DNA Barcoding for Identification of Some Fish Species (Sparidae) in Mediterranean Sea Area

Eissa, Shaimaa; Fiteha, Yosur Gamal; Elhifnawy, Hagar; Magdy, Mahmoud; Mamoon, Ahmed; Hussien, Nadia; Rashed, M. A.

doi:10.21608/jsrs.2021.210686

Journal of Scientific Research in Science

2021

DOI: 10.21608/jsrs.2021.210686

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DNA Barcoding for Identification of Some Fish Species (Sparidae) in Mediterranean Sea Area

Shaimaa Eissa¹,

Yosur Gamal Fiteha

Hagar Elhifnawy

et al.

Abstract: Background: DNA barcoding depend on a piece of the cytochrome C oxidase subunit I (COI) gene in the mitochondrial genome is broadly useful in species ID and biodiversity studies. The aim of this study is to create a complete barcoding reference database of some fishes in the Mediterranean Sea fall under the family Sparidae. . Materials and methods: Mitochondrial COI barcode sequences were demonstrated from 8 species of family Sparidae in the order Perciformes, the mean length of Mitochondrial COI sequences was… Show more

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2024

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Cited by 3 publications

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Identification of Sparidae species based on COI and 16S rRNA DNA barcoding along the coast of Oman

Al-Amry,

Al-Ansari,

O.H.C Leduc

2024

Regional Studies in Marine Science

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Identification of Sparidae species based on COI and 16S rRNA DNA barcoding along the coast of Oman

Al-Amry,

Al-Ansari,

O.H.C Leduc

2024

Regional Studies in Marine Science

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Morphological and genetic identification of the gill monogenean parasite (Diclidophora merlangi) that infects Twobar Seabream Fish (Acanthopagrus bifasciatus) in the Arabian Gulf, Saudi Arabia

Alojayri,

Al-Quraishy,

Al-Shaebi

et al. 2024

Helminthologia

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Summary Ectoparasites, particularly monogeneans, negatively affect fish health and growth. This study identified monogenean parasites in the twobar seabream, Acanthopagrus bifasciatus (Sparidae), inhabited the Arabian Gulf (Saudi Arabia). Following that, forty A. bifasciatus fish samples were visually examined for monogeneans. Parasite species were collected from the gills and then analyzed morphometrically, morphologically, and molecularly using the partial regions of the large subunit of ribosomal RNA (28S rRNA) and mitochondrial cytochrome C oxidase subunit I (COI) genes. Fish species were also identified using a DNA barcoding approach based on the COI gene. The monogenean species of Diclidophora merlangi (Diclidophoridae) were found in 45% of the fish species studied. The generic features of the Diclidophora genus distinguish this species. This species discriminated itself from congeners by having a muscular bulb with 17 grooved and recurved hooks, 218±10 (184–267) post-ovarian testes, and four pairs of pedunculated clamps of relative sizes. Partial 28S rRNA sequencing from monogeneans revealed that they grouped with members of the genus Diclidophora, forming a monophyletic group that supported the morphological descriptions. Molecular identification revealed that D. merlangi has a unique barcode made up of a COI sequence. The host identity was established as A. bifasciatus based on the COI gene sequences. Furthermore, a molecular phylogenetic study was performed to determine the phylogenetic affinity of parasite species and fish hosts. This study on Diclidophora species is considered the first record of this genus in the examined area.

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DNA BARCODING TO RESOLVE MORPHOLOGICAL AMBIGUITY OF YELLOWFIN SNAPPER, Lutjanus xanthopinnis FROM TERENGGANU

BENYAMIN,

MOHD NASIR,

ARIFFIN

2024

UMT JUR

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Lutjanus species belong to the family Lutjanidae, where some of the species, such as L. lutjanus, L. vitta, and L. johnii, are common species in Malaysia. The fish, also known as snapper, can be discovered in abundance in most fish landings, including at Terengganu. Lutjanus xanthopinnis, commonly known as yellowfin snapper, is another fish commonly found in Malaysian water, especially Terengganu. However, their morphological characteristics were doubted, as it is hard to distinguish by morphometric and meristic identification alone. This study was conducted by collecting 100 Lutjanid samples with mixed freshness grades from 11 locations consisting of four districts: Besut, Kuala Nerus, Kuala Terengganu, and Marang, Terengganu. These 11 locations consisted of fish landing ports, fish stalls, and fish markets in the identification using the Cytochrome Oxidase 1 (CO1) gene marker for the five morphological ambiguous samples. The initial external examination of the samples based on the colour of the stripes led to the identification of the 30 Lutjanid samples as L. xanthopinnis. Further identification of 30 Lutjanid samples via 40 morphometrics and nine meristic characters led to only 25 individuals from the 30 samples fully confirming their identity as L. xanthopinnis. However, five of the samples have several gill rakers, soft dorsal, and anal fin rays that are not similar yet overlap with the previous reports. Hence, these five samples were taken to undergo molecular identification via DNA barcoding using the CO1 gene. The Neighbour Joining Method phylogenetic tree with the Kimura-2 Parameter (K2P) model revealed that the five samples were differentiated into three clades, which were L. xanthopinnis, L. vitta, and L. lutjanus. Molecular identification for the five samples also revealed that three samples were identified as L. xanthopinnis. In contrast, the remaining two were identified as L. vitta and L. lutjanus, respectively, with 99% to 100% similarity. The study has demonstrated that molecular identification via DNA barcoding is a valuable complementary tool to morphological identification, enabling more accurate species identification. It is recommended that fresh samples and more samples are collected from other states. Furthermore, the use of DNA barcoding should be continued in species validation to achieve the highest possible level of accuracy.

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DNA Barcoding for Identification of Some Fish Species (Sparidae) in Mediterranean Sea Area

Cited by 3 publications

References 19 publications

Identification of Sparidae species based on COI and 16S rRNA DNA barcoding along the coast of Oman

Identification of Sparidae species based on COI and 16S rRNA DNA barcoding along the coast of Oman

Morphological and genetic identification of the gill monogenean parasite (Diclidophora merlangi) that infects Twobar Seabream Fish (Acanthopagrus bifasciatus) in the Arabian Gulf, Saudi Arabia

DNA BARCODING TO RESOLVE MORPHOLOGICAL AMBIGUITY OF YELLOWFIN SNAPPER, Lutjanus xanthopinnis FROM TERENGGANU

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