Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)

Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)

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Barcodes are short segments of DNA that can be used to uniquely identify an unknown specimen to species, particularly when diagnostic morphological features are absent. These sequences could offer a new forensic tool in plant and animal Conservation-especially for endangered species. It was proved that a small fragment of mitochondrial DNA from the 5′-end of cytochrome c oxidase subunit 1 (COI) gene as a reliable, quick and costeffective identification system for most Crustacea like shrimp. Take a look in DNA barcoding website show that there is a little data about Iranian shrimps which live in Persian Gulf and Oman Sea. In this Study six species of shrimp: Fenoro penaeus indicus, Fenoro penaeus merguensis, penaeus semisulcatus, Metapenaeus affinis, Marsupenaeus japonicas, Fenoro penaeus penicillatus were collected from different stations in Persian Gulf and Oman Sea. All materials were preserved in 70% ethanol and were shipped to the laboratory for taxonomic studies. After identification, the total DNA was extracted; COI gene was first amplified and then sequenced for each species. Finally the collected data were analyzed with the specific phylogenetic software. The results were amazing and the interesting part was that analytical methods for showing species relationship suggested that Fenoro penaeus penicillatus is closer to Marsupenaeus gnus than penaeus gnus. This finding needs more investigation to be proved. We suggest a workflow for DNA barcoding, including database generation and management, which will ultimately be necessary if we are to succeed to join universal DNA barcode for Crustacea.

