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The temperature dependence of amino acid hydrophobicity data is related to the genetic coding algorithm for complementary (sense and antisense) peptide interactions

Štambuk, Nikola; Konjevoda, Paško (2020) The temperature dependence of amino acid hydrophobicity data is related to the genetic coding algorithm for complementary (sense and antisense) peptide interactions. Data in brief, 30 . ISSN 2352-3409

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Abstract

We present the data concerning the clustering of sense and antisense amino acid pairs into polar, nonpolar and neutral groups, as measured using hydrophobicity parameter—logarithmic equilibrium constants (Log10 Kw>c)—at 25 °C and 100 °C (Wolfenden et al., 2015). The Log10 Kw>c, values, of the complementary amino acid pairs are strongly correlated to the central (2nd) purine base of the mRNA codon and the complementary pyrimidine base of the tRNA anticodon. Clustering of amino acids is temperature independent with regard to the direction of translation (3′ → 5′ or 5′ → 3′). The Log10 Kw>c discriminate between artificial Hecht α- and β-protein datasets at 25 °C and 100 °C. Interpretation of this data may be found in the research article entitled “Determining amino acid scores of the genetic code table: complementarity, structure, function and evolution” (Štambuk and Konjevoda, 2020).

Item Type: Article
Uncontrolled Keywords: Genetic code ; Amino acid ; Hydrophobicity ; Temperature ; Peptide interaction
Subjects: NATURAL SCIENCES > Biology
Divisions: Division of Molecular Medicine
NMR Center
Depositing User: Nikola Štambuk
Date Deposited: 06 Aug 2021 10:34
URI: http://fulir.irb.hr/id/eprint/6521
DOI: 10.1016/j.dib.2020.105392

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