Kurt Schörgendorfer scite author profile

Cyclosporin A, a potent and clinically-important immunosuppressive drug (SandimmunR), is synthesized from its precursor amino acids by cyclosporin synthetase, a single multi-functional enzyme. In this study we report the cloning of the corresponding coding region of this synthetase. It contains an open reading frame of 45.8 kb which encodes a peptide with a calculated M(r) of 1,689,243. The predicted gene product contains 11 amino-acid-activating domains that are very similar to one another and to the domains of other peptide synthetases. Seven of these domains harbour N-methyltransferase functions. This is the largest genomic ORF described so far.

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The bacitracin biosynthesis operon of Bacillus licheniformis ATCC 10716: molecular characterization of three multi-modular peptide synthetases

Konz¹,

Klens²,

Schörgendorfer³

et al. 1997

Chemistry & Biology

211

207

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Structure and localization of cyclosporin synthetase, the key enzyme of cyclosporin biosynthesis in Tolypocladium inflatum

Hoppert¹,

Gentzsch²,

Schörgendorfer

2001

Archives of Microbiology

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The electron microscopic image of native cyclosporin synthetase molecules showed large globular complexes of 25 nm in diameter, built up by smaller interconnected units. Compartmentation of cyclosporin synthetase and the functionally interconnected D-alanine racemase was revealed after sucrose density gradient centrifugation of subcellular fractions and immunoelectron microscopy. A considerable proportion of cyclosporin synthetase and D-alanine racemase was detected at the vacuolar membrane. The product cyclosporin was localized in the fungal vacuole.

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Molecular cloning and sequencing of a pectinesterase gene from Pseudomonas solanacearum

Spök

Stubenrauch

Schörgendorfer³

et al. 1991

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Functional characterization of 4â²-phosphopantetheinyl transferase genes of bacterial and fungal origin by complementation ofSaccharomyces cerevisiae lys5

Mootz

Schörgendorfer

Marahiel

2002

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Lysine biosynthesis in yeast requires the posttranslational conversion of the alpha-aminoadipate semialdehyde reductase Lys2 by the 4'-phosphopantetheinyl transferase (PPTase) Lys5 from the inactive apo-form into the catalytically active holo-form. In this reaction, the peptidyl carrier domain of Lys2 is modified at a conserved serine residue side chain with the 4'-phosphopantetheine moiety derived from coenzyme A. We have deleted the lys5 gene in Saccharomyces cerevisiae to investigate the substrate specificity of various heterologous PPTase genes of bacterial and fungal origin by testing their ability to complement lys5 in trans. Genes encoding PPTases Sfp and Gsp from Bacillus spp., which are involved in non-ribosomal peptide antibiotic synthesis, complemented the lys5 deletion, whereas ydcB of Bacillus subtilis, which encodes the acyl carrier protein synthase involved in fatty acid synthesis, could not. Two yet uncharacterized fungal genes, q10474 of Schizosaccharomyces pombe, meanwhile annotated as the putative lys7 gene, and npgA of Aspergillus nidulans, also complemented the lys5 deletion and have thus been functionally characterized as PPTases. The complementation system described also provides the basis for a simple method of functional characterization of PPTase candidate genes and their cloning from chromosomal DNA or cDNA libraries of diverse origin.

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