Motomi Itô scite author profile

SUMMARYA new classification of Hymenophyllaceae, consisting of nine genera (Hymenophyllum, Didymoglossum, Crepidomanes, Polyphlebium, Vandenboschia, Abrodictyum, Trichomanes, Cephalomanes and Callistopteris) is proposed. Every genus, subgenus and section chiefly corresponds to the monophyletic group elucidated in molecular phylogenetic analyses based on chloroplast sequences. Brief descriptions and keys to the higher taxa are given, and their representative members are enumerated, including some new combinations.

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Fern Phylogeny Based on rbcL Nucleotide Sequences

Hasebe¹,

Wolf²,

Pryer³

et al. 1995

American Fern Journal

279

198

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Current progress in DNA barcoding and future implications for entomology

Jinbo

Kato

Itô

2011

Entomological Science

240

198

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DNA barcoding is a technique for identifying organisms based on a short, standardized fragment of genomic DNA. The standardized sequence region is called a DNA barcode because it is like a barcode tag for each taxon. Since the proposition of this concept and the launch of a large project named the Barcode of Life, this simple technique has attracted attention from taxonomists, ecologists, conservation biologists, agriculturists, plant-quarantine officers and others, and the number of studies using the DNA barcode has rapidly increased. The extreme diversity of insects and their economical, epidemiological and agricultural importance have made this group a major target of DNA barcoding. However, there is some controversy about the utility of DNA barcoding. In this review, we present an overview of DNA barcoding and its application to entomology. We also introduce current advances and future implications of this promising technique.

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Molecular evolution of the AP2 subfamily

Shigyo

Hasebe

Itô

2006

Gene

171

148

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Convergent evolution of shoots in land plants: lack of auxin polar transport in moss shoots

Fujita

Sakaguchi

Hiwatashi

et al. 2008

Evolution and Development

109

134

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The shoot is a repeated structure made up of stems and leaves and is the basic body plan in land plants. Vascular plants form a shoot in the diploid generation, whereas nonvascular plants such as mosses form a shoot in the haploid generation. It is not clear whether all land plants use similar molecular mechanisms in shoot development or how the genetic networks for shoot development evolved. The control of auxin distribution, especially by polar auxin transport, is essential for shoot development in flowering plants. We did not detect polar auxin transport in the gametophytic shoots of several mosses, but did detect it in the sporophytes of mosses without shoot structure. Treatment with auxin transport inhibitors resulted in abnormal embryo development, as in flowering plants, but did not cause any morphological changes in the haploid shoots. We fused the soybean auxin-inducible promoter GH3 with a GUS reporter gene and used it to indirectly detect auxin distribution in the moss Physcomitrella patens. An auxin transport inhibitor NPA did not cause any changes in the putative distribution of auxin in the haploid shoot. These results indicate that polar auxin transport is not involved in haploid shoot development in mosses and that shoots in vascular plants and mosses are most likely regulated differently during development.

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Motomi Itô

A Taxonomic Revision of Hymenophyllaceae

Fern Phylogeny Based on rbcL Nucleotide Sequences

Current progress in DNA barcoding and future implications for entomology

Molecular evolution of the AP2 subfamily

Convergent evolution of shoots in land plants: lack of auxin polar transport in moss shoots

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