Four new diterpenoids, helioscopinolides F
(2), H (4), I (5), and L
(6), were isolated from three
different cultured cell lines of Euphorbia calyptrata var.
involucrata. Helioscopinolide B
(1)
and jolkinolide E (3), previously found in Euphorbia
helioscopia and Euphorbia jolkini,
respectively, were also isolated from the same cultures.
Structures were identified by
spectroscopic methods.
The dnrF gene, responsible for conversion of aklavinone to orhodomycinone via C-11 hydroxylation, was mapped in the daunorubicin (Dnr) gene cluster of Streptomyces peucetius ATCC 29050, close to drrAB, one of the anthracyclineresistance genes. The dnrF gene was sequenced and should encode a protein of 489 amino acids with a molecular mass of 52 kDa. The deduced DnrF protein shows significant similarities with bacterial FAD-and NADPH-dependent hydroxylases either required to introduce hydroxyl groups into polycyclic aromatic polyketide antibiotics or involved in catabolism of aromatic compounds. Heterologous expression of dnrF in Streptomyces liwidans TK23 and in Escherichia coli demonstrated that the gene encodes a NADPHdependent hydroxylase catalysing the hydroxylation of aklavinone to yield Erhodomycinone. The enzyme is inactive on anthracyclines glycosylated at position C-7 and its activity decreases to a different extent with other substrate modifications, indicating that DnrF has a significant substrate specificity.
1. Ribosome-inactivating proteins were found in high amounts in one line of cells of Phytolacca americana (pokeweed) cultured in vitro and, in less quantity, in lines of Saponaria officinalis (soapwort) and of Zea mays (corn) cells. 2. The main ribosome-inactivating protein from pokeweed cells was purified to homogeneity. It is a protein with Mr 29,000 and basic pI, similar to the 'pokeweed antiviral protein' (PAP), a ribosome-inactivating protein from pokeweed leaves. We propose to call the pokeweed antiviral protein isolated from pokeweed cells PAP-C. 3. PAP-C inactivates ribosomes in a less-than-equimolar ratio, thus inhibiting protein synthesis by a rabbit reticulocyte lysate with an IC50 (concentration causing 50% inhibition) of 0.067 nM (2 ng/ml), and modifies rRNA in a manner apparently identical to that of ricin and other ribosome-inactivating proteins. It inhibits protein synthesis by intact cells with an IC50 of 0.7-3.4 microM, and is toxic to mice with an LD50 of 0.95 mg/kg.
Two DNA fragments, ric1 and ric2, were isolated from the Streptomyces peucetius 7600 mutant, which produces daunorubicin and doxorubicin, on the basis of their abilities to confer doxorubicin and daunorubicin resistance to Streptomyces lividans. These two fragments are unrelated by restriction mapping and do not show any homology by Southern analysis, yet both of them increase the level of resistance 10-fold in transformed S. lividans. Functional analysis revealed that ric1 also contains two genes of daunorubicin biosynthesis: one coding for the aklavinone C-11 hydroxylase and the other corresponding to the putative dnrR2 regulatory gene of wild-type S. peucetius ATCC 29050 (K. J. Stutzman-Engwall, S. L. Otten, and C. R. Hutchinson, J. Bacteriol. 174:144-154, 1992). Northern (RNA) blot experiments, performed with a ric1 fragment containing daunorubicin-doxorubicin resistance gene(s), revealed a transcript of about 2,100 nucleotides that is present only during the phase of anthracycline metabolite production. The amount of this transcript is higher in strain 7600 than in strain 7900, a mutant which produces 5-fold more daunorubicin and 10-fold less doxorubicin than 7600. Furthermore, two 7900-derived blocked mutants, 8600 and 9700, do not express the 2,100-nucleotide transcript in spite of the absence of gross rearrangements in the ric1 region such as occur with the 7900 parental strain.
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