Electrochemical studies are reported on a series of peptides constrained into either a 3(10)-helix (1-6) or beta-strand (7-9) conformation, with variable numbers of electron rich alkene containing side chains. Peptides (1 and 2) and (7 and 8) are further constrained into these geometries with a suitable side chain tether introduced by ring closing metathesis (RCM). Peptides 1, 4 and 5, each containing a single alkene side chain reveal a direct link between backbone rigidity and electron transfer, in isolation from any effects due to the electronic properties of the electron rich side-chains. Further studies on the linear peptides 3-6 confirm the ability of the alkene to facilitate electron transfer through the peptide. A comparison of the e...
In this thesis the electron mediating properties of 310 helical peptides have been investigated, bot...
The elusive, multiple fully extended (2.0(5)-helix) peptide conformation was searched with a series ...
Accepted 29th November 2016Electron transfer in peptides provides an opportunity to mimic nature for...
Electrochemical studies are reported on a series of peptides constrained into either a 310-helix (1-...
Electrochemical studies are reported on a series of peptides constrained into either a 3<sub>10</sub...
Research undertaken in this thesis focuses on electron transfer in peptides constrained into either ...
Understanding the electronic properties of single peptides is not only of fundamental importance to ...
The primary sequence and secondary structure of a peptide are crucial to charge migration, not only ...
Article first published online: 20 FEB 2015Understanding the electronic properties of single peptide...
Understanding the distance dependence of electron transfer (ET) through peptides is a topic of conti...
Two helical peptides, one constrained by a covalent side-chain staple, exhibit vastly different elec...
Understanding the electronic properties inherent to peptides is crucial for controlling charge trans...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)2-Ala-NH-(CH2)2-SH has been organized forming a...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)(2)-Ala-NH-(CH2)(2)-SH has been organized formi...
Understanding long range electron transfer (ET) in proteins is of fundamental interest to elucidate ...
In this thesis the electron mediating properties of 310 helical peptides have been investigated, bot...
The elusive, multiple fully extended (2.0(5)-helix) peptide conformation was searched with a series ...
Accepted 29th November 2016Electron transfer in peptides provides an opportunity to mimic nature for...
Electrochemical studies are reported on a series of peptides constrained into either a 310-helix (1-...
Electrochemical studies are reported on a series of peptides constrained into either a 3<sub>10</sub...
Research undertaken in this thesis focuses on electron transfer in peptides constrained into either ...
Understanding the electronic properties of single peptides is not only of fundamental importance to ...
The primary sequence and secondary structure of a peptide are crucial to charge migration, not only ...
Article first published online: 20 FEB 2015Understanding the electronic properties of single peptide...
Understanding the distance dependence of electron transfer (ET) through peptides is a topic of conti...
Two helical peptides, one constrained by a covalent side-chain staple, exhibit vastly different elec...
Understanding the electronic properties inherent to peptides is crucial for controlling charge trans...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)2-Ala-NH-(CH2)2-SH has been organized forming a...
The helical peptide Cys-Ala-Lys-(Glu-Ala-Ala-Ala-Lys)(2)-Ala-NH-(CH2)(2)-SH has been organized formi...
Understanding long range electron transfer (ET) in proteins is of fundamental interest to elucidate ...
In this thesis the electron mediating properties of 310 helical peptides have been investigated, bot...
The elusive, multiple fully extended (2.0(5)-helix) peptide conformation was searched with a series ...
Accepted 29th November 2016Electron transfer in peptides provides an opportunity to mimic nature for...