TY - JOUR
T1 - Solute and matric potential stress on Penicillium verrucosum
T2 - Impact on growth, gene expression and ochratoxin A p production
AU - Abdelmohsen, Shaimaa
AU - Verheecke-Vaessen, Carol
AU - Garcia-Cela, Esther
AU - Medina, Angel
AU - Magan, Naresh
N1 - Funding Information:
S.A. is grateful to the British Council and the Newton Musharraf Programme for financial support.
Publisher Copyright:
© 2020 Wageningen Academic Publishers. All rights reserved.
Copyright:
Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2020/3/27
Y1 - 2020/3/27
N2 - Penicillium verrucosum survives in soil and on cereal debris. It colonises grain during harvesting, drying and storage. There is no information on the relative tolerance of P. verrucosum to solute and matric stress in terms of colonisation, or on the biosynthetic toxin gene clusters or ochratoxin A (OTA) production. The objectives were to examine the effect of ionic and non-ionic solute and matric potential stress on (a) growth, (b) expression of two toxin biosynthetic genes otapksPV and otanrpsPV, and (c) OTA production by a strain of P. verrucosum. Optimum growth and OTA production were at-7.0 MPa (= 0.95 water activity, aw) and-1.4 MPa (= 0.99 aw), respectively, regardless of whether solute (Ψs) or matric (Ψm) stress was imposed. P. verrucosum was more sensitive to ionic solute stress (NaCl) with no growth at-19.6 MPa (=0.86 aw) while growth still occurred in the non-ionic solute (glycerol) and matric stress treatments. Relative gene expression of the biosynthetic genes using PCR (RT-qPCR) showed that the otapksPV gene was expressed over a wide range of ionic/non-ionic solute stress conditions (-1.4 to-14.0 MPa; = 0.99-0.90 aw). The highest expression was in the non-ionic Ψs stress treatments at-7.0 MPa (= 0.95 aw). However, the otanrpsPV gene was significantly up regulated under Ψm stress, especially with freely available water (-1.4 MPa = 0.99 aw). OTA production was significantly decreased as Ψs or Ψm stress were imposed. Limited OTA production occurred in the driest treatments under Ψs and Ψm stress respectively. The impact of these two types of stresses on the growth of P. verrucosum was quite different from that for OTA production. The results are discussed in the context of the life cycle and ecological characteristics of this species in contaminating cereals with OTA in the post-harvest phase of the cereal chain.
AB - Penicillium verrucosum survives in soil and on cereal debris. It colonises grain during harvesting, drying and storage. There is no information on the relative tolerance of P. verrucosum to solute and matric stress in terms of colonisation, or on the biosynthetic toxin gene clusters or ochratoxin A (OTA) production. The objectives were to examine the effect of ionic and non-ionic solute and matric potential stress on (a) growth, (b) expression of two toxin biosynthetic genes otapksPV and otanrpsPV, and (c) OTA production by a strain of P. verrucosum. Optimum growth and OTA production were at-7.0 MPa (= 0.95 water activity, aw) and-1.4 MPa (= 0.99 aw), respectively, regardless of whether solute (Ψs) or matric (Ψm) stress was imposed. P. verrucosum was more sensitive to ionic solute stress (NaCl) with no growth at-19.6 MPa (=0.86 aw) while growth still occurred in the non-ionic solute (glycerol) and matric stress treatments. Relative gene expression of the biosynthetic genes using PCR (RT-qPCR) showed that the otapksPV gene was expressed over a wide range of ionic/non-ionic solute stress conditions (-1.4 to-14.0 MPa; = 0.99-0.90 aw). The highest expression was in the non-ionic Ψs stress treatments at-7.0 MPa (= 0.95 aw). However, the otanrpsPV gene was significantly up regulated under Ψm stress, especially with freely available water (-1.4 MPa = 0.99 aw). OTA production was significantly decreased as Ψs or Ψm stress were imposed. Limited OTA production occurred in the driest treatments under Ψs and Ψm stress respectively. The impact of these two types of stresses on the growth of P. verrucosum was quite different from that for OTA production. The results are discussed in the context of the life cycle and ecological characteristics of this species in contaminating cereals with OTA in the post-harvest phase of the cereal chain.
KW - Biosynthetic genes
KW - Matric potential
KW - Mycotoxin
KW - Ochratoxin a
KW - Penicillium verrucosum
KW - Qpcr
KW - Solute potential
KW - Water activity
UR - http://www.scopus.com/inward/record.url?scp=85090536698&partnerID=8YFLogxK
U2 - 10.3920/WMJ2019.2542
DO - 10.3920/WMJ2019.2542
M3 - Article
SN - 1875-0710
VL - 13
SP - 345
EP - 353
JO - World Mycotoxin Journal
JF - World Mycotoxin Journal
IS - 3
ER -