Kyeong Yong Lee scite author profile

Members of the brachyuran crab family, Bythograeidae, are among the most abundant and common crabs in vent fields. However, their identification based on morphological characteristics often leads to incorrect species recognition due to a lack of taxonomic factors and the existence of sibling (or cryptic) species. For these reasons, we used DNA barcoding for vent crabs using mitochondrial cytochrome c oxidase subunit 1 (CO1). However, several nuclear mitochondrial pseudogenes (Numts) were amplified from Austinograea alayseae Guinot, 1990, using universal primers (Folmer primers). The Numts were characterized in six haplotypes, with 13.58-14.11% sequence divergence from A. alayseae, a higher nonsynonymous substitution ratio than true CO1, and the formation of an independent clade in bythograeids. In a neighbour-joining tree, the origin of the Numts would be expected to incorporate into the nucleus at an ancestral node of Austinograea, and they mutated more slowly in the nucleus than CO1 in the mitochondria. This evolutionary process may have resulted in the higher binding affinity of Numts for the Folmer primers than CO1. In the present study, we performed long PCR for the amplification of CO1 in A. alayseae. We also present evidence that Numts can introduce serious ambiguity into DNA barcoding, including overestimating the number of species in bythograeids. These results may help in conducting taxonomic studies using mitochondrial genes from organisms living in hydrothermal vent fields.

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Osmia cornifrons vitellogenin: cDNA cloning, structural analysis and developmental expression

Lee

Yoon

Jin

2015

Entomological Research

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Osmia cornifrons plays a major role in the pollination of orchards, but basic information on vitellogenin and oocyte development is limited. To better understand vitellogenin in hymenopteran insects, we cloned a cDNA encoding vitellogenin from the hornfaced bee O. cornifrons. Osmia cornifrons vitellogenin cDNA contains 5477 bp with an open reading frame of 1783 amino acid residues, and has a predicted molecular mass of approximately 200.21 kDa and a pI of 6.55. Osmia cornifrons vitellogenin possesses four consensus (RXXR/S) cleavage sites and has conserved DGXR and GL/ICG motifs in the C-terminus. The deduced amino acid sequence of the O. cornifrons vitellogenin cDNA showed a 66% identity with Megachile rotundata, 53% to Apis mellifera, 51% to Bombus ignitus and 42%-30% with other hymenopteran insect vitellogenins. Phylogenetic analysis showed that O. cornifrons vitellogenin clustered with vitellogenins from Megachilidae, Apidae, Vespidae and Formicidae species but not with those from Pteromalidae, Aphelinidae or Ichneumonidae species. The expression profile of O. cornifrons vitellogenin mRNA during development revealed that O. cornifrons vitellogenin was first detected in the pupal stage and was continuously detected during the adult stage. Interestingly, O. cornifrons vitellogenin mRNA expression was low in mid-diapause, then gradually increased beginning on day 3 of the newly emerged adult stage, and subsequently declined. These results suggest that the expression level of O. cornifrons vitellogenin mRNA is stage-specific.

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Ovarian development and secretion of vitellogenin protein during the wintering period and after emergence in the hornfaced bee, Osmia cornifrons

Lee

Yoon

et al. 2015

Journal of Asia-Pacific Entomology

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Kyeong Yong Lee

Honeybee (Apis cerana) vitellogenin acts as an antimicrobial and antioxidant agent in the body and venom

Tracing the origin of subduction components beneath the South East rift in the Manus Basin, Papua New Guinea

Nuclear mitochondrial pseudogenes in Austinograea alayseae hydrothermal vent crabs (Crustacea: Bythograeidae): effects on DNA barcoding

Osmia cornifrons vitellogenin: cDNA cloning, structural analysis and developmental expression

Ovarian development and secretion of vitellogenin protein during the wintering period and after emergence in the hornfaced bee, Osmia cornifrons

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