List of works - Peng Zheng - Paulina

List of works by Peng Zheng

Direct Measurements of the Mechanical Stability of Zinc-Thiolate Bonds in Rubredoxin by Single-Molecule Atomic Force Microscopy ⬇️

scientific article published on September 20, 2011

Enzymatic biosynthesis and immobilization of polyprotein verified at the single-molecule level.

scientific article published on 24 June 2019

Facile method of constructing polyproteins for single-molecule force spectroscopy studies

scientific article published on 12 April 2011

Force-induced chemical reactions on the metal centre in a single metalloprotein molecule

scientific article published on 25 June 2015

Highly Covalent Ferric−Thiolate Bonds Exhibit Surprisingly Low Mechanical Stability ⬇️

scientific article published on 08 April 2011

Hydrogen bond strength modulates the mechanical strength of ferric-thiolate bonds in rubredoxin

scientific article published on 24 February 2012

Modeling the Hydrolysis of Iron-Sulfur Clusters

scientific article published on 16 December 2019

Multistep Protein Unfolding Scenarios from the Rupture of a Complex Metal Cluster Cd3S9

scientific article published on 19 July 2019

Reversible unfolding-refolding of rubredoxin: a single-molecule force spectroscopy study

scientific article published on 14 October 2014

Single molecule force spectroscopy reveals that iron is released from the active site of rubredoxin by a stochastic mechanism.

scientific article published on 14 May 2013

Single molecule force spectroscopy reveals the molecular mechanical anisotropy of the FeS4 metal center in rubredoxin.

scientific article published on 14 November 2013

Single molecule force spectroscopy: a new tool for bioinorganic chemistry.

scientific article published on 6 December 2017

Single-Molecule Force Spectroscopy Reveals that Iron-Ligand Bonds Modulate Proteins in Different Modes

scientific article published on 30 August 2019

The molecular mechanism underlying mechanical anisotropy of the protein GB1.

scientific article published on December 2012

Thermodynamically stable whilst kinetically labile coordination bonds lead to strong and tough self-healing polymers

scientific article published on 11 March 2019

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