Cupin-domain containing protein is not essential for the alkyl salicylaldehyde formation in Aspergillus ustus

Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from Aspergillus ustus resulted in the formation of such compounds in high-yields...

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Published in	Chemical communications (Cambridge, England) Vol. 60; no. 81; pp. 11556 - 11559
Main Authors	Peter, Marlies, Li, Shu-Ming
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 08.10.2024
Subjects	Aldehydes - chemistry Aldehydes - metabolism Aspergillus - chemistry Aspergillus - metabolism Fungal Proteins - chemistry Fungal Proteins - genetics Fungal Proteins - metabolism Molecular Structure Protein Domains
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Abstract	Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from Aspergillus ustus resulted in the formation of such compounds in high-yields without involvement of a cupin analogue.
AbstractList	Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from Aspergillus ustus resulted in the formation of such compounds in high-yields without involvement of a cupin analogue. Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from Aspergillus ustus resulted in the formation of such compounds in high-yields without involvement of a cupin analogue. Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from Aspergillus ustus resulted in the formation of such compounds in high-yields without involvement of a cupin analogue.Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from Aspergillus ustus resulted in the formation of such compounds in high-yields without involvement of a cupin analogue. Previous studies demonstrated the requirement of four enzymes including a cupin-domain containing protein for the formation of alkyl salicylaldehydes and derivatives. Heterologous expression of three biosynthetic genes from resulted in the formation of such compounds in high-yields without involvement of a cupin analogue.
Author	Li, Shu-Ming Peter, Marlies
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SubjectTerms	Aldehydes - chemistry Aldehydes - metabolism Aspergillus - chemistry Aspergillus - metabolism Fungal Proteins - chemistry Fungal Proteins - genetics Fungal Proteins - metabolism Molecular Structure Protein Domains
Title	Cupin-domain containing protein is not essential for the alkyl salicylaldehyde formation in Aspergillus ustus
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