H. Hoshino scite author profile

Two genes encoding the ASABF (Ascaris suum antibacterial factor)-type antimicrobial peptide, abf-1 and abf-2, were identified in Caenorhabditis elegans. Recombinant ABF-2 exhibited potent microbicidal activity against Gram-positive and Gram-negative bacteria, and yeasts. The tissue-specific distribution estimated by immunofluorescence staining and transgenic analysis of a gfp fusion gene (where GFP corresponds to green fluorescent protein) suggested that ABF-2 contributes to surface defence in the pharynx. abf-1 contains a single intron at a conserved position, suggesting that asabf and abf originated from a common ancestor. Both transcripts for abf-1 and abf-2 were detected as two distinct forms, i.e. spliced leader (SL)1-trans-spliced with a long 5'-untranslated region (UTR) and SL-less with a short 5'-UTR. A polycistronic precursor RNA encoding ABF-1 and ABF-2 was detected, suggesting that these genes form an operon. An 'opportunistic operon' model for regulation of abf genes, including the generation of short SL-less transcripts, is proposed. In conclusion, C. elegans should have an immune defence system due to the antimicrobial peptides. C. elegans can be a novel model for innate immunity. Furthermore, the combination of biochemical identification in Ascaris suum and homologue hunting in C. elegans should be a powerful method of finding rapidly evolved proteins, such as some immune-related molecules in C. elegans.

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abf-1 and abf-2, ASABF-type antimicrobial peptide genes in Caenorhabditis elegans

Kato

AIZAWA

Hoshino

et al. 2002

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Two genes encoding the ASABF (Ascarissuumantibacterial factor)-type antimicrobial peptide, abf-1 and abf-2, were identified in Caenorhabditis elegans. Recombinant ABF-2 exhibited potent microbicidal activity against Gram-positive and Gram-negative bacteria, and yeasts. The tissue-specific distribution estimated by immunofluorescence staining and transgenic analysis of a gfp fusion gene (where GFP corresponds to green fluorescent protein) suggested that ABF-2 contributes to surface defence in the pharynx. abf-1 contains a single intron at a conserved position, suggesting that asabf and abf originated from a common ancestor. Both transcripts for abf-1 and abf-2 were detected as two distinct forms, i.e. spliced leader (SL)1-trans-spliced with a long 5′-untranslated region (UTR) and SL-less with a short 5′-UTR. A polycistronic precursor RNA encoding ABF-1 and ABF-2 was detected, suggesting that these genes form an operon. An ‘opportunistic operon’ model for regulation of abf genes, including the generation of short SL-less transcripts, is proposed. In conclusion, C. elegans should have an immune defence system due to the antimicrobial peptides. C. elegans can be a novel model for innate immunity. Furthermore, the combination of biochemical identification in Ascaris suum and homologue hunting in C. elegans should be a powerful method of finding rapidly evolved proteins, such as some immune-related molecules in C. elegans.

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1P003 Structure and Activity of ASABFd18c, Antibacterial Peptide Isolated from the Nematode Ascaris suum

Nakano¹,

Aizawa²,

Miura³

et al. 2004

Biophysics

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Overexpression and NMR structure of an antibacterial peptide from a nematode, ASABF

Aizawa¹,

Koganesawa²,

Matsuura³

et al. 1999

Biophysics

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1P053 Functions of Characteristic C-term region of ASABF, Antibacterial Peptide Isolated from the Nematode Ascaris suum

Nakano¹,

Aizawa²,

Miura³

et al. 2005

Biophysics

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H. Hoshino

abf-1 and abf-2, ASABF-type antimicrobial peptide genes in Caenorhabditis elegans

abf-1 and abf-2, ASABF-type antimicrobial peptide genes in Caenorhabditis elegans

1P003 Structure and Activity of ASABFd18c, Antibacterial Peptide Isolated from the Nematode Ascaris suum

Overexpression and NMR structure of an antibacterial peptide from a nematode, ASABF

1P053 Functions of Characteristic C-term region of ASABF, Antibacterial Peptide Isolated from the Nematode Ascaris suum

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