Thermal Stability and Degradation Kinetics of Patulin in Highly Acidic Conditions: Impact of Cysteine.

Enjie Diao,Ruifeng Mao,Huwei Song,Hui Zhang,Liming Zhang,Shiquan Qian,Kun Ma,Peng Xie

doi:10.3390/toxins13090662

Abstract

The thermal stability and degradation kinetics of patulin (PAT, 10 μmol/L) in pH 3.5 of phosphoric-citric acid buffer solutions in the absence and presence of cysteine (CYS, 30 μmol/L) were investigated at temperatures ranging from 90 to 150 °C. The zero-, first-, and second-order models and the Weibull model were used to fit the degradation process of patulin. Both the first-order kinetic model and Weibull model better described the degradation of patulin in the presence of cysteine while it was complexed to simulate them in the absence of cysteine with various models at different temperatures based on the correlation coefficients (R2 > 0.90). At the same reaction time, cysteine and temperature significantly affected the degradation efficiency of patulin in highly acidic conditions (p < 0.01). The rate constants (kT) for patulin degradation with cysteine (0.0036–0.3200 μg/L·min) were far more than those of treatments without cysteine (0.0012–0.1614 μg/L·min), and the activation energy (Ea = 43.89 kJ/mol) was far less than that of treatment without cysteine (61.74 kJ/mol). Increasing temperature could obviously improve the degradation efficiency of patulin, regardless of the presence of cysteine. Thus, both cysteine and high temperature decreased the stability of patulin in highly acidic conditions and improved its degradation efficiency, which could be applied to guide the detoxification of patulin by cysteine in the juice processing industry.

Highlights

Patulin (PAT) is a low-molecular-weight mycotoxin that presents many hazards to the health of humans and animals based on the animal and cytotoxicity experiments
To investigate the thermal stability of patulin in a highly acidic environment, the acidic condition of apple juice was simulated at pH 3.5 in a phosphoric-citric acid (PCA) buffer solution
The degradation efficiency of patulin significantly increased to 18% at 90 ◦C for 60 min (p < 0.05), while no obvious changes happened to the degradation efficiencies of patulin at 90 ◦C for 90–180 min (p > 0.05)

Summary

Introduction

Patulin (PAT) is a low-molecular-weight mycotoxin that presents many hazards to the health of humans and animals based on the animal and cytotoxicity experiments. These hazards include agitation, vomiting, intestinal hemorrhages, convulsions, ulceration, nausea, and lesions in the duodenum, as well as chronic neurotoxic effects, such as genotoxic, teratogenic, and immunotoxic effects [1,2,3,4]. Patulin is produced by a number of different molds, such as Penicillium, Aspergillus and Byssochlamys [1,2,5]. Toxins 2021, 13, x FOR PEER REVIEW Toxins 2021, 13, 662. Ifiscothnetammaininatsetdraainpptloesparroeduusceedptaotumlianke[6j,u7]i.ceIst, chainghbleevfoelusnodf pinatulin daraemlaikgeedlyotromboeldcyarfrriueidts,thpraorutigcuhlatrolythaeppfilnesa.lIfprcoondtuacmt i[n8a–t1ed0].apTphleesreafroerue,seitditsoampaokteential jhueicaeltsh, hriisgkhtloevceolnssoufmpeartsuwlinhoaroefltiekneleyattopabteuclianr-rcieodnttahmroiungahtedtofothoedfsin[1a,l2p].rTodhuecWt [o8r–ld10H]. ealth TOhregraenfoizrea,tiiot nis(aWpHotOen) taianldhtehaelthEurirsokpteoancoUnsnuiomner(sEUw)heosotaftbelnisehaetdptahtuelmina‐cxoinmtaumminpaetremd itted floevoedlss o[1f,2p]a.tuTlhine iWn aoprlpdleH-beaaslethd fOorogdasntiozaptiroontec(Wt cHonOs)umanedr htheaeltEhu, sroupcheaans 5U0nμiogn/L(EiUn)apple ejustiaceblaisnhdedcidtheer,m25axnigm/ugminpseormlidittaepdplleevpelrsodouf cptast,ualnind i1n0 anpgp/leg‐binasperdodfouocdtss ftoorpinrofatenctts and cabybonioioondullsono1uTgTg0gmioocinccaerhgralree/ilmhmglmdmeeioraontveelhvttnephoherd,[ooo1ossrddu1rwus]cd.dhciewttegahsgirsftarvoh5daar0derviiμneoapgfurpaa/isLntoautautisludnisnavlainaanpfddnrpotvfylarmeaoognjuemutscniaocgagcnenoectadahnsnmitdaldadinimnscrdaieadidntneedvda[ria1,tsn1e2af]tod5da.ongvfdegoass/no,ghdtpaiasnhgv,yseepsosibhlciheadyeals,navipccedahpelbel,vemeecpelihonrceoapmldde, udeiavccnbtaesdyll,,oapnedd rbeyseraerscehaerrcshteorsptroevpernetvpenattupliantuplriondpurcotidouncotirontoorretmoorveemoorvedeogrrdadeegriatdien itaginricaugltruicrualltural pprroodduuccttssaannddfofooodds sfofrorprporvoivdiidnginfgoofodosdafseatyfe[t3y,1[23],.1P2]r.esPernetslyen, ntloy,idneoaildmeaelthmodethhaosdbheaens been ffoouunnddttoorreemmoovveeoor rddegergardaedpeaptuatliunliinn icnonctoanmtainmaitnedatfeododfosobdassebdaosendoounr ionuvresitnigvaetsitoinga[1ti2o]n. [12]

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