Your search keyword '"Satoru, Yokotani"' showing total 2 results

1. cDNA cloning of the housefly pigment-dispersing factor (PDF) precursor protein and its peptide comparison among the insect circadian neuropeptides

Author

Yukimasa Takeda, Yasuyuki Shimohigashi, Yoshiro Chuman, Takeru Nose, Satoru Yokotani, Seiji Sato, Miki Shimohigashi, Yoshiya Tominaga, and Ayami Matsushima

Subjects

Signal peptide, animal structures, Circadian clock, Peptide, Bioinformatics, Biochemistry, Pigment dispersing factor, Structural Biology, Drug Discovery, Housefly, Molecular Biology, Pharmacology, chemistry.chemical_classification, biology, Gryllus bimaculatus, fungi, Organic Chemistry, Protein primary structure, General Medicine, biology.organism_classification, body regions, nervous system, chemistry, Molecular Medicine, Nuclear localization sequence

Abstract

Pigment-dispersing factor (PDF), an 18-amino acid neuropeptide, is a principal circadian neurotransmitter for the circadian rhythms of the locomotor activity in flies. Recently, two completely different types of PDF precursor were clarified; that of the cricket Gryllus bimaculatus and that of the last-summer cicada Meimuna opalifera. The G. bimaculatus PDF precursor is extraordinarily short and comprises a nuclear localization signal (NLS), while the M. opalifera PDF precursor is of ordinary length, comparable to that seen for the precursors of crustacean β-PDH homologues. Although their PDF peptide regions were exactly the same, the regions containing a signal peptide combined with a PDF-associated peptide (PAP) were remarkably different from each other. Such a grouping suggested a fundamental role for the PAP peptide in the circadian clock, perhaps associated with PDF function. In the present study, the cDNA cloning of PDF from the adult brains of the housefly Musca domestica was carried out and it was found that an isolated clone (527 bp) encodes a PDF precursor protein of ordinary length. The PDF peptide shows a high sequence identity (78%–94%) and similarity (89%–100%) to insect PDFs and also to the crustacean β-PDH peptides. In particular, there is only a single amino acid difference between the PDFs of Musca and Drosophila; at position 14 Ser for Musca PDF and Asn for Drosophila PDF. A characteristic Ser10 in Drosophila was retained in Musca, indicating the presence of a structural profile unique to these PDFs. The results of sequence analyses suggest that Musca and Drosophila PDFs are to be considered members of a single group that has evolved structurally. When the primary structure of the PAP regions was compared, the Musca PDF precursor also belonged to the same group as that to which the Drosophila PDF precursor belongs. Copyright © 2003 European Peptide Society and John Wiley & Sons, Ltd.

Published

2003

2. cDNA cloning of the housefly pigment-dispersing factor (PDF) precursor protein and its peptide comparison among the insect circadian neuropeptides.

Author

Ayami Matsushima, Seiji Sato, Yoshiro Chuman, Yukimasa Takeda, Satoru Yokotani, Takeru Nose, Yoshiya Tominaga, Miki Shimohigashi, and Yasuyuki Shimohigashi

Subjects

AMINO acids, NEUROPEPTIDES, NEUROTRANSMITTERS, NEUROCHEMISTRY, CIRCADIAN rhythms

Abstract

Pigment-dispersing factor (PDF), an 18-amino acid neuropeptide, is a principal circadian neurotransmitter for the circadian rhythms of the locomotor activity in flies. Recently, two completely different types of PDF precursor were clarified; that of the cricket Gryllus bimaculatus and that of the last-summer cicada Meimuna opalifera. The G. bimaculatus PDF precursor is extraordinarily short and comprises a nuclear localization signal (NLS), while the M. opalifera PDF precursor is of ordinary length, comparable to that seen for the precursors of crustacean β-PDH homologues. Although their PDF peptide regions were exactly the same, the regions containing a signal peptide combined with a PDF-associated peptide (PAP) were remarkably different from each other. Such a grouping suggested a fundamental role for the PAP peptide in the circadian clock, perhaps associated with PDF function. In the present study, the cDNA cloning of PDF from the adult brains of the housefly Musca domestica was carried out and it was found that an isolated clone (527 bp) encodes a PDF precursor protein of ordinary length. The PDF peptide shows a high sequence identity (78%–94%) and similarity (89%–100%) to insect PDFs and also to the crustacean β-PDH peptides. In particular, there is only a single amino acid difference between the PDFs of Musca and Drosophila; at position 14 Ser for Musca PDF and Asn for Drosophila PDF. A characteristic Ser10 in Drosophila was retained in Musca, indicating the presence of a structural profile unique to these PDFs. The results of sequence analyses suggest that Musca and Drosophila PDFs are to be considered members of a single group that has evolved structurally. When the primary structure of the PAP regions was compared, the Musca PDF precursor also belonged to the same group as that to which the Drosophila PDF precursor belongs. Copyright © 2003 European Peptide Society and John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2004