Toggle Main Menu Toggle Search

Open Access padlockePrints

Loop-contraction mutagenesis of type 1 copper sites

Lookup NU author(s): Sachiko Yanagisawa, Professor Christopher Dennison

Downloads

Full text for this publication is not currently held within this repository. Alternative links are provided below where available.


Abstract

The shortest known type 1 copper binding loop (that of amicyanin, Ami) has been introduced into three different cupredoxin β-barrel scaffolds. All of the loop-contraction variants possess copper centers with authentic type 1 properties and are redox active. The Cu(II) and Co(II) sites experience only small structural alterations upon loop contraction with the largest changes in the azurin variant (AzAmi), which can be ascribed to the removal of a hydrogen bond to the coordinating thiolate sulfur of the Cys ligand. In all cases, loop contraction leads to an increase in the pKa of the His ligand found on the loop in the reduced proteins, and in the pseudoazurin (Paz) and plastocyanin (Pc) variants the values are almost identical to that of Ami (∼6.7). Thus, in Paz, Pc, and Ami, the length of this loop tunes the pK a of the His ligand. In the AzAmi variant, the pKa is 5.5, which is considerably higher than the estimated value for Az (<2), and other controlling factors, along with loop length, are involved. The reduction potentials of the loop-contraction variants are all lower than those of the wild-type proteins by ∼30-60 mV, and thus this property of a type 1 copper site is fine-tuned by the C-terminal loop. The electron self-exchange rate constant of Paz is significantly diminished by the introduction of a shorter loop. However, in PcAmi only a 2-fold decrease is observed and in AzAmi there is no effect, and thus in these two cupredoxins loop contraction does not significantly influence electron-transfer reactivity. Loop contraction provides an active site environment in all of the cupredoxins which is preferable for Cu(II), whereas previous loop elongation experiments always favored the cuprous site. Thus, the ligand-containing loop plays an important role in tuning the entatic nature of a type 1 copper center.


Publication metadata

Author(s): Yanagisawa S, Dennison C

Publication type: Article

Publication status: Published

Journal: Journal of the American Chemical Society

Year: 2004

Volume: 126

Issue: 48

Pages: 15711-15719

ISSN (print): 0002-7863

ISSN (electronic): 1943-2984

Publisher: American Chemical Society

URL: http://dx.doi.org/10.1021/ja047295r

DOI: 10.1021/ja047295r

PubMed id: 15571393


Altmetrics

Altmetrics provided by Altmetric


Actions

Find at Newcastle University icon    Link to this publication


Share