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Cyanide Biodegradation by Trichoderma harzianum and Cyanide Hydratase Network Analysis

Narges Malmir, Mohammad Reza Zamani, Mostafa Motallebi, Najaf Allahyari Fard, Lukhanyo Mekuto

2022Molecules15 citationsDOIOpen Access PDF

Abstract

Cyanide is a poisonous and dangerous chemical that binds to metals in metalloenzymes, especially cytochrome C oxidase and, thus, interferes with their functionalities. Different pathways and enzymes are involved during cyanide biodegradation, and cyanide hydratase is one of the enzymes that is involved in such a process. In this study, cyanide resistance and cyanide degradation were studied using 24 fungal strains in order to find the strain with the best capacity for cyanide bioremediation. To confirm the capacity of the tested strains, cyano-bioremediation and the presence of the gene that is responsible for the cyanide detoxification was assessed. From the tested organisms, Trichoderma harzianum (T. harzianum) had a significant capability to resist and degrade cyanide at a 15 mM concentration, where it achieved an efficiency of 75% in 7 days. The gene network analysis of enzymes that are involved in cyanide degradation revealed the involvement of cyanide hydratase, dipeptidase, carbon–nitrogen hydrolase-like protein, and ATP adenylyltransferase. This study revealed that T. harzianum was more efficient in degrading cyanide than the other tested fungal organisms, and molecular analysis confirmed the experimental observations.

Topics & Concepts

CyanideBiodegradationTrichoderma harzianumChemistryNitrile hydrataseNitrilaseTrichodermaOrganic chemistryMicrobiologyEnzymeBiotechnologyBotanyBiologyBiological pest controlCassava research and cyanideIsotope Analysis in EcologyCoconut Research and Applications
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