[[1] D. Bandyopadhyay, E. L. Mehler. Quantitative expression of protein heterogeneity: Response of amino acid side chains to their local environment. Proteins: Structure, Function, and Bioinformatics, 72, 2 (2008) 646–659. ⇒28]Search in Google Scholar
[[2] F. Coste, G. Garet, A. Groisillier, J. Nicolas, T. Tonon, Automated enzyme classification by formal concept analysis, In C. V. Glodeanu, M. Kaytoue, and C. Sacarea, editors, Formal Concept Analysis, 8478, pp. 235–250, Cham, 2014. Springer International Publishing. ⇒2310.1007/978-3-319-07248-7_17]Search in Google Scholar
[[3] F. Dau, B. Sertkaya, Formal concept analysis for qualitative data analysis over triple stores, In O. De Troyer, C. Bauzer Medeiros, R. Billen, P. Hallot, A. Simitsis, H. Van Mingroot, editors, Advances in Conceptual Modeling. Recent Developments and New Directions. ER 2011. Lecture Notes in Computer Science, 6999, pp. 45–54, Berlin, Heidelberg, 2011. Springer Berlin Heidelberg. ⇒22, 23, 2910.1007/978-3-642-24574-9_8]Search in Google Scholar
[[4] V. Dinu, E. Trutia, E. Popa-Cristea, A. Popescu, Medical Biochemistry – small treated (in Romanian). Ed. Medicală, București, 2006. ⇒28, 32]Search in Google Scholar
[[5] B. Ganter, R. Wille, Conceptual scaling. In F. Roberts, editor, Applications of Combinatorics and Graph Theory to the Biological and Social Sciences, pp. 139–167, Berlin–Heidelberg–New York, 1989. Springer. ⇒2710.1007/978-1-4684-6381-1_6]Search in Google Scholar
[[6] R. Godin, P. Valtchev, Formal concept analysis-based class hierarchy design in object-oriented software development, In B. Ganter, G. Stumme, and W. R., editors, Formal Concept Analysis. Lecture Notes in Computer Science, 3626, pp. 304–323. Springer Berlin Heidelberg, 2005. ⇒2310.1007/11528784_16]Search in Google Scholar
[[7] W. Hesse, T. Tilley, Formal concept analysis used for software analysis and modelling, 3626, In Formal Concept Analysis Used for Software Analysis and Modelling, pp. 288–303. Springer-Verlag, Berlin, Heidelberg, 2005. ⇒2310.1007/11528784_15]Search in Google Scholar
[[8] J. Janin, Surface and inside volumes in globular proteins, Nature, 277 (1979) 491–492. ⇒2810.1038/277491a0]Search in Google Scholar
[[9] J. Kyte, R. F. Doolittle, A simple method for displaying the hydropathic character of a protein, Journal of Molecular Biology, 157, 1 (1982) 105–132. ⇒2810.1016/0022-2836(82)90515-0]Search in Google Scholar
[[10] J. Macko, Formal concept analysis as a framework for business intelligence technologies II, In CUBIST Workshop, 2013. ⇒2310.1007/978-3-642-29892-9_20]Search in Google Scholar
[[11] A. Molnar, V. Varga, C. Săcărea, D. Cîmpan, B. Mocian, Conceptual graph driven modeling and querying methods for RDBMS and XML databases, In 2017 13th IEEE International Conference on Intelligent Computer Communication and Processing (ICCP), pp. 55–62, 09 2017. ⇒2310.1109/ICCP.2017.8116983]Search in Google Scholar
[[12] K. Raza. Formal concept analysis for knowledge discovery from biological data, International Journal of Data Mining and Bioinformatics, 18, 4 (2017) 281–300. ⇒22, 23, 3210.1504/IJDMB.2017.088138]Search in Google Scholar
[[13] G. D. Rose, A. Geselowitz, G. Lesser, R. Lee, M. Zehfus, Hydrophobicity of amino acid residues in globular proteins, Science, 229, 4716 (1985) 834–838. ⇒2810.1126/science.40237144023714]Search in Google Scholar
[[14] G. D. Rose. R. Wolfenden, Hydrogen bonding, hydrophobicity, packing, and protein folding. Annual Review of Biophysics and Biomolecular Structure, 22, 1 (1993) 381–415. PMID: 8347995. ⇒2810.1146/annurev.bb.22.060193.0021218347995]Search in Google Scholar
[[15] S. Rudolph, C. Săcărea, D. Troancă, Membership constraints in formal concept analysis, In Proc. 24th Int. Conf. on Artificial Intelligence, IJCAI’15, pp. 3186–3192. AAAI Press, 2015. ⇒23]Search in Google Scholar
[[16] R. Wille, Restructuring lattice theory: An approach based on hierarchies of concepts, In I. Rival (ed.), Ordered Sets, pp. 445–470, Dordrecht, 1982. Springer Netherlands. ⇒2510.1007/978-94-009-7798-3_15]Search in Google Scholar
[[17] R. Wille, Conceptual knowledge processing in the field of economics, In W. R. Ganter B., Stumme G. (eds.), Formal Concept Analysis. Lecture Notes in Computer Science, 3626, pp. 226–249. Springer Berlin Heidelberg, 2005. ⇒2310.1007/11528784_12]Search in Google Scholar
[[18] R. Wolfenden, L. Andersson, P. Cullis, C. Southgate, A nities of amino acid side chains for solvent wate, Biochemistry, 20 (1981) 849–855. ⇒28]Search in Google Scholar
[[19] * * * Rosalind project, http://rosalind.info/glossary/amino-acid/, 2019. ⇒32]Search in Google Scholar
[[20] * * * Wikipedia: Hydrophobicity scales, https://en.wikipedia.org/wiki/hydrophobicity_scales, 2019. ⇒28]Search in Google Scholar