Jul
16
An N -acyl homolog of mycothiol is produced in marine actinomycetes
July 16, 2008 | Comments Off
Abstract Marine actinomycetes have generated much recent interest as a potentially valuable source of novel antibiotics. Like terrestrial
actinomycetes the marine actinomycetes are shown here to produce mycothiol as their protective thiol. However, a novel thiol,
U25, was produced by MAR2 strain CNQ703 upon progression into stationary phase when secondary metabolite production occurred
and became the dominant thiol. MSH and U25 were maintained in a reduced state during early stationary phase, but become significantly
oxidized after 10 days in culture. Isolation and structural analysis of the monobromobimane derivative identified U25 as a
homolog of mycothiol in which the acetyl group attached to the nitrogen of cysteine is replaced by a propionyl residue. This
N-propionyl-desacetyl-mycothiol was present in 13 of the 17 strains of marine actinomycetes examined, including five strains
of Salinispora and representatives of the MAR2, MAR3, MAR4 and MAR6 groups. Mycothiol and its precursor, the pseudodisaccharide 1-O-(2-amino-2-deoxy-α-d-glucopyranosyl)-d-myo-inositol, were found in all strains. High levels of mycothiol S-conjugate amidase activity, a key enzyme in mycothiol-dependent detoxification, were found in most strains. The results demonstrate
that major thiol/disulfide changes accompany secondary metabolite production and suggest that mycothiol-dependent detoxification
is important at this developmental stage.
actinomycetes the marine actinomycetes are shown here to produce mycothiol as their protective thiol. However, a novel thiol,
U25, was produced by MAR2 strain CNQ703 upon progression into stationary phase when secondary metabolite production occurred
and became the dominant thiol. MSH and U25 were maintained in a reduced state during early stationary phase, but become significantly
oxidized after 10 days in culture. Isolation and structural analysis of the monobromobimane derivative identified U25 as a
homolog of mycothiol in which the acetyl group attached to the nitrogen of cysteine is replaced by a propionyl residue. This
N-propionyl-desacetyl-mycothiol was present in 13 of the 17 strains of marine actinomycetes examined, including five strains
of Salinispora and representatives of the MAR2, MAR3, MAR4 and MAR6 groups. Mycothiol and its precursor, the pseudodisaccharide 1-O-(2-amino-2-deoxy-α-d-glucopyranosyl)-d-myo-inositol, were found in all strains. High levels of mycothiol S-conjugate amidase activity, a key enzyme in mycothiol-dependent detoxification, were found in most strains. The results demonstrate
that major thiol/disulfide changes accompany secondary metabolite production and suggest that mycothiol-dependent detoxification
is important at this developmental stage.
- Content Type Journal Article
- Category Original Paper
- DOI 10.1007/s00203-008-0405-3
- Authors
- Gerald L. Newton, University of California Department of Chemistry and Biochemistry San Diego, La Jolla CA 92093 USA
- Paul R. Jensen, University of California Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography San Diego, La Jolla CA 92093 USA
- John B. MacMillan, UT Southwestern Medical Center Department of Biochemistry 5323 Harry Hines Blvd Dallas TX 75390-9038 USA
- William Fenical, University of California Center for Marine Biotechnology and Biomedicine, Scripps Institution of Oceanography San Diego, La Jolla CA 92093 USA
- Robert C. Fahey, University of California Department of Chemistry and Biochemistry San Diego, La Jolla CA 92093 USA
- Journal Archives of Microbiology
- Online ISSN 1432-072X
- Print ISSN 0302-8933