Large-Scale Experimental Studies Show Unexpected Amino Acid Effects on Protein Expression and Solubility in vivo in E. coli

Authors

W. Nicholson Price II, University of New Hampshire School of Law
Samuel K. Handelman, Columbia University
John K. Everett, Rutgers UniversityFollow
Saichiu N. Tong, Rutgers University
Ana Bracic, New York University
Jon D. Luff, Columbia University
Victor Naumov, Columbia University
Thomas Acton, Rutgers UniversityFollow
Philip Manor, Columbia UniversityFollow
Rong Xiao, Rutgers University
Burkhard Rost, Columbia UniversityFollow
Gaetano T. Montelione, University of Medicine and Dentistry of New Jersey
John F. Hunt, Columbia University

Abstract

The biochemical and physical factors controlling protein expression level and solubility in vivo remain incompletely characterized. To gain insight into the primary sequence features influencing these outcomes, we performed statistical analyses of results from the high-throughput protein-production pipeline of the Northeast Structural Genomics Consortium. Proteins expressed in E. coli and consistently purified were scored independently for expression and solubility levels. These parameters nonetheless show a very strong positive correlation. We used logistic regressions to determine whether they are systematically influenced by fractional amino acid composition or several bulk sequence parameters including hydrophobicity, sidechain entropy, electrostatic charge, and predicted backbone disorder. Decreasing hydrophobicity correlates with higher expression and solubility levels, but this correlation apparently derives solely from the beneficial effect of three charged amino acids, at least for bacterial proteins. In fact, the three most hydrophobic residues showed very different correlations with solubility level. Leu showed the strongest negative correlation among amino acids, while Ile showed a slightly positive correlation in most data segments. Several other amino acids also had unexpected effects. Notably, Arg correlated with decreased expression and, most surprisingly, solubility of bacterial proteins, an effect only partially attributable to rare codons. However, rare codons did significantly reduce expression despite use of a codon-enhanced strain. Additional analyses suggest that positively but not negatively charged amino acids may reduce translation efficiency in E. coli irrespective of codon usage. While some observed effects may reflect indirect evolutionary correlations, others may reflect basic physicochemical phenomena. We used these results to construct and validate predictors of expression and solubility levels and overall protein usability, and we propose new strategies to be explored for engineering improved protein expression and solubility.

Publication Date

1-1-2011

Journal Title

Microbial Informatics and Experimentation

Document Type

Article

Recommended Citation

W. Nicholson Price II et al., "Large-Scale Experimental Studies Show Unexpected Amino Acid Effects on Protein Expression and Solubility in vivo in E. coli," 1 MICROBIAL INFORMATICS & EXPERIMENTATION 6 (2011), available at https://perma.cc/T2G5-BYEH?type=source

Additional Information

Available at http://www.microbialinformaticsj.com/content/1/1/6