Results 111 to 120 of about 1,615 (137)
A novel UPLC-based method to identify elephant and mammoth ivory. [PDF]
Sci RepSu C +8 more
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Assessing benthic macroinvertebrate communities' spatial heterogeneity in Mediterranean transitional waters through eDNA metabarcoding. [PDF]
Sci RepPinna M, Zangaro F, Specchia V.
europepmc +1 more source
Genomics of rafting crustaceans reveals adaptation to climate change in tropical oceans. [PDF]
Nat CommunLiu H +6 more
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Studying the molecular mechanisms of tef (<i>Eragrostis tef</i>) antioxidant properties in human THP-1 monocytes. [PDF]
J Funct FoodsRomanov AV +6 more
europepmc +1 more source
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Marine Genomics, 2015
The complete mitochondrial genome of the intertidal barnacle Tetraclita serrata Darwin, 1854 (Crustacea: Maxillopoda: Sessilia) is presented. The genome is a circular molecule of 15,200 bp, which encodes 13 PCGs, 2 ribosomal RNA genes, and 22 transfer RNA genes. All non-coding regions are 591 bp in length, with the longest one speculated as the control
Ka Hou Chu +2 more
exaly +3 more sources
The complete mitochondrial genome of the intertidal barnacle Tetraclita serrata Darwin, 1854 (Crustacea: Maxillopoda: Sessilia) is presented. The genome is a circular molecule of 15,200 bp, which encodes 13 PCGs, 2 ribosomal RNA genes, and 22 transfer RNA genes. All non-coding regions are 591 bp in length, with the longest one speculated as the control
Ka Hou Chu +2 more
exaly +3 more sources
Molecular Phylogenetics and Evolution, 2014
The Balanomorpha are the largest group of barnacles and rank among the most diverse, commonly encountered and ecologically important marine crustaceans in the world. Paradoxically, despite their relevance and extensive study for over 150years, their evolutionary relationships are still unresolved.
Marcos Perez-Losada +2 more
exaly +4 more sources
The Balanomorpha are the largest group of barnacles and rank among the most diverse, commonly encountered and ecologically important marine crustaceans in the world. Paradoxically, despite their relevance and extensive study for over 150years, their evolutionary relationships are still unresolved.
Marcos Perez-Losada +2 more
exaly +4 more sources
Facies, 2008
Sessile barnacle assemblages, dominated by Concavus concavus (Bronn) and Balanus perforatus Bruguiere, are very abundant in the Lower Pliocene deposits of the Almeria-Nijar and Carboneras basins (southeastern Spain). They occur in shallow-coastal siliciclastic and mixed siliciclastic-carbonate sediments, forming dense concentrations in two contexts: (1)
Julio Aguirre, Jose Martin, Juan C Braga
exaly +2 more sources
Sessile barnacle assemblages, dominated by Concavus concavus (Bronn) and Balanus perforatus Bruguiere, are very abundant in the Lower Pliocene deposits of the Almeria-Nijar and Carboneras basins (southeastern Spain). They occur in shallow-coastal siliciclastic and mixed siliciclastic-carbonate sediments, forming dense concentrations in two contexts: (1)
Julio Aguirre, Jose Martin, Juan C Braga
exaly +2 more sources
Acta Oceanologica Sinica, 2019
Acorn barnacles are important model species in researches on intertidal ecology, larval development and biofouling. At present, with the development of mitochondrial genomics, it is helpful to understand the phylogenetic relationship from the mitogenomic level. The complete mitochondrial genome of Chthamalus challengeri was presented.
Ka Hou Chu
exaly +2 more sources
Acorn barnacles are important model species in researches on intertidal ecology, larval development and biofouling. At present, with the development of mitochondrial genomics, it is helpful to understand the phylogenetic relationship from the mitogenomic level. The complete mitochondrial genome of Chthamalus challengeri was presented.
Ka Hou Chu
exaly +2 more sources
Mitochondrial DNA Part A, 2014
The complete mitochondrial genome of Megabalanus ajax Darwin, 1854 (Sessilia: Balanidae) is reported. Compared to typical gene content of metazoan mitochondrial genomes, duplication of one tRNA gene (trnL2) and absence of another tRNA gene (trnS1) are identified in M. ajax mitochondrial genome. There is a replacement of one tRNA (trnS1) by another tRNA
Xin, Shen +3 more
openaire +2 more sources
The complete mitochondrial genome of Megabalanus ajax Darwin, 1854 (Sessilia: Balanidae) is reported. Compared to typical gene content of metazoan mitochondrial genomes, duplication of one tRNA gene (trnL2) and absence of another tRNA gene (trnS1) are identified in M. ajax mitochondrial genome. There is a replacement of one tRNA (trnS1) by another tRNA
Xin, Shen +3 more
openaire +2 more sources