Anke Arnold scite author profile

A new strategy for the preparation of protein-functionalized polymer brushes is reported, which is based on a combination of surface-initiated atom transfer radical polymerization (ATRP), p-nitrophenyl chloroformate activation of the surface hydroxyl groups, and subsequent O(6)-benzylguanine (BG) functionalization. The BG-functionalized brushes are used to chemoselectively immobilize O(6)-alkylguanine-DNA-alkyltransferase (AGT) fusion proteins with a defined orientation and surface density. These protein-modified polymer brushes are attractive candidates for the development of protein microarrays.

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Protein Function Microarrays Based on Self‐Immobilizing and Self‐Labeling Fusion Proteins

Sielaff

Arnold

Godin

et al. 2006

ChemBioChem

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Protein microarrays are an attractive approach for the high-throughput analysis of protein function, but their impact on proteomics has been limited by the technical difficulties associated with their generation. Here we demonstrate that fusion proteins of O6-alkylguanine-DNA alkyltransferase (AGT) can be used for the simple and reliable generation of protein microarrays for the analysis of protein function. Important features of the approach are the selectivity of the covalent immobilization; this allows for direct immobilization of proteins out of cell extracts, and the option both to label and to immobilize AGT fusion proteins, which allows for direct screening for protein-protein interactions between different AGT fusion proteins. In addition to the identification of protein-protein interactions, AGT-based protein microarrays can be used for the characterization of small molecule-protein interactions or post-translational modifications. The potential of the approach was demonstrated by investigating the post-translational modification of acyl carrier protein (ACP) from E. coli by different phosphopantetheine transferases (PPTases), yielding insights into the role of selected ACP amino acids in the ACP-PPTase interaction.

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Caged Substrates for Protein Labeling and Immobilization

2007

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Sequence and transcriptional analysis of a gene cluster of Pseudomonas putida 86 involved in quinoline degradation

Carl

Arnold

Hauer³

et al. 2004

Gene

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Chemical Approaches to Exploit Fusion Proteins for Functional Studies

Arnold¹,

Sielaff²,

Johnsson³

et al. 2007

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Anke Arnold

Protein-Functionalized Polymer Brushes

Protein Function Microarrays Based on Self‐Immobilizing and Self‐Labeling Fusion Proteins

Caged Substrates for Protein Labeling and Immobilization

Sequence and transcriptional analysis of a gene cluster of Pseudomonas putida 86 involved in quinoline degradation

Chemical Approaches to Exploit Fusion Proteins for Functional Studies

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