Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide

P. S. Stern; M. Chorev; M. Goodman; A. T. Hagler

doi:10.1002/bip.360220807

Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide

P. S. Stern^*
, M. Chorev
, M. Goodman
, A. T. Hagler

^*Corresponding author for this work

School of Pharmacy

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

Ab initio minimal and split‐valence basis set calculations have been performed on compounds that are involved in retro–inverso modifications, i.e., gem‐diaminoalkyl and malonyl structures. These calculations are compared with empirical force field calculations and the minor differences discussed. All calculations agree that the preferred helical conformation of the isolated gem‐diaminoalkyl and malonyl derivatives of residues found in the retro‐inverso modified peptides is 5–8 kcal/mol lower than the C eq7 conformation preferred by the isolated peptide residues. Population analysis and contour plots of the charge distribution are used to help explain the differences between the model compounds.

Original language	English
Pages (from-to)	1901-1917
Number of pages	17
Journal	Biopolymers
Volume	22
Issue number	8
DOIs	https://doi.org/10.1002/bip.360220807
State	Published - Aug 1983

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Stern, P. S., Chorev, M., Goodman, M., & Hagler, A. T. (1983). Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide. Biopolymers, 22(8), 1901-1917. https://doi.org/10.1002/bip.360220807

@article{5b98948201dc4de6aa8025f7393dc0fd,

title = "Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide",

abstract = "Ab initio minimal and split‐valence basis set calculations have been performed on compounds that are involved in retro–inverso modifications, i.e., gem‐diaminoalkyl and malonyl structures. These calculations are compared with empirical force field calculations and the minor differences discussed. All calculations agree that the preferred helical conformation of the isolated gem‐diaminoalkyl and malonyl derivatives of residues found in the retro‐inverso modified peptides is 5–8 kcal/mol lower than the C eq7 conformation preferred by the isolated peptide residues. Population analysis and contour plots of the charge distribution are used to help explain the differences between the model compounds.",

author = "Stern, \{P. S.\} and M. Chorev and M. Goodman and Hagler, \{A. T.\}",

year = "1983",

month = aug,

doi = "10.1002/bip.360220807",

language = "אנגלית",

volume = "22",

pages = "1901--1917",

journal = "Biopolymers",

issn = "0006-3525",

publisher = "John Wiley and Sons Inc.",

number = "8",

}

Stern, PS, Chorev, M, Goodman, M & Hagler, AT 1983, 'Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide', Biopolymers, vol. 22, no. 8, pp. 1901-1917. https://doi.org/10.1002/bip.360220807

Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide. / Stern, P. S.; Chorev, M.; Goodman, M. et al.
In: Biopolymers, Vol. 22, No. 8, 08.1983, p. 1901-1917.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide

AU - Stern, P. S.

AU - Chorev, M.

AU - Goodman, M.

AU - Hagler, A. T.

PY - 1983/8

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N2 - Ab initio minimal and split‐valence basis set calculations have been performed on compounds that are involved in retro–inverso modifications, i.e., gem‐diaminoalkyl and malonyl structures. These calculations are compared with empirical force field calculations and the minor differences discussed. All calculations agree that the preferred helical conformation of the isolated gem‐diaminoalkyl and malonyl derivatives of residues found in the retro‐inverso modified peptides is 5–8 kcal/mol lower than the C eq7 conformation preferred by the isolated peptide residues. Population analysis and contour plots of the charge distribution are used to help explain the differences between the model compounds.

AB - Ab initio minimal and split‐valence basis set calculations have been performed on compounds that are involved in retro–inverso modifications, i.e., gem‐diaminoalkyl and malonyl structures. These calculations are compared with empirical force field calculations and the minor differences discussed. All calculations agree that the preferred helical conformation of the isolated gem‐diaminoalkyl and malonyl derivatives of residues found in the retro‐inverso modified peptides is 5–8 kcal/mol lower than the C eq7 conformation preferred by the isolated peptide residues. Population analysis and contour plots of the charge distribution are used to help explain the differences between the model compounds.

UR - https://www.scopus.com/pages/publications/0020803141

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DO - 10.1002/bip.360220807

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AN - SCOPUS:0020803141

SN - 0006-3525

VL - 22

SP - 1901

EP - 1917

JO - Biopolymers

JF - Biopolymers

IS - 8

ER -

Computer simulation of the conformational properties of retro–inverso peptides. II. Ab initio study, spatial electron distribution, and population analysis of N‐formylglycine methylamide, N‐formyl N′‐acetyldiaminomethane, and N‐methylmalonamide

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