ISSN:
0749-503X
Keywords:
Biosurfactant
;
glycolipid
;
cytochrome P450
;
Candida apicola
;
alkane assimilation
;
fatty acid hydroxylation
;
Life Sciences
;
Life Sciences (general)
Source:
Wiley InterScience Backfile Collection 1832-2000
Topics:
Biology
Notes:
Candida apicola belongs to a group of yeasts producing high amounts of surface-active extracellular glycolipids consisting of sophorose and long-chain-ω- and (ω-1)-hydroxy fatty acids. The involvement of cytochrome P450 in the synthesis of sophorose lipid by the hydroxylation of long-chain fatty acids was suggested from a simultaneous increase of cellular P450 content. Hydroxylation studies indicated the existence of multiple P450 forms capable of hydroxylating not only long-chain fatty acids, but also n-alkanes.In this report, two different P450 DNA fragments amplified in a polymerase chain reaction with heterologous primers and chromosomal DNA of Candida apicola were used as homologous probes for the isolation of full-length clones from a genomic library. The open reading frames of both genes encode proteins of 519 amino acids with calculated molecular weights of 58,656 and 58,631, respectively, that contain N-terminal membrane anchor sequences and hallmark residues, in common with other eukaryotic P450s. The deduced amino acid sequences of the C. apicola P450 genes are 84·4% identical. They share 34·5 to 44·1% identity with the proteins of the yeast family CYP52 and about 25% identity with fatty acid hydroxylases of higher eukaryotes (family CYP4A) and of Bacillus megaterium (CYP102). Southern hybridization experiments revealed the existence of further P450-related genes in C. apicola. According to the P450 nomenclature system, the cloned genes were named CYP52E1 and CYP52E2, establishing a new subfamily in yeast family CYP52. The sequences were deposited in the EMBL/GenBank Library under the Accession Numbers X76225 and X87640.
Additional Material:
6 Ill.
Type of Medium:
Electronic Resource
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