May 1, 2006
Journal Article

Automated Purification of Recombinant Proteins: Combining High-throughput with High Yield

Abstract

Protein crystallography, mapping protein interactions and other approaches of current functional genomics require not only purifying large numbers of proteins but also obtaining sufficient yield and homogeneity for downstream high-throughput applications. There is a need for the development of robust automated high-throughput protein expression and purification processes to meet these requirements. We developed and compared two alternative workflows for automated purification of recombinant proteins based on expression of bacterial genes in Escherichia coli: First - a filtration separation protocol based on expression of 800 ml E. coli cultures followed by filtration purification using Ni2+-NTATM Agarose (Qiagen). Second - a smaller scale magnetic separation method based on expression in 25 ml cultures of E.coli followed by 96-well purification on MagneHisTM Ni2+ Agarose (Promega). Both workflows provided comparable average yields of proteins about 8 ug of purified protein per unit of OD at 600 nm of bacterial culture. We discuss advantages and limitations of the automated workflows that can provide proteins more than 90 % pure in the range of 100 ug – 45 mg per purification run as well as strategies for optimization of these protocols.

Revised: October 16, 2008 | Published: May 1, 2006

Citation

Lin C.T., P.A. Moore, D.L. Auberry, E.V. Landorf, T. Peppler, K.D. Victry, and F.r. Collart, et al. 2006. Automated Purification of Recombinant Proteins: Combining High-throughput with High Yield. Protein Expression and Purification 47, no. 1:16-24. PNNL-SA-45902.