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Literature DB >> 7068562

Studies on purothionin by chemical modifications.

K Wada, Y Ozaki, H Matsubara, H Yoshizumi.

Abstract

Purothionin from wheat flour was chemically modified by acetic or succinic anhydride under specific conditions. The complete modification of all amino groups of purothionin caused a large change in the net charge of the molecule, leading to the loss of the toxicity to mice and yeast. The sole tyrosyl residue in purothionin was nitrated by tetranitromethane at neutral pH or iodinated by the lactoperoxidase method. The nitro- and diiodo-derivatives of purothionin showed considerably reduced toxicity. Based on these modification studies we conclude that the positive charges of lysyl residues have an important role in the interaction with the negatively charged cell surface, and that the emergence of the toxicity of purothionin depends on a certain state of the tyrosyl residue.

Entities: Chemical Disease Species

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Year: 1982 PMID： 7068562 DOI： 10.1093/oxfordjournals.jbchem.a133683

Source DB: PubMed Journal: J Biochem ISSN： 0021-924X Impact factor: 3.387

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Cited

8 in total

1. Properties of a small basic Peptide from pumpkin seeds.

Authors: G H Naisbitt; M R Lu; W R Gray; L P Vernon
Journal: Plant Physiol Date: 1988-11 Impact factor: 8.340

2. Interaction of wheat alpha-thionin with large unilamellar vesicles.

Authors: J M Caaveiro; A Molina; P Rodríguez-Palenzuela; F M Goñi; J M González-Mañas
Journal: Protein Sci Date: 1998-12 Impact factor: 6.725

3. Organ-specific expression of highly divergent thionin variants that are distinct from the seed-specific crambin in the crucifer Crambe abyssinica.

Authors: G Schrader-Fischer; K Apel
Journal: Mol Gen Genet Date: 1994-11-01

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Authors: T C Johnson; K Wada; B B Buchanan; A Holmgren
Journal: Plant Physiol Date: 1987-10 Impact factor: 8.340

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Authors: D E Florack; W J Stiekema
Journal: Plant Mol Biol Date: 1994-10 Impact factor: 4.076

6. The secreted antifungal protein thionin 2.4 in Arabidopsis thaliana suppresses the toxicity of a fungal fruit body lectin from Fusarium graminearum.

Authors: Tomoya Asano; Akihiro Miwa; Kazuyuki Maeda; Makoto Kimura; Takumi Nishiuchi
Journal: PLoS Pathog Date: 2013-08-22 Impact factor: 6.823

Review 7. Antimicrobial Peptides from Plants.

Authors: James P Tam; Shujing Wang; Ka H Wong; Wei Liang Tan
Journal: Pharmaceuticals (Basel) Date: 2015-11-16

Review 8. Plant Antimicrobial Peptides: State of the Art, In Silico Prediction and Perspectives in the Omics Era.

Authors: Carlos André Dos Santos-Silva; Luisa Zupin; Marx Oliveira-Lima; Lívia Maria Batista Vilela; João Pacifico Bezerra-Neto; José Ribamar Ferreira-Neto; José Diogo Cavalcanti Ferreira; Roberta Lane de Oliveira-Silva; Carolline de Jesús Pires; Flavia Figueira Aburjaile; Marianne Firmino de Oliveira; Ederson Akio Kido; Sergio Crovella; Ana Maria Benko-Iseppon
Journal: Bioinform Biol Insights Date: 2020-09-02

8 in total