Recombinant protein expression in Escherichia coli F Baneyx Current opinion in biotechnology 10 (5), 411-421, 1999 | 2509 | 1999 |
Molecular biomimetics: nanotechnology through biology M Sarikaya, C Tamerler, AKY Jen, K Schulten, F Baneyx Nature materials 2 (9), 577-585, 2003 | 2048 | 2003 |
Recombinant protein folding and misfolding in Escherichia coli F Baneyx, M Mujacic Nature biotechnology 22 (11), 1399-1408, 2004 | 1899 | 2004 |
Molecular chaperones, folding catalysts, and the recovery of active recombinant proteins fromE. coli To fold or to refold JG Thomas, A Ayling, F Baneyx Applied biochemistry and biotechnology 66, 197-238, 1997 | 370 | 1997 |
Materials assembly and formation using engineered polypeptides M Sarikaya, C Tamerler, DT Schwartz, F Baneyx Annu. Rev. Mater. Res. 34 (1), 373-408, 2004 | 352 | 2004 |
Protein misfolding and inclusion body formation in recombinant Escherichia coli cells overexpressing heat-shock proteins (∗) JG Thomas, F Baneyx Journal of Biological Chemistry 271 (19), 11141-11147, 1996 | 316 | 1996 |
Expression of aggregation-prone recombinant proteins at low temperatures: a comparative study of theescherichia coli cspaandtacpromoter systems JA Vasina, F Baneyx Protein expression and purification 9 (2), 211-218, 1997 | 281 | 1997 |
Roles of the Escherichia coli Small Heat Shock Proteins IbpA and IbpB in Thermal Stress Management: Comparison with ClpA, ClpB, and HtpG In Vivo JG Thomas, F Baneyx Journal of bacteriology 180 (19), 5165-5172, 1998 | 254 | 1998 |
Identification and characterization of Cu2O‐ and ZnO‐binding polypeptides by Escherichia coli cell surface display: toward an understanding of metal oxide binding CK Thai, H Dai, MSR Sastry, M Sarikaya, DT Schwartz, F Baneyx Biotechnology and bioengineering 87 (2), 129-137, 2004 | 243 | 2004 |
In vivo degradation of secreted fusion proteins by the Escherichia coli outer membrane protease OmpT F Baneyx, G Georgiou Journal of bacteriology 172 (1), 491-494, 1990 | 243 | 1990 |
Bacterial host strains for producing proteolytically sensitive polypeptides G Georgiou, F Baneyx US Patent 5,508,192, 1996 | 227 | 1996 |
Protease-deficient bacterial strains for production of proteolytically sensitive polypeptides G Georgiou, F Baneyx US Patent 5,264,365, 1993 | 210 | 1993 |
Selection and analysis of solid-binding peptides F Baneyx, DT Schwartz Current opinion in biotechnology 18 (4), 312-317, 2007 | 187 | 2007 |
ClpB and HtpG facilitate de novo protein folding in stressed Escherichia coli cells JG Thomas, F Baneyx Molecular microbiology 36 (6), 1360-1370, 2000 | 182 | 2000 |
Construction and characterization of Escherichia coli strains deficient in multiple secreted proteases: protease III degrades high-molecular-weight substrates in vivo F Baneyx, G Georgiou Journal of bacteriology 173 (8), 2696-2703, 1991 | 173 | 1991 |
The 1.6-Å crystal structure of the class of chaperones represented by Escherichia coli Hsp31 reveals a putative catalytic triad PM Quigley, K Korotkov, F Baneyx, WGJ Hol Proceedings of the National Academy of Sciences 100 (6), 3137-3142, 2003 | 139 | 2003 |
Biochemical characterization of the small heat shock protein IbpB from Escherichia coli JR Shearstone, F Baneyx Journal of Biological Chemistry 274 (15), 9937-9945, 1999 | 136 | 1999 |
Hyperosmotic shock induces the σ32 and σE stress regulons of Escherichia coli AA Bianchi, F Baneyx Molecular microbiology 34 (5), 1029-1038, 1999 | 129 | 1999 |
Divergent effects of chaperone overexpression and ethanol supplementation on inclusion body formation in RecombinantEscherichia coli JG Thomas, F Baneyx Protein expression and purification 11 (3), 289-296, 1997 | 127 | 1997 |
Recombinant protein expression at low temperatures under the transcriptional control of the major Escherichia coli cold shock promoter cspA JA Vasina, F Baneyx Applied and environmental microbiology 62 (4), 1444-1447, 1996 | 109 | 1996 |