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Main Authors: Rezvani Gilkolaei, Sohrab, Ghoroghi, A., Niamaimandi, N., Tomadoni Jahromi, S., Moradi, Y., Sistani, M.A., Mohabi Nozar, P., Skandari, Gh., Karami Rad, N., Fahim, A., Laloei, F., Taghavi, M.J., Abaspor Naderi, R., Pourgholam, H.
Format: monograph biblioteca
Language:Persian
Published: Iranian Fisheries Science Research Institute 2016
Subjects:Biology, Iran, Persian Gulf, Oman Sea, DNA, DNA barcoding, Species, mtDNA, CO1, Molecular method, PCR, Specimens, Morphological, Cytochrome, Mitochondrial DNA, Shrimp, Fenoro penaeus indicus, Fenoro penaeus merguensis, Penaeus Semisulcatus, Metapenaeus affinis, Marsupenaeus japonicas, Fenoro penaeus penicillatus,
Online Access:http://hdl.handle.net/1834/40012
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spelling dig-aquadocs-1834-400122021-07-16T03:10:12Z Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing) Rezvani Gilkolaei, Sohrab Ghoroghi, A. Niamaimandi, N. Tomadoni Jahromi, S. Moradi, Y. Sistani, M.A. Mohabi Nozar, P. Skandari, Gh. Karami Rad, N. Fahim, A. Laloei, F. Taghavi, M.J. Abaspor Naderi, R. Pourgholam, H. Biology Iran Persian Gulf Oman Sea DNA DNA barcoding Species mtDNA CO1 Molecular method PCR Specimens Morphological Cytochrome Mitochondrial DNA Shrimp Fenoro penaeus indicus Fenoro penaeus merguensis Penaeus Semisulcatus Metapenaeus affinis Marsupenaeus japonicas Fenoro penaeus penicillatus Barcodes are short segments of DNA that can be used to uniquely identify an unknown specimen to species, particularly when diagnostic morphological features are absent. These sequences could offer a new forensic tool in plant and animal Conservation-especially for endangered species. It was proved that a small fragment of mitochondrial DNA from the 5′-end of cytochrome c oxidase subunit 1 (COI) gene as a reliable, quick and costeffective identification system for most Crustacea like shrimp. Take a look in DNA barcoding website show that there is a little data about Iranian shrimps which live in Persian Gulf and Oman Sea. In this Study six species of shrimp: Fenoro penaeus indicus, Fenoro penaeus merguensis, penaeus semisulcatus, Metapenaeus affinis, Marsupenaeus japonicas, Fenoro penaeus penicillatus were collected from different stations in Persian Gulf and Oman Sea. All materials were preserved in 70% ethanol and were shipped to the laboratory for taxonomic studies. After identification, the total DNA was extracted; COI gene was first amplified and then sequenced for each species. Finally the collected data were analyzed with the specific phylogenetic software. The results were amazing and the interesting part was that analytical methods for showing species relationship suggested that Fenoro penaeus penicillatus is closer to Marsupenaeus gnus than penaeus gnus. This finding needs more investigation to be proved. We suggest a workflow for DNA barcoding, including database generation and management, which will ultimately be necessary if we are to succeed to join universal DNA barcode for Crustacea. 2021-06-24T18:31:12Z 2021-06-24T18:31:12Z 2016 monograph 47664 http://hdl.handle.net/1834/40012 fa http://www.ifro.ir/ application/pdf application/pdf 44 Iranian Fisheries Science Research Institute Tehran, Iran http://aquaticcommons.org/id/eprint/25619 18721 2018-10-07 17:03:03 25619 Iranian Fisheries Science Research Institute
institution UNESCO
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-aquadocs
tag biblioteca
region Europa del Oeste
libraryname Repositorio AQUADOCS
language Persian
topic Biology
Iran
Persian Gulf
Oman Sea
DNA
DNA barcoding
Species
mtDNA
CO1
Molecular method
PCR
Specimens
Morphological
Cytochrome
Mitochondrial DNA
Shrimp
Fenoro penaeus indicus
Fenoro penaeus merguensis
Penaeus Semisulcatus
Metapenaeus affinis
Marsupenaeus japonicas
Fenoro penaeus penicillatus
Biology
Iran
Persian Gulf
Oman Sea
DNA
DNA barcoding
Species
mtDNA
CO1
Molecular method
PCR
Specimens
Morphological
Cytochrome
Mitochondrial DNA
Shrimp
Fenoro penaeus indicus
Fenoro penaeus merguensis
Penaeus Semisulcatus
Metapenaeus affinis
Marsupenaeus japonicas
Fenoro penaeus penicillatus
spellingShingle Biology
Iran
Persian Gulf
Oman Sea
DNA
DNA barcoding
Species
mtDNA
CO1
Molecular method
PCR
Specimens
Morphological
Cytochrome
Mitochondrial DNA
Shrimp
Fenoro penaeus indicus
Fenoro penaeus merguensis
Penaeus Semisulcatus
Metapenaeus affinis
Marsupenaeus japonicas
Fenoro penaeus penicillatus
Biology
Iran
Persian Gulf
Oman Sea
DNA
DNA barcoding
Species
mtDNA
CO1
Molecular method
PCR
Specimens
Morphological
Cytochrome
Mitochondrial DNA
Shrimp
Fenoro penaeus indicus
Fenoro penaeus merguensis
Penaeus Semisulcatus
Metapenaeus affinis
Marsupenaeus japonicas
Fenoro penaeus penicillatus
Rezvani Gilkolaei, Sohrab
Ghoroghi, A.
Niamaimandi, N.
Tomadoni Jahromi, S.
Moradi, Y.
Sistani, M.A.
Mohabi Nozar, P.
Skandari, Gh.
Karami Rad, N.
Fahim, A.
Laloei, F.
Taghavi, M.J.
Abaspor Naderi, R.
Pourgholam, H.
Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)
description Barcodes are short segments of DNA that can be used to uniquely identify an unknown specimen to species, particularly when diagnostic morphological features are absent. These sequences could offer a new forensic tool in plant and animal Conservation-especially for endangered species. It was proved that a small fragment of mitochondrial DNA from the 5′-end of cytochrome c oxidase subunit 1 (COI) gene as a reliable, quick and costeffective identification system for most Crustacea like shrimp. Take a look in DNA barcoding website show that there is a little data about Iranian shrimps which live in Persian Gulf and Oman Sea. In this Study six species of shrimp: Fenoro penaeus indicus, Fenoro penaeus merguensis, penaeus semisulcatus, Metapenaeus affinis, Marsupenaeus japonicas, Fenoro penaeus penicillatus were collected from different stations in Persian Gulf and Oman Sea. All materials were preserved in 70% ethanol and were shipped to the laboratory for taxonomic studies. After identification, the total DNA was extracted; COI gene was first amplified and then sequenced for each species. Finally the collected data were analyzed with the specific phylogenetic software. The results were amazing and the interesting part was that analytical methods for showing species relationship suggested that Fenoro penaeus penicillatus is closer to Marsupenaeus gnus than penaeus gnus. This finding needs more investigation to be proved. We suggest a workflow for DNA barcoding, including database generation and management, which will ultimately be necessary if we are to succeed to join universal DNA barcode for Crustacea.
format monograph
topic_facet Biology
Iran
Persian Gulf
Oman Sea
DNA
DNA barcoding
Species
mtDNA
CO1
Molecular method
PCR
Specimens
Morphological
Cytochrome
Mitochondrial DNA
Shrimp
Fenoro penaeus indicus
Fenoro penaeus merguensis
Penaeus Semisulcatus
Metapenaeus affinis
Marsupenaeus japonicas
Fenoro penaeus penicillatus
author Rezvani Gilkolaei, Sohrab
Ghoroghi, A.
Niamaimandi, N.
Tomadoni Jahromi, S.
Moradi, Y.
Sistani, M.A.
Mohabi Nozar, P.
Skandari, Gh.
Karami Rad, N.
Fahim, A.
Laloei, F.
Taghavi, M.J.
Abaspor Naderi, R.
Pourgholam, H.
author_facet Rezvani Gilkolaei, Sohrab
Ghoroghi, A.
Niamaimandi, N.
Tomadoni Jahromi, S.
Moradi, Y.
Sistani, M.A.
Mohabi Nozar, P.
Skandari, Gh.
Karami Rad, N.
Fahim, A.
Laloei, F.
Taghavi, M.J.
Abaspor Naderi, R.
Pourgholam, H.
author_sort Rezvani Gilkolaei, Sohrab
title Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)
title_short Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)
title_full Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)
title_fullStr Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)
title_full_unstemmed Determining of DNA-barcoding of 6 – 8 species by partial sequencing of mtDNA (CO1) using molecular method (PCR-Sequencing)
title_sort determining of dna-barcoding of 6 – 8 species by partial sequencing of mtdna (co1) using molecular method (pcr-sequencing)
publisher Iranian Fisheries Science Research Institute
publishDate 2016
url http://hdl.handle.net/1834/40012
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