[1] C. B. Anfinsen, Science 1973, 181, 223.
[2] N. Kannan, S. Vishveshwara, Journal of molecular biology 1999, 292, 441.
[3] P. Koldewey, F. Stull, S. Horowitz, R. Martin, J. C. Bardwell, Cell 2016, 166, 369; H. Saibil, Nature reviews Molecular cell biology 2013, 14, 630.
[4] F. U. Hartl, M. Hayer-Hartl, Nature structural & molecular biology 2009, 16, 574.
[5] K. Jhamb, A. Jawed, D. K. Sahoo, Process Biochemistry 2008, 43, 587.
[6] H. Mizutani, H. Sugawara, A. M. Buckle, T. Sangawa, K.-i. Miyazono, J. Ohtsuka, K. Nagata, T. Shojima, S. Nosaki, Y. Xu, BMC structural biology 2018, 17, 1.
[7] S. Deshpande, N. D. Masurkar, V. M. Girish, M. Desai, G. Chakraborty, J. M. Chan, C. L. Drum, Nature communications 2017, 8, 1.
[8] E. Johnson, D. Cascio, M. R. Sawaya, M. Gingery, I. Schröder, Structure 2005, 13, 637.
[9] M. W. Pennington, A. Czerwinski, R. S. Norton, Bioorganic & medicinal chemistry 2018, 26, 2738.
[10] A.-H. Jin, M. Muttenthaler, S. Dutertre, S. Himaya, Q. Kaas, D. J. Craik, R. J. Lewis, P. F. Alewood, Chemical reviews 2019, 119, 11510.
[11] G. Bulaj, B. M. Olivera, Antioxidants & redox signaling 2008, 10, 141.
[12] W. Chen, L. Carvalho, M. Chan, R. Kini, T. Kang, Journal of Thrombosis and Haemostasis 2015, 13, 248.
[13] X. Liu, H. Pan, G. Yang, X. Wu, Y. Zhou, Biochimica et Biophysica Acta (BBA)-Protein Structure and Molecular Enzymology 1999, 1431, 157.
[14] G. S. Waldo, B. M. Standish, J. Berendzen, T. C. Terwilliger, Nature biotechnology 1999, 17, 691; H. Fukuda, M. Arai, K. Kuwajima, Biochemistry 2000, 39, 12025.
[15] N. C. Veitch, Phytochemistry 2004, 65, 249.
[16] S. Asad, B. Dabirmanesh, N. Ghaemi, S. M. Etezad, K. Khajeh, Molecular biotechnology 2013, 54, 484.
[17] N. Thorne, J. Inglese, D. S. Auld, Chemistry & biology 2010, 17, 646.
[18] M. S. Svetlov, A. Kommer, V. A. Kolb, A. S. Spirin, Protein science 2006, 15, 242.
[19] A. Sharma, T. K. Chaudhuri, Microbial cell factories 2017, 16, 1.
[20] S. J. BURTON, A. V. QUIRK, P. C. WOOD, European journal of biochemistry 1989, 179, 379.
[21] E. D. Levy, S. A. Teichmann, Progress in molecular biology and translational science 2013, 117, 25.
[22] B. J. Pieters, M. B. Van Eldijk, R. J. Nolte, J. Mecinović, Chemical Society Reviews 2016, 45, 24.
[23] J. E. Coleman, Annual review of biophysics and biomolecular structure 1992, 21, 441.
[24] N. K. Roy, R. K. Ghosh, J. Das, Journal of bacteriology 1982, 150, 1033.
[25] M. de Backer, S. McSweeney, H. B. Rasmussen, B. W. Riise, P. Lindley, E. Hough, Journal of molecular biology 2002, 318, 1265.
[26] H.-C. Hung, G.-G. Chang, Biophysical Journal 2001, 81, 3456.
[27] Y. Akiyama, K. Ito, Journal of Biological Chemistry 1993, 268, 8146; Y.-X. Zhang, Y. Zhu, H.-W. Xi, Y.-L. Liu, H.-M. Zhou, The international journal of biochemistry & cell biology 2002, 34, 1241.
[28] J. B. Hauksson, Ó. S. Andrésson, B. Ásgeirsson, Enzyme and microbial technology 2000, 27, 66.
[29] R. R. Boulanger Jr, E. R. Kantrowitz, Journal of Biological Chemistry 2003, 278, 23497.
[30] R. L. Olsen, K. Øverbø, B. Myrnes, Comparative Biochemistry and Physiology Part B: Comparative Biochemistry 1991, 99, 755.
[31] G. Roussel, A. Matagne, X. De Bolle, E. Perpète, C. Michaux, Protein expression and purification 2012, 83, 198.
[32] H. Mobasheri, T. Ficht, H. Marquis, E. Lea, J. Lakey, FEMS microbiology letters 1997, 155, 23.
[33] M. Bannwarth, G. E. Schulz, Biochimica et Biophysica Acta (BBA)-Biomembranes 2003, 1610, 37; G. Roussel, E. A. Perpète, A. Matagne, E. Tinti, C. Michaux, Biotechnology and bioengineering 2013, 110, 417.
[34] E. R. Kastenhuber, S. W. Lowe, Cell 2017, 170, 1062.
[35] W. M. Chan, W. Y. Siu, A. Lau, R. Y. Poon, Molecular and cellular biology 2004, 24, 3536.
[36] A. M. Bode, Z. Dong, Nature Reviews Cancer 2004, 4, 793.
[37] M. LaFevre-Bernt, S. Wu, X. Lin, Molecular cancer therapeutics 2008, 7, 1420.
[38] W. S. El-Deiry, S. E. Kern, J. A. Pietenpol, K. W. Kinzler, B. Vogelstein, Nature genetics 1992, 1, 45.
[39] F. Takagi, N. Koga, S. Takada, Proceedings of the National Academy of Sciences 2003, 100, 11367; A. Brinker, G. Pfeifer, M. J. Kerner, D. J. Naylor, F. U. Hartl, M. Hayer-Hartl, Cell 2001, 107, 223.
[40] Z. Xu, A. L. Horwich, P. B. Sigler, Nature 1997, 388, 741.
[41] D. K. Clare, D. Vasishtan, S. Stagg, J. Quispe, G. W. Farr, M. Topf, A. L. Horwich, H. R. Saibil, Cell 2012, 149, 113.
[42] J. S. Weissman, H. S. Rye, W. A. Fenton, J. M. Beechem, A. L. Horwich, Cell 1996, 84, 481; M. Mayhew, A. C. da Silva, J. Martin, H. Erdjument-Bromage, P. Tempst, F. U. Hartl, Nature 1996, 379, 420.
[43] R. J. Ellis, Current Biology 2003, 13, R881; R. J. Ellis, Nature 2006, 442, 360.