1.23918 0.738495 0.231034 1.68382 0.114192 5.88546 0.294266 1.08592 0.0822572 0.0917991 1.72505 0.686078 0.892084 0.692807 0.0991316 0.502282 1.54084 0.773799 0.453778 1.18358 0.362881 0.409044 0.387361 0.0789184 0.191292 1.53326 0.0475212 0.164527 0.902081 0.0919732 0.287645 1.16825 0.12187 0.345608 0.771445 0.301121 0.515897 0.801476 0.09553 0.236226 3.09071 0.096017 0.581418 4.7796 0.276884 0.691114 0.438331 0.0818928 0.241995 1.50692 0.139738 0.499894 3.6793 0.550383 5.26274 0.707123 0.787792 3.83352 0.859842 0.285599 1.25901 3.60097 0.396603 2.09106 0.221439 0.371525 1.64085 0.184741 0.245718 0.33822 0.145323 0.28287 0.694766 0.137049 0.332785 0.757469 0.130816 0.196068 1.18154 0.172552 0.602192 2.67402 0.171405 0.327161 3.8578 0.186436 2.05146 0.913765 0.852996 1.40137 1.32309 0.455408 1.08002 0.15397 0.322281 0.150399 0.514207 2.18335 0.224159 4.6698 0.46493 0.507155 0.568194 0.295459 1.79087 3.24629 2.26254 0.970155 0.615703 0.657714 1.43487 0.794742 0.218761 0.778748 0.525108 0.313675 3.58574 1.65345 0.727151 0.612391 3.50104 0.957629 0.47859 0.579867 0.23268 0.319164 0.672178 1.54555 1.16994 0.388142 1.60161 2.12101 0.868885 0.882591 0.505177 4.16103 2.87049 1.00666 0.20783 0.543233 0.905015 0.2553 0.165712 10.9504 0.35197 2.23911 2.59782 0.270121 0.346777 0.399031 0.223556 0.392118 1.82015 0.114172 0.776562 0.0526263 0.0831018 2.38349 0.301617 1.17842 0.172943 0.0970311 0.991061 0.648725 0.102951 0.10199 0.34479 0.696769 0.27913 0.250636 0.17915 0.242797 2.39788 0.319838 0.161832 10.1077 0.12635 4.28582 0.380808 0.165689 0.466436 0.558292 0.616721 0.149083 0.393916 0.39006 0.544245 0.280529 0.368918 1.86218 0.0828953 0.00893229 0.0536049 0.0794287 0.0247466 0.0772864 0.0217862 0.0413678 0.0848567 0.0630974 0.0197123 0.0405072 0.0714715 0.0498945 0.0530623 0.0810773 0.0558998 0.0585352 0.00708994 0.0247477 A R N D C Q E G H I L K M F P S T W Y V Ala Arg Asn Asp Cys Gln Glu Gly His Ile Leu Lys Met Phe Pro Ser Thr Trp Tyr Val # The first part of this file describes the lower triangular part of the # symmetrical amino acid exchangeability matrix (s_ij = s_ji) for intrinsically disordered # residues. The second part contains the amino acid equilibrium frequencies p_i. # The corresponding substitution rate matrix can be obtained as Q_ij = # s_ij*pi_j, which yields the substitution probability matrix for a given # distance t by exponentiation: M = e^(Q*t)