Origins of biomolecular handedness

@article{Mason1984OriginsOB,
  title={Origins of biomolecular handedness},
  author={Stephen Finney Mason},
  journal={Nature},
  year={1984},
  volume={311},
  pages={19-23},
  url={https://api.semanticscholar.org/CorpusID:103653}
}
This work has shown that the parity-violating weak neutral current interaction gives rise to an energy difference between a chiral molecule and its mirror-image isomer, resulting in a small stabilization of the L-amino acids and theL-peptides in the α-helix and the β-sheet conformation relative to the corresponding enantiomer.
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51 References

Systems-theoretic model for the spontaneous formation of optical antipodes in strongly asymmetric yield.

Evolution in open systems: bistability and the origin of molecular asymmetry.

    P. Decker
  • Biology, Physics
    Nature: New biology
  • 1973
There is an alternative “cybernetic” mechanism, a spontaneous generation and self-propagation of asymmetry as a consequence of kinetic bistability in the course of the evolution of open systems.

The parity-violating energy difference between enantiomeric molecules

Chiral-symmetry breaking in nonequilibrium systems

Sensitivity of a nonequilibrium chemical system to small symmetry-breaking influences is analyzed in the context of chiral-symmetry breaking. For a hypothetical model system, with realistic kinetic

Biochemical L-D stereoselection by weak neutral currents: A mathematical model

Stereoselective hydrolysis of leucine oligomers

Energy inequivalence of peptide enantiomers from parity non-conservation

L-Alanine and L-peptides in the α-helix and β-sheet conformation are stabilized relative to the corresponding enantiomer by the weak parity-violating interaction.

Asymmetric Adsorption of Alanine by Quartz Powder from Ethanol Solution

The asymmetric adsorption of the racemic alanine by the optically active quartz from ethanol solution at 8 °C was studied by the 14C-tracer method and the newly developed

Ab initio calculations of oscillator and rotatory strengths in the random‐phase approximation: Twisted mono‐olefins

Ab initio (STO‐nG) computations of ordinary and rotatory intensities of low‐lying electronic transitions are presented for twisted ethylene and twisted trans‐2‐butene in the random‐phase

Calculation of the parity nonconserving energy difference between mirror‐image molecules

The theory of energy shifts in mirror‐image molecules arising from parity nonconserving weak neutral currents is developed. Its connection with the theory of optical activity is discussed. In order
...

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