BIOMAT Database Logo BIOMAT Database Logo

Chemical studies on tuberactinomycin. XV. Total synthesis of tuberactinomycin O. 1977

T Teshima, and S Nomoto, and T Wakamiya, and T Shiba

Tuberactinomycin O, one of the four congeners of the antituberculous peptide tuberactinomycin, was totally synthesized. The beta-ureidodehydroalanine moiety was constructed from beta,beta-diethoxyalanine with excess urea in acidic medium after a cyclization reaction of a pentapeptide was finished. Cyclization was carried out by means of the 1-succinimidyl ester method. To the cyclic pentapeptide, beta-lysine was introduced as the branched moiety and then deprotected to afford tuberactinomycin O which was completely identified with the natural form of the antibiotic.

UI MeSH Term Description Entries
D009161 Mycobacterium A genus of gram-positive, aerobic bacteria. Most species are free-living in soil and water, but the major habitat for some is the diseased tissue of warm-blooded hosts. Mycobacteria
D002621 Chemistry A basic science concerned with the composition, structure, and properties of matter; and the reactions that occur between substances and the associated energy exchange.
D003500 Cyclization Changing an open-chain hydrocarbon to a closed ring. (McGraw-Hill Dictionary of Scientific and Technical Terms, 5th ed) Cyclizations
D000904 Antibiotics, Antitubercular Substances obtained from various species of microorganisms that are, alone or in combination with other agents, of use in treating various forms of tuberculosis; most of these agents are merely bacteriostatic, induce resistance in the organisms, and may be toxic. Antitubercular Antibiotics
D001419 Bacteria One of the three domains of life (the others being Eukarya and ARCHAEA), also called Eubacteria. They are unicellular prokaryotic microorganisms which generally possess rigid cell walls, multiply by cell division, and exhibit three principal forms: round or coccal, rodlike or bacillary, and spiral or spirochetal. Bacteria can be classified by their response to OXYGEN: aerobic, anaerobic, or facultatively anaerobic; by the mode by which they obtain their energy: chemotrophy (via chemical reaction) or PHOTOTROPHY (via light reaction); for chemotrophs by their source of chemical energy: CHEMOLITHOTROPHY (from inorganic compounds) or chemoorganotrophy (from organic compounds); and by their source for CARBON; NITROGEN; etc.; HETEROTROPHY (from organic sources) or AUTOTROPHY (from CARBON DIOXIDE). They can also be classified by whether or not they stain (based on the structure of their CELL WALLS) with CRYSTAL VIOLET dye: gram-negative or gram-positive. Eubacteria
D055598 Chemical Phenomena The composition, structure, conformation, and properties of atoms and molecules, and their reaction and interaction processes. Chemical Concepts,Chemical Processes,Physical Chemistry Concepts,Physical Chemistry Processes,Physicochemical Concepts,Physicochemical Phenomena,Physicochemical Processes,Chemical Phenomenon,Chemical Process,Physical Chemistry Phenomena,Physical Chemistry Process,Physicochemical Phenomenon,Physicochemical Process,Chemical Concept,Chemistry Process, Physical,Chemistry Processes, Physical,Concept, Chemical,Concept, Physical Chemistry,Concept, Physicochemical,Concepts, Chemical,Concepts, Physical Chemistry,Concepts, Physicochemical,Phenomena, Chemical,Phenomena, Physical Chemistry,Phenomena, Physicochemical,Phenomenon, Chemical,Phenomenon, Physicochemical,Physical Chemistry Concept,Physicochemical Concept,Process, Chemical,Process, Physical Chemistry,Process, Physicochemical,Processes, Chemical,Processes, Physical Chemistry,Processes, Physicochemical

Related Publications

T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Chemical studies on tuberactinomycin. XVI. Synthesis of tuberactinomycin N.
October 1979, The Journal of antibiotics,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Chemical studies on tuberactinomycin. 3. The chemical structure of viomycin (tuberactinomycin B).
July 1972, The Journal of antibiotics,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Chemical studies on tuberactinomycin. VIII. Isolation of tuberactinamine N, the cyclic peptide moiety of tuberactinomycin N, and conversion of tuberactinomycin N to O.
April 1975, The Journal of antibiotics,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Studies on tuberactinomycin. 3. Isolation and characterization of two minor components, tuberactinomycin B and tuberactinomycin O.
April 1972, The Journal of antibiotics,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Chemical studies on tuberactinomycin. XIII. Modification of beta-ureidodehydroalanine residue in tuberactinomycin N.
November 1977, The Journal of antibiotics,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Studies on tuberactinomycin. II. Isolation and properties of tuberactinomycin-N, a new tuberactinomycin group antibiotic.
October 1971, The Journal of antibiotics,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
Chemical studies on tuberactinomycin. I. The structure of tuberactidine, guanidino amino acid component.
August 1970, Tetrahedron letters,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
[Basic studies on viomycin and tuberactinomycin (author's transl)].
October 1975, Kekkaku : [Tuberculosis],
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
[Studies on chemical protectors against radiation. XV. Radioprotective activities of indole compounds].
December 1974, Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan,
T Teshima, and S Nomoto, and T Wakamiya, and T Shiba
[Experimental studies in vitro on the antituberculous activities of tuberactinomycin (TUM) and tuberactinomycin-N (TUM-N) (author's transl)].
May 1977, Kekkaku : [Tuberculosis],
Copied contents to your clipboard!