Literature DB >> 18574633

EST and mitochondrial DNA sequences support a distinct Pacific form of salmon louse, Lepeophtheirus salmonis.

Ryosuke Yazawa1, Motoshige Yasuike, Jong Leong, Kristian R von Schalburg, Glenn A Cooper, Marianne Beetz-Sargent, Adrienne Robb, William S Davidson, Simon R M Jones, Ben F Koop.   

Abstract

Nuclear deoxyribonucleic acid sequences from approximately 15,000 salmon louse expressed sequence tags (ESTs), the complete mitochondrial genome (16,148bp) of salmon louse, and 16S ribosomal ribonucleic acid (rRNA) and cytochrome oxidase subunit I (COI) genes from 68 salmon lice collected from Japan, Alaska, and western Canada support a Pacific lineage of Lepeophtheirus salmonis that is distinct from that occurring in the Atlantic Ocean. On average, nuclear genes are 3.2% different, the complete mitochondrial genome is 7.1% different, and 16S rRNA and COI genes are 4.2% and 6.1% different, respectively. Reduced genetic diversity within the Pacific form of L. salmonis is consistent with an introduction into the Pacific from the Atlantic Ocean. The level of divergence is consistent with the hypothesis that the Pacific form of L. salmonis coevolved with Pacific salmon (Onchorhynchus spp.) and the Atlantic form coevolved with Atlantic salmonids (Salmo spp.) independently for the last 2.5-11 million years. The level of genetic divergence coincides with the opportunity for migration of fish between the Atlantic and Pacific Ocean basins via the Arctic Ocean with the opening of the Bering Strait, approximately 5 million years ago. The genetic differences may help explain apparent differences in pathogenicity and environmental sensitivity documented for the Atlantic and Pacific forms of L. salmonis.

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Year:  2008        PMID: 18574633     DOI: 10.1007/s10126-008-9112-y

Source DB:  PubMed          Journal:  Mar Biotechnol (NY)        ISSN: 1436-2228            Impact factor:   3.619


  37 in total

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5.  Effect of environmental salinity on sea lice Lepeophtheirus salmonis settlement success.

Authors:  Ian R Bricknell; Sarah J Dalesman; Bríd O'Shea; Campbell C Pert; A Jennifer Mordue Luntz
Journal:  Dis Aquat Organ       Date:  2006-08-30       Impact factor: 1.802

6.  Decoupling of molecular and morphological evolution in deep lineages of a meiobenthic harpacticoid copepod.

Authors:  A Rocha-Olivares; J W Fleeger; D W Foltz
Journal:  Mol Biol Evol       Date:  2001-06       Impact factor: 16.240

Review 7.  A review of the population biology and host-parasite interactions of the sea louse Lepeophtheirus salmonis (Copepoda: Caligidae).

Authors:  O Tully; D T Nolan
Journal:  Parasitology       Date:  2002       Impact factor: 3.234

8.  Enzymes released from Lepeophtheirus salmonis in response to mucus from different salmonids.

Authors:  M D Fast; J F Burka; S C Johnson; N W Ross
Journal:  J Parasitol       Date:  2003-02       Impact factor: 1.276

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Authors:  C W Cunningham; N W Blackstone; L W Buss
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Authors:  Kristian R von Schalburg; Matthew L Rise; Glenn A Cooper; Gordon D Brown; A Ross Gibbs; Colleen C Nelson; William S Davidson; Ben F Koop
Journal:  BMC Genomics       Date:  2005-09-15       Impact factor: 3.969
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  17 in total

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Journal:  Mar Biotechnol (NY)       Date:  2008-11-28       Impact factor: 3.619

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Authors:  Gary D Marty; Sonja M Saksida; Terrance J Quinn
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3.  Gene expression in Atlantic salmon skin in response to infection with the parasitic copepod Lepeophtheirus salmonis, cortisol implant, and their combination.

Authors:  Aleksei Krasnov; Stanko Skugor; Marijana Todorcevic; Kevin A Glover; Frank Nilsen
Journal:  BMC Genomics       Date:  2012-04-05       Impact factor: 3.969

4.  Gene expression analyses of immune responses in Atlantic salmon during early stages of infection by salmon louse (Lepeophtheirus salmonis) revealed bi-phasic responses coinciding with the copepod-chalimus transition.

Authors:  Tariku Markos Tadiso; Aleksei Krasnov; Stanko Skugor; Sergey Afanasyev; Ivar Hordvik; Frank Nilsen
Journal:  BMC Genomics       Date:  2011-03-07       Impact factor: 3.969

5.  Original observations of Desmozoon lepeophtherii, a microsporidian hyperparasite infecting the salmon louse Lepeophtheirus salmonis, and its subsequent detection by other researchers.

Authors:  Mark A Freeman; Christina Sommerville
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6.  Genomic resources for sea lice: analysis of ESTs and mitochondrial genomes.

Authors:  Motoshige Yasuike; Jong Leong; Stuart G Jantzen; Kristian R von Schalburg; Frank Nilsen; Simon R M Jones; Ben F Koop
Journal:  Mar Biotechnol (NY)       Date:  2011-07-12       Impact factor: 3.619

7.  Transcriptomic responses to emamectin benzoate in Pacific and Atlantic Canada salmon lice Lepeophtheirus salmonis with differing levels of drug resistance.

Authors:  Ben J G Sutherland; Jordan D Poley; Okechukwu O Igboeli; Johanna R Jantzen; Mark D Fast; Ben F Koop; Simon R M Jones
Journal:  Evol Appl       Date:  2014-12-22       Impact factor: 5.183

Review 8.  Salmon lice--impact on wild salmonids and salmon aquaculture.

Authors:  O Torrissen; S Jones; F Asche; A Guttormsen; O T Skilbrei; F Nilsen; T E Horsberg; D Jackson
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Authors:  Ben J G Sutherland; Stuart G Jantzen; Motoshige Yasuike; Dan S Sanderson; Ben F Koop; Simon R M Jones
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10.  Pacific and Atlantic Lepeophtheirus salmonis (Krøyer, 1838) are allopatric subspecies: Lepeophtheirus salmonis salmonis and L. salmonis oncorhynchi subspecies novo.

Authors:  Rasmus Skern-Mauritzen; Ole Torrissen; Kevin Alan Glover
Journal:  BMC Genet       Date:  2014-03-14       Impact factor: 2.797
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