Cell suspension cultures of Ruta graveolens L. produce a variety of acridone alkaloids, and the accumulation can be stimulated by the addition of fungal elicitors. Acridone synthase, the enzyme catalyzing the synthesis of 1,3-dihydroxy-N-methylacridone from N-methylanthraniloyl-CoA and malonyl-CoA, had been isolated from these cells, and the partial enzyme polypeptide sequence, elucidated from six tryptic fragments, revealed homology to heterologous chalcone synthases. Poly(A)+ RNA was isolated from Ruta cells that had been treated for 6 h with a crude cell wall elicitor from Phytophthora megasperma f. sp. glycinea, and a cDNA library was constructed in lambda 2AP. Clones harboring acridone synthase cDNA were isolated from the library by screening with a synthetic oligonucleotide probe complementary to a short stretch of sequence of the enzyme peptide with negligible homology to chalcone synthases. The identity of the clones was substantiated by DNA sequencing and by recognition of five additional peptides, determined previously from tryptic acridone synthase digests, in the translated sequence. An insert of roughly 1.4 kb encoded the complete acridone synthase, and alignments at both DNA and protein levels corroborated the high degree of homology to chalcone synthases. Expression of the enzyme in vector pET-11c in the Escherichia coli pLysS host strain proved the identity of the cloned cDNA. The heterologous enzyme in the crude E. coli extract exhibit high acridone but no chalcone synthase activity. The results were fully supported by northern blot hybridizations which revealed that the specific transcript abundance did not increase but rather decreased upon white light irradiation of cultured Ruta graveolens L. cells, a condition that commonly induces the abundance of chalcone synthase transcripts.
Acridone synthase has been purified from cell suspension cultures of Ruta graveolens using a combination of gel filtration and ion exchange chromatography. The purified enzyme has an apparent molecular weight of 69 kDa on gel filtration and a subunit structure on SDS-PAGE of 40 kDa. The apparent Km-values are 10.64 μM and 32.8 μM for N-methylanthraniloyl-CoA and malonyl-CoA, respectively. Tryptic digestion of the homogeneous acridone synthase was performed. Seven of the peptides were chosen for microsequencing. The homology of the amino acid sequences from this particular polypeptide and corresponding peptides from chalcone synthase 3 from garden pea amounted to 76%.
The localization and storage of alkaloids were investigated in a low producing cell suspension culture of CATHARANTHUS ROSEUS(L.) G. Don. (Apocynaceae). Fluorescence microscopy and electron microscopy indicate alkaloid accumulation to occur inside the vacuoles of particular cells. These alkaloid storage cells exhibit a vacuolar pH of 3, while "normal" cells of a suspension culture have a vacuolar pH of about 5. Alkaloids are taken up in their unprotonated forms, trapped by protonation inside the vacuole and are accumulated there. The differentiation of alkaloid storage cells depends both on the cell line and the growth conditions and seems to be a prerequisite for the accumulation of alkaloids in cell suspension cultures of CATHARANTHUS ROSEUS.
Initiation and culture of callus and cell suspensions of Cinchona ledgeriana and C. succirubra as well as the successful isolation and selection of a high-yielding alkaloid-forming strain derived from the leaf rachis of a C. succirubra plant are described. Results of feeding experiments with L-tryptophan using two different culture procedures are presented and discussed. Maximum alkaloid yields of up to 0.9% (based on dry weight) or 6.35 mg/l have been obtained.
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