Doping hepta-alanine with tryptophan: A theoretical study of its effect on the electrical conductance of peptide-based single-molecule junctions

Abstract: Motivated by a recent experiment [C. Guo et al., Proc. Natl. Acad. Sci. U. S. A. 113, 10785 (2016)], we carry out a theoretical study of electron transport through peptide-based single-molecule junctions. We analyze the pristine hepta-alanine and its functionalizations with a single tryptophan unit, which is placed in three different locations along the backbone. Contrary to expectations from the experiment on self-assembled monolayers, we find that insertion of tryptophan does not raise the electrical conduct… Show more

“…The remarkable conductance measured in the experiments for the blue copper azurin is very surprising taking into account the low tunneling conductance which was computed for junctions based on single amino acids or single peptides [44][45][46], as well as its size (with a diameter of approximately 2.5 nm). This has inspired ab-initio-based calculations devoted to unraveling this puzzle.…”

Recent Advances in Understanding the Electron Transport Through Metal-Azurin-Metal Junctions

“…The remarkable conductance measured in the experiments for the blue copper azurin is very surprising taking into account the low tunneling conductance which was computed for junctions based on single amino acids or single peptides [44][45][46], as well as its size (with a diameter of approximately 2.5 nm). This has inspired ab-initio-based calculations devoted to unraveling this puzzle.…”

Recent Advances in Understanding the Electron Transport Through Metal-Azurin-Metal Junctions

“…理解许多重要的生理过程具有重要意义 [10] . 多肽 单分子电子输运的实验 [11] 和理论 [12] 研究均说明, 多肽分子中处于电子传输方向的主链或分子侧链 上的CH 2 和CH 3 等烷烃基团对于电子的输运都产 生了一定的影响. 然而, 如何理解这些烷烃在分子 结中的电子输运, 烷烃基团的数量对于电导有什么 影响仍未见系统的研究.…”

Electron transport of one-dimensional non-conjugated (CH₂)_<i>n</i> molecule chain coupling to graphene electrode

“…The amino acid composition and sequence, length and secondary structure of peptides may all contribute to the their capacity of electron transfer in solution and the electron transport (ETp) presently observed in the solid-state under high vacuum, conditions remote from those of the former [3][4][5][6][7][8] though some disagreements still exist between certain theoretical calculations and experimental measurements. [9][10][11][12] The composition and sequence of amino acids in a peptide determine its frontier orbitals energy levels and molecular dipole, and hence also affect the ETp it carries. 11,13,14 Amino acid compositions of peptides have been investigated for their roles in ETp.…”

Electron transport via tyrosine-doped oligo-alanine peptide junctions: role of charges and hydrogen bonding