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N-terminal analogues of cecropin A: synthesis, antibacterial activity, and conformational properties.

N-terminal analogues of cecropin A: synthesis, antibacterial activity, and conformational... Six analogues of the 37-residue antibacterial peptide cecropin A were synthesized by the solid-phase method: cecropin A-(2-37), [Glu2]cecropin A, [Pro4]cecropin A, [Glu6]cecropin A, [Leu6]cecropin A, and [Pro8]cecropin A. Their antibacterial activities against four test organisms were determined and related to conformational changes observed in their CD spectra and were discussed on the basis of a previously proposed amphipathic alpha-helix model. An aromatic residue in position 2 was shown to be important for activity against all tested bacteria. The highly alpha-helical 1-11 region of cecropin A did not appear to play a significant role in its activity against Escherichia coli but was clearly involved in its interaction against Pseudomonas aeruginosa, Bacillus megaterium, and Micrococcus luteus. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Biochemistry Pubmed

N-terminal analogues of cecropin A: synthesis, antibacterial activity, and conformational properties.

Andreu, D; Merrifield, R B; Steiner, H; Boman, H G
Biochemistry , Volume 24 (7): -1674 – Aug 1, 1985
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N-terminal analogues of cecropin A: synthesis, antibacterial activity, and conformational properties.


Abstract

Six analogues of the 37-residue antibacterial peptide cecropin A were synthesized by the solid-phase method: cecropin A-(2-37), [Glu2]cecropin A, [Pro4]cecropin A, [Glu6]cecropin A, [Leu6]cecropin A, and [Pro8]cecropin A. Their antibacterial activities against four test organisms were determined and related to conformational changes observed in their CD spectra and were discussed on the basis of a previously proposed amphipathic alpha-helix model. An aromatic residue in position 2 was shown to be important for activity against all tested bacteria. The highly alpha-helical 1-11 region of cecropin A did not appear to play a significant role in its activity against Escherichia coli but was clearly involved in its interaction against Pseudomonas aeruginosa, Bacillus megaterium, and Micrococcus luteus.

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ISSN
0006-2960
DOI
10.1021/bi00328a017
pmid
3924096

Abstract

Six analogues of the 37-residue antibacterial peptide cecropin A were synthesized by the solid-phase method: cecropin A-(2-37), [Glu2]cecropin A, [Pro4]cecropin A, [Glu6]cecropin A, [Leu6]cecropin A, and [Pro8]cecropin A. Their antibacterial activities against four test organisms were determined and related to conformational changes observed in their CD spectra and were discussed on the basis of a previously proposed amphipathic alpha-helix model. An aromatic residue in position 2 was shown to be important for activity against all tested bacteria. The highly alpha-helical 1-11 region of cecropin A did not appear to play a significant role in its activity against Escherichia coli but was clearly involved in its interaction against Pseudomonas aeruginosa, Bacillus megaterium, and Micrococcus luteus.

Journal

BiochemistryPubmed

Published: Aug 1, 1985

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