Summary of information
PROJECT
O-methyl-L-tyrosine

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Upload 22-05-2009 09:34 (Day-Month-Year, Paris time)
Update 28-09-2011 16:31 (Day-Month-Year, Paris time)



Information about the Author (who submitted the project in R.E.DD.B.)

Firstname Francois-Yves

Lastname Dupradeau

Institute UFR de pharmacie, UPJV

City Amiens

Country FRANCE


General information about the Project

Molecule keywords

New amino acid O-methyl-L-tyrosine central fragment N-terminal fragment C-terminal fragment


Abstract

RESP atomic charges embedded in force field libraries for the N-Acetyl-O-methyl-L-tyrosine-N'-methylamide dipeptide (or ACE-TYM-NME capped amino acid), as well as for the central, (+)NH3-terminal and (-)OOC-terminal fragments of the O-methyl-L-tyrosine amino acid. All atom force field libraries suitable for MD simulations using the Cornell et al. AMBER force field (and/or its successive adaptations: Kollman et al., Cheatham et al., Wang et al. & Hornak et al. force fields). Two conformations for N-Acetyl-O-methyl-L-tyrosine-N'-methylamide close to that found in the α-helix and/or β-sheet secondary structures were considered in the procedure. Charge derivation and force field library building for the central fragment of O-methyl-L-tyrosine (or TYM fragment) were carried out by using N-Acetyl-O-methyl-L-tyrosine-N'-methylamide, and setting two intra-molecular charge constraints to a value of zero for the ACE and NME residues during the charge fitting step. Charge derivation and force field library building for the N-terminal fragment of O-methyl-L-tyrosine (or NTYM fragment) were performed by using two molecules: methylammonium and N-Acetyl-O-methyl-L-tyrosine-N'-methylamide, and setting two different constraints to a value of zero during the fitting step: (i) an inter-molecular charge constraint between the methyl group of methylammonium and the CH3CO-NH group of atoms of the capped amino acid, and (ii) an intra-molecular charge constraint for the NME residue of the capped amino acid. Charge derivation and force field library building for the C-terminal fragment of O-methyl-L-tyrosine (or CTYM fragment) were carried out by using two molecules: acetate and N-Acetyl-O-methyl-L-tyrosine-N'-methylamide, and setting to a value of zero two different constraints during the fitting step: (i) an inter-molecular charge constraint between the methyl group of acetate and the CO-NHCH3 group of atoms of the capped amino acid, and (ii) an intra-molecular charge constraint for the ACE residue of the capped amino acid (Scheme 1).


Scheme 1
Multiple orientation multiple conformation and multiple molecule charge derivation and force field library building for the N-Acetyl-O-methyl-L-tyrosine-N'-methylamide dipeptide and the corresponding central, H3N(+)-terminal and (-)OOC-terminal molecular fragments carried out using R.E.D. Server and the R.E.D. IV program. (A) Description of the eighteen molecules involved in the procedure (bold and italic roman numeral; see below as well). Conf. 1: α-helix conformation (φ = -72.41, ψ = -34.82, χ = -171.96) of N-Acetyl-O-methyl-L-tyrosine-N'-methylamide involved in a single conformation charge fit; Conf. 2: β-sheet conformation (φ = -119.15, ψ = 138.71, χ = -60.94) of N-Acetyl-O-methyl-L-tyrosine-N'-methylamide involved in a single conformation charge fit; Conf. 1 + 2 : α-helix and β-sheet conformations of N-Acetyl-O-methyl-L-tyrosine-N'-methylamide involved in a two conformation charge fit. "R" chemical group of O-methyl-L-tyrosine: side chain = CH2-C6H4-OCH3; Dashed line box: symbolisation of intra-molecular charge constraints used during the fitting step within the dipeptide; Plain line box: symbolisation of inter-molecular charge constraints used during the fitting step between the dipeptide and methylammonium or acetate. ACE chemical group = CH3CO; NME chemical group = NHCH3. (B) Selection of force field libraries generated in the Tripos mol2 file format.
- Molecule -I-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix conformation) used in charge derivation & force field library building for the dipeptide itself.
- Molecule -II-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (β-sheet conformation) used in charge derivation & force field library building for the dipeptide itself.
- Molecule -III-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix & β-sheet conformations) used in charge derivation & force field library building for the dipeptide itself.
- Molecule -IV-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix conformation) used in charge derivation & force field library building for the TYM central fragment.
- Molecule -V-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (β-sheet conformation) used in charge derivation & force field library building for the TYM central fragment.
- Molecule -VI-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix & β-sheet conformations) used in charge derivation & force field library building for the TYM central fragment.
- Molecule -VII-: Methylammonium used in charge derivation & force field library building for the NTYM N-terminal fragment.
- Molecule -VIII-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix conformation) used in charge derivation & force field library building for the NTYM N-terminal fragment.
- Molecule -IX-: Methylammonium used in charge derivation & force field library building for the NTYM N-terminal fragment.
- Molecule -X-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (β-sheet conformation) used in charge derivation & force field library building for the NTYM N-terminal fragment..
- Molecule -XI-: Methylammonium used in charge derivation & force field library building for the NTYM N-terminal fragment.
- Molecule -XII-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix & β-sheet conformations) used in charge derivation & force field library building for the NTYM N-terminal fragment.
- Molecule -XIII-: Acetate used in charge derivation & force field library building for the CTYM C-terminal fragment.
- Molecule -XIV-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix conformation) used in charge derivation & force field library building for the CTYM C-terminal fragment.
- Molecule -XV-: Acetate used in charge derivation & force field library building for the CTYM C-terminal fragment.
- Molecule -XVI-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (β-sheet conformation) used in charge derivation & force field library building for the CTYM C-terminal fragment.
- Molecule -XVII-: Acetate used in charge derivation & force field library building for the CTYM C-terminal fragment.
- Molecule -XVIII-: N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (α-helix & β-sheet conformations) used in charge derivation & force field library building for the CTYM C-terminal fragment.

