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Bioremediation of Catechol and Concurrent Accumulation of Biocompounds by the Microalga <i>Crypthecodinium cohnii</i>

Li‐Gong Zou, Yitong Yao, Fu-Fang Wen, Xiao Zhang, Bo-Tao Liu, Da‐Wei Li, Yufeng Yang, Wei‐Dong Yang, Srinivasan Balamurugan, Hongye Li

2023Journal of Agricultural and Food Chemistry15 citationsDOI

Abstract

Burgeoning commercial applications of catechol have led to its excessive accumulation in the environment, thereby posing a severe ecological threat. Bioremediation has emerged as a promising solution. The potential of the microalga Crypthecodinium cohnii to degrade catechol and use the byproduct as a carbon source was investigated in this study. Catechol significantly increased C. cohnii growth and was rapidly catabolized within 60 h of cultivation. Transcriptomic analysis highlighted the key genes involved in catechol degradation. Real-time polymerase chain reaction (RT-PCR) analysis showed that transcription of key genes CatA, CatB, and SaID involved in the ortho-cleavage pathway was remarkably increased by 2.9-, 4.2-, and 2.4- fold, respectively. Key primary metabolite content was also markedly altered, with a specific increment in polyunsaturated fatty acids. Electron microscopy and antioxidant analysis showed that C. cohnii could tolerate catechol treatment without morphological aberrations or oxidative stress. The findings provide a strategy for C. cohnii in the bioremediation of catechol and concurrent polyunsaturated fatty acids (PUFA) accumulation.

Topics & Concepts

CatecholBioremediationPolyunsaturated fatty acidBiochemistryBiologyMetaboliteFood scienceChemistryFatty acidBacteriaGeneticsAlgal biology and biofuel production
Bioremediation of Catechol and Concurrent Accumulation of Biocompounds by the Microalga <i>Crypthecodinium cohnii</i> | Litcius