Add to ORKGA purely information theory-guided approach to quantitatively characterize protease specificity is established. We calculate an entropy value for each protease subpocket based on sequences of cleaved substrates extracted from the MEROPS database. We compare our results with known subpocket specificity profiles for individual proteases and protease groups (e.g. serine proteases, metallo proteases) and reflect them quantitatively. Summation of subpocket-wise cleavage entropy contributions yields a measure for overall protease substrate specificity. This total cleavage entropy allows ranking of different proteases with respect to their specificity, separating unspecific digestive enzymes showing high total cleavage entropy from specific protea...
<p>Cysteine proteases and associated MEROPS clans sorted according to the number of known substrates...
<div><p>Sequence logos are frequently used to illustrate substrate preferences and specificity of pr...
Sequence logos are frequently used to illustrate substrate preferences and specificity of proteases....
<div><p>A purely information theory-guided approach to quantitatively characterize protease specific...
<div><p>Calculation of cleavage entropies allows to quantify, map and compare protease substrate spe...
<p>Ranking of 49 proteases with respective MEROPS clan (including the added 2 glutamic proteases) in...
<p>Serine proteases and associated MEROPS clans sorted according to the number of known substrates n...
<p>Further proteases in the test set and associated MEROPS clans not belonging to the catalytic type...
Proteases are among the largest protein families and critical regulators of biochemical processes li...
Proteases are among the largest protein families and critical regulators of biochemical processes li...
<p>Splitting of protease catalytic types into homologous protease clans allows to separate specific ...
Abstract Background The mechanism of action of proteases has been widely studied based on substrate ...
AbstractOne peptidase can usually be distinguished from another biochemically by its action on prote...
<p>Subpocket-wise cleavage entropies S<sub>i</sub> of metallo proteases and associated MEROPS clans ...
<p>Scattering of specific and unspecific behavior over respective evolutionary distances is apparent...
<p>Cysteine proteases and associated MEROPS clans sorted according to the number of known substrates...
<div><p>Sequence logos are frequently used to illustrate substrate preferences and specificity of pr...
Sequence