Literature DB >> 6783913

Fungal contamination and mycotoxin-producing potential of dried beans.

H Hitokoto, S Morozumi, T Wauke, S Sakai, H Kurata.   

Abstract

A total of 604 samples of about 7 different types of beans was examined to determine their mycological profiles, and suitability for use as solid substrates for mycotoxin production. All of the samples were collected from bean jam makers in Tokyo by the official food examiners. Genera Penicillium and Aspergillus were predominant, and genus Wallemia was also found commonly in all types of beans. Mycotoxin-producing Aspergillus strains were isolated from 52 samples of beans, approximately 9% of the total. The highest incidence of toxigenic Aspergillus (14.1%) was found in kidney beans. Red beans and peas inoculated with Aspergillus ochraceus were found to produce about 7 to 8 times more toxin than was obtained in a liquid medium. and red beans inoculated with A. versicolor produced more toxin than was obtained in yeast extract sucrose broth. Green peas inoculated with Fusarium graminearum produced about 8 times more T-2 toxin than was obtained in 1% peptone containing Czapek solution under comparable culture conditions.

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Year:  1981        PMID: 6783913     DOI: 10.1007/BF00443011

Source DB:  PubMed          Journal:  Mycopathologia        ISSN: 0301-486X            Impact factor:   2.574


  11 in total

1.  Association between aflatoxin content of food and hepatoma frequency in Uganda.

Authors:  M E Alpert; M S Hutt; G N Wogan; C S Davidson
Journal:  Cancer       Date:  1971-07       Impact factor: 6.860

2.  Mycotoxins (ochratoxin A, citrinin, and sterigmatocystin) and toxigenic fungi in grains and other agricultural products.

Authors:  P M Scott; W Van Walbeek; B Kennedy; D Anyeti
Journal:  J Agric Food Chem       Date:  1972 Nov-Dec       Impact factor: 5.279

3.  Environmental factors influencing the production of fusarenon-X, a cytotoxic mycotoxin of Fusarium nivale Fn 2B.

Authors:  Y Ueno; Y Ishikawa; K Saito-Amakai; H Tsunoda
Journal:  Chem Pharm Bull (Tokyo)       Date:  1970-02       Impact factor: 1.645

4.  Fungal contamination and mycotoxin detection of powdered herbal drugs.

Authors:  H Hitokoto; S Morozumi; T Wauke; S Sakai; H Kurata
Journal:  Appl Environ Microbiol       Date:  1978-08       Impact factor: 4.792

5.  Production of aflatoxins B1 and G1 by Aspergillus flavus in a semisynthetic medium.

Authors:  N D Davis; U L Diener; D W Eldridge
Journal:  Appl Microbiol       Date:  1966-05

6.  Screening method for the detection of aflatoxin, ochratoxin, zearalenone, penicillic acid, and citrinin.

Authors:  D M Wilson; W H Tabor; M W Trucksess
Journal:  J Assoc Off Anal Chem       Date:  1976-01

7.  Mycological survey of selected health foods.

Authors:  P B Mislivec; V R Bruce; W H Andrews
Journal:  Appl Environ Microbiol       Date:  1979-03       Impact factor: 4.792

8.  Inhibitory effects of condiments and herbal drugs on the growth and toxin production of toxigenic fungi.

Authors:  H Hitokoto; S Morozumi; T Wauke; S Sakai; I Ueno
Journal:  Mycopathologia       Date:  1979-02-28       Impact factor: 2.574

9.  Aflatoxin production by a variant of Aspergillus oryzae (NRRL strain 1988) on cowpeas (Vigna sinensis).

Authors:  N El-Hag; R E Morse
Journal:  Science       Date:  1976-06-25       Impact factor: 47.728

10.  High aflatoxin production on a chemically defined medium.

Authors:  T V Reddy; L Viswanathan; T A Venkitasubramanian
Journal:  Appl Microbiol       Date:  1971-09
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  8 in total

1.  Aflatoxin formation and varietal difference of cow pea (Vigna unguiculata (L.) Walp.) and garden pea (Pisum sativum L.) cultivars.

Authors:  I A El-Kady; S S El-Maraghy; A A Zohri
Journal:  Mycopathologia       Date:  1996       Impact factor: 2.574

2.  Aspergillus infection and aflatoxin production in some cowpea (Vigna unguiculata (L.) Walp) lines in Tanzania.

Authors:  M Seenappa; C L Keswani; T M Kundya
Journal:  Mycopathologia       Date:  1983-11-21       Impact factor: 2.574

3.  The mycotoxicological chain and contamination of food by ochratoxin A in the nephropathic and non-nephropathic areas in Yugoslavia.

Authors:  S Pepeljnjak; Z Cvetnić
Journal:  Mycopathologia       Date:  1985-06       Impact factor: 2.574

4.  Mycotoxin production on different cultivars and lines of broad bean (Vicia faba L.) seeds in Egypt.

Authors:  I A el-Kady; S S el-Maraghy; A A Zohri
Journal:  Mycopathologia       Date:  1991-03       Impact factor: 2.574

5.  Ochratoxin-A production in Brazilian dry beans (Phaseolus vulgaris L.).

Authors:  M S Cordeiro; J Amaya-Farfan; P J Moran
Journal:  Mycotoxin Res       Date:  1995-03       Impact factor: 3.833

6.  Distribution of moulds on stored grains in households in an area affected by endemic nephropathy in Yugoslavia.

Authors:  S Pepeljnjak; Z Cvetnić
Journal:  Mycopathologia       Date:  1984-05-30       Impact factor: 2.574

7.  Impact of experimental thermal processing of artificially contaminated pea products on ochratoxin A and phomopsin A.

Authors:  Birgitta Maria Kunz; Alexander Voß; Julia Dalichow; Stefan Weigel; Sascha Rohn; Ronald Maul
Journal:  Mycotoxin Res       Date:  2020-10-17       Impact factor: 3.833

8.  Growth and toxin production of phomopsin A and ochratoxin A forming fungi under different storage conditions in a pea (Pisum sativum) model system.

Authors:  Birgitta Maria Kunz; Laura Pförtner; Stefan Weigel; Sascha Rohn; Anselm Lehmacher; Ronald Maul
Journal:  Mycotoxin Res       Date:  2021-12-18       Impact factor: 3.833
  8 in total

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