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(2S,4R)-1-((R)-2-tert-Butoxycarbonylamino-propionyl)-4-hydroxy-pyrrolidine-2-carboxylic acid methyl ester is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

220061-76-7

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220061-76-7 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 220061-76-7 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 2,2,0,0,6 and 1 respectively; the second part has 2 digits, 7 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 220061-76:
(8*2)+(7*2)+(6*0)+(5*0)+(4*6)+(3*1)+(2*7)+(1*6)=77
77 % 10 = 7
So 220061-76-7 is a valid CAS Registry Number.

220061-76-7Downstream Products

220061-76-7Relevant academic research and scientific papers

Design, synthesis, structure and properties of an α-helix cap template derived from N-[(2S)-2-chloropropionyl]-(2S)-Pro-(2R)-Ala-(2S,4S)-4-thioPro- OMe which initiates α-helical structures

Gani, David,Lewis, Arwel,Rutherford, Trevor,Wilkie, John,Stirling, Iain,Jenn, Thierry,Ryan, Martin D.

, p. 15793 - 15819 (1998)

A strategy based upon removing the requirement for all of the carbonyl dipoles to align at the same time in the transition state lending to the cyclisation of N-[(2S)-2-chloropropionyl]-(2S)-Pro(2R)-Ala-(2S, 4S)-4- thioPro-OMe to- a Zimm-Bragg type α-helix peptide intitator template was successful. Each amide bond of the 12-membered macrocyclic template existed in the trans-rotomeric form. Derivatives of the template were prepared by extending the C. terminus and these were characterised by NMR spectroscopy and restrained simulated annealing. In deuterochloroform solution at low temperature, separate sets of NMR signals were observed for two rapidly interconverting helical conformational isomers of the thioether macrocycle which possessed an appended trialkylammonium ion. A similar time-averaged conformation was also observed in aqueous solution. At -80 °C in d2- dichloromethane the rate of conformational exchange was slowed sufficiently to obtain resonance assignments and NOE data separately for each isomer. In the minor isomer (40%), the four carbonyl oxygen hydrogen-bond acceptors of the template are aligned in an α-helical conformation and in the major conformer the Pro2 carbonyl dipole was anti-aligned with the other three dipoles. Thus, the conformers differ in the orientation of one carbonyl group. Molecular modelling calculations showed that the minor isomer was stabilised by coulombic interactions between the trialkylammonium salt and the carbonyl group dipole moments.

Design, construction and properties of peptide N-terminal cap templates devised to initiate α-helices. Part 3. Caps derived from N-[(2S)-2-chloropropionyl]-(2S)-Pro-(2R)-Ala-(2S,4S)-4-thioPro-OMe

Lewis, Arwel,Rutherford, Trevor J.,Wilkie, John,Jenn, Thierry,Gani, David

, p. 3795 - 3806 (2007/10/03)

The construction of a 12-membered macrocyclic template capable of entraining attached peptides in helical conformations from acyclic N-[(2S)-2-chloropropionyl]-(2S)-Pro-(2S)-Pro-(2S,4S)-4-thioPro-OMe precursors has been severely hampered by the problem of simultaneously aligning carboxamide dipoles in the transition state for cyclisation. Previously we provided a detailed conformational analysis of the system and tested two methods for forcing the acyclic precursor into the macrocyclic conformation required for helix initiation. First, the destabilisation of unwanted conformations in the transition state for cyclisation, and second, the stabilisation of the favoured transition state structure through the introduction of a hydrogen-bonding interaction. Both strategies were unsuccessful. A third strategy based upon removing the requirement for all of the carbonyl dipoles to align in the transition state at the same time was also tested and the results are presented here: The relaxation of the highly restrained Cα-N bond torsion for Pro3 in the acyclic precursor, through its substitution for a (2R)-alanine residue, effectively decouples the motion of the second carboxamide group from the Cα-N bond torsion and allows the second carboxamide group to rotate. This rotation allows a helical conformation to develop in the transition state to the macrocycle without the need to align all of the carboxamide dipoles and results in successful cyclisation to give template structures of the all trans (ttt) form. Derivatives of the template were prepared by extending the C-terminus and these were characterised by NMR spectroscopy and restrained simulated annealing. In deuterochloroform solution at low temperature, separate sets of NMR signals were observed for two rapidly interconverting helical conformational isomers of the thioether macrocycle based on (2R)-N-propionyl-(2S)-Pro-(2R)-Ala-(2S)-Pro which possessed an appended trialkylammonium ion. The free energy of activation for the transition (ΔGc?) was 48 kJ mol-1. A similar time-averaged conformation was also observed in aqueous solution. At -80°C in dichloromethane the rate of conformational exchange was slowed sufficiently to obtain resonance assignments and NOE data separately for each isomer. In the minor isomer (40%), the four carbonyl oxygen hydrogen-bond acceptors of the template are aligned in an α-helical conformation and in the major conformer the Pro2 carbonyl dipole was anti-aligned with the other three dipoles. Thus, the conformers differ in the orientation of one carbonyl group. Molecular modelling calculations showed that the minor isomer was stabilised by coulombic interactions between the trialkylammonium salt and the carbonyl group dipole moments.

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