencers. Fragments were scored using GENEMAPPER 4.0 (Applied Biosystems).

GENALEX 6.5 (Peakall & Smouse 2006) was used to identify specimens with identical microsatellite genotypes to determine whether any individual fish were represented more than once in the dataset. Each microsatellite locus was tested for deviations from Hardy Weinberg Equilibrium (HWE) and linkage equilibrium using ARLEQUIN 3.5.2.2 (Excoffier et al. 2005) for all locations outside of the Hawaiian Archipelago with n>10. Tests for deviation from HWE and linkage equilibrium for the samples from the Hawaiian Archipelago were reported in Andrews et al. (2014). Bayesian clustering analyses (described below) were also conducted removing one locus at a time to investigate the influence of each locus on the results.

For a description of the population structure and demographic history analyses using these data see Andrews et al. (2020).

Species List:

ScientificName,AphiaID,LSID

Etelis carbunculus,212545,urn:lsid:marinespecies.org:taxname:212545

Etelis coruscans,212544,urn:lsid:marinespecies.org:taxname:212544

Data Processing Description

BCO-DMO Data Manager Processing Notes:
* The region is known ("Indo-Pacific"). Bounding box coordinates were calculated in python using the multipolygon from marineregions.org ( MRID: 14289).
* Corrected column alignment caused by the locations with multiple words parsed into separate columns which pushed allele columns to the right. Used version Brian Bowen submitted on 2022-03-22.
* Sheet 1 in two excel files imported into the BCO-DMO Data system (Microsats_Ecoruscans_columns_realigned.xlsx, Microsats_Ecarbunculus_columns_realigned.xlsx) and tables combined
* Table transformed (unpivoted) from two columns per locus containing the first and last allele IDs, to one column for Locus_Name, Allele1_ID, and Allele2_ID.

Data Files

File
Etelis carbunculus mtDNA cytb sequence data filename: Ecarbunculus_mtDNA_cytb.fasta (FASTA, 475.49 KB) MD5:feb10ea4cacf2093f800d59f9ceb607b Etelis carbunculus mitochondrial DNA cytochrome b (cytb) sequence data in .fasta format. The description for each sequence within the fast file contains the sample name and location (e.g. >ECACH1213_ChristmasIsland). For a description of fasta format see https://www.ncbi.nlm.nih.gov/BLAST/fasta.shtml
Etelis coruscans mtDNA cytb sequence data filename: Ecoruscans_mtDNA_cytb.fasta (FASTA, 591.14 KB) MD5:4e1937b80d0cd30cd5f098c81e3a8e0b Etelis coruscans mitochondrial DNA cytochrome b (cytb) sequence data in .fasta format. The description for each sequence within the fast file contains the sample name and location (e.g. >ECACH1213_ChristmasIsland). For a description of fasta format see https://www.ncbi.nlm.nih.gov/BLAST/fasta.shtml
Etelis spp. mtDNA cytb sequence data filename: Esp_mtDNA_cytb.fasta (FASTA, 266.68 KB) MD5:73e04441879a3a5e454de6203fa4369b Etelis spp. mitochondrial DNA cytochrome b (cytb) sequence data in .fasta format. The description for each sequence within the fast file contains the sample name and location (e.g. >ECACH1213_ChristmasIsland). For a description of fasta format see https://www.ncbi.nlm.nih.gov/BLAST/fasta.shtml
etelis_microsats.csv (Comma Separated Values (.csv), 1.07 MB) MD5:a57b28ce30a120db7538c4290463c516 Primary data file for dataset ID 873568

More Information about this dataset

Funding Sources

Funding Source	Award Number
NSF Division of Ocean Sciences	OCE-1558852

Deployments

None available yet

Instruments

Automated DNA Sequencer

Supplied Name:

Supplied Description:

ABI 3730XL or ABI 3130XL genetic analyzers

Instrument Type

Generic Name: Automated DNA Sequencer

Acronym: Automated Sequencer

Generic Description:

General term for a laboratory instrument used for deciphering the order of bases in a strand of DNA. Sanger sequencers detect fluorescence from different dyes that are used to identify the A, C, G, and T extension reactions. Contemporary or Pyrosequencer methods are based on detecting the activity of DNA polymerase (a DNA synthesizing enzyme) with another chemoluminescent enzyme. Essentially, the method allows sequencing of a single strand of DNA by synthesizing the complementary strand along it, one base pair at a time, and detecting which base was actually added at each step.

Parameters

Date and time formats are described in python strftime() syntax.

Supplied Name	Supplied description	Supplied Units	Standard Name
SampleName	Sample name	unitless	sample
Species	Species ID (Genus species)	unitless	species
SampleLocation	Geographic sampling location	unitless	site
Locus_Name	Locus name	unitless	sample_descrip
Allele1_ID	ID of the first allele for the locus.	unitless	no_bcodmo_term
Allele2_ID	ID of the first allele for the locus.	unitless	no_bcodmo_term

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Dataset: Etelis spp. rangewide genetic data