Geometry optimization, frequency calculation and molecular electrostatic potential (MEP) computation were carried out using the Gaussian 03 program, while charge fitting was performed using the RESP program. For all the structures, the HF method and the 6-31G* basis set in gas phase were used in geometry optimization and frequency calculation. MEP computation was carried out using the HF/6-31G* theory level in gas phase, and the Connolly surface algorithm. The molecular orientation of each optimized structure was controlled using the rigid-body re-orientation algorithm implemented in the R.E.D. program. Four molecular orientations for N-Acetyl-O-methyl-L-tyrosine-N'-methylamide (based on the ACE carbonyl carbon, TYM carbonyl carbon, TYM carbonyl oxygen atoms; TYM carbonyl oxygen, TYM carbonyl carbon, ACE carbonyl carbon atoms; ACE carbonyl oxygen, TYM carbonyl oxygen, NME nitrogen atoms; NME nitrogen, TYM carbonyl oxygen, ACE carbonyl oxygen atoms), and two molecular orientations for methylammonium (based on the methyl carbon, nitrogen, gauche+ nitrogen hydrogen atoms; gauche+ nitrogen hydrogen, nitrogen, methyl carbon atoms) and acetate (based on the methyl carbon, carboxylate carbon, terminal oxygen atoms; terminal oxygen, carboxylate carbon, methyl carbon atoms)] were involved in MEP computation. A RRMS (relative root mean square value between the MEP values calculated by quantum mechanics, and those generated using the derived charge values) of 0.049 was obtained for the fitting step. See the F-23 up to F-44 R.E.DD.B. projects as well. The present project contains the F-23, F-24, F-25, F-29 and F-33 projects.

Publication YES      

Author(s) F.-Y. Dupradeau, A. Pigache, T. Zaffran, C. Savineau, R. Lelong, N. Grivel, D. Lelong, W. Rosanski and P. Cieplak

Journal Phys. Chem. Chem. Phys.

Year 2010

Volume 12

Page(s) 7821-7839


"Whole molecule" or "Molecule fragment" type project MOLECULE FRAGMENT

Interface R.E.D. used ? YES


Charge derivation procedure

Number of Tripos mol2 file(s) provided by the author(s) 12

Contain charge values & information about molecular topology

No Name Download Wikipedia 3D Display 1 3D Display 2
1 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide Wiki_Logo Jmol_Logo JSmol_Logo
2 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide Wiki_Logo Jmol_Logo JSmol_Logo
3 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide Wiki_Logo Jmol_Logo JSmol_Logo
4 Fragment TYM Wiki_Logo Jmol_Logo JSmol_Logo
5 Fragment TYM Wiki_Logo Jmol_Logo JSmol_Logo
6 Fragment TYM Wiki_Logo Jmol_Logo JSmol_Logo
7 Fragment NTYM Wiki_Logo Jmol_Logo JSmol_Logo
8 Fragment NTYM Wiki_Logo Jmol_Logo JSmol_Logo
9 Fragment NTYM Wiki_Logo Jmol_Logo JSmol_Logo
10 Fragment CTYM Wiki_Logo Jmol_Logo JSmol_Logo
11 Fragment CTYM Wiki_Logo Jmol_Logo JSmol_Logo
12 Fragment CTYM Wiki_Logo Jmol_Logo JSmol_Logo


Number of molecule(s) used in the charge derivation procedure 18

File(s) provided to the PDB format

No Molecule name Conformation No Reorientation procedure Mol. orientation No Download Wikipedia
1 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
2 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
3 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 2 Rigid Body Reorient Algo 4 Wiki_Logo
4 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
5 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
6 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 2 Rigid Body Reorient Algo 4 Wiki_Logo
7 Methylammonium 1 Rigid Body Reorient Algo 2 Wiki_Logo
8 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
9 Methylammonium 1 Rigid Body Reorient Algo 2 Wiki_Logo
10 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
11 Methylammonium 1 Rigid Body Reorient Algo 2 Wiki_Logo
12 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 2 Rigid Body Reorient Algo 4 Wiki_Logo
13 Acetate 1 Rigid Body Reorient Algo 2 Wiki_Logo
14 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
15 Acetate 1 Rigid Body Reorient Algo 2 Wiki_Logo
16 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 1 Rigid Body Reorient Algo 4 Wiki_Logo
17 Acetate 1 Rigid Body Reorient Algo 2 Wiki_Logo
18 N-Acetyl-O-methyl-L-tyrosine-N'-methylamide 2 Rigid Body Reorient Algo 4 Wiki_Logo



Information regarding Quantum Calculations

Geometry optimization

Program 1 GAUSSIAN 2003

Theory level 1 HF

More information 1 Opt=Tight

Basis set 1 6-31G*

Molecular electrostatic potential computation

Program 2 GAUSSIAN 2003

Theory level 2 HF

More information 2 IOp(6/33=2) NoSymm

Basis set 2 6-31G*

Algorithm CONNOLLY SURFACE


Information about the charge fit

Program RESP

Number of stage(s) 2

input of stage 1

input of stage 2



Files the author of the project wishes to provide...

A script to convert Tripos mol2 file(s) into LEaP OFF library(ies) (for AMBER)...
A script to convert Tripos mol2 file(s) into RTF or PSF library(ies) (for CHARMM)...
A file to provide new force field parameters compatible with the Tripos mol2 file(s)...
A file (choice made by the author) to provide more information about the project...
A file (choice made by the author) to provide more information about the project...

Download the whole project...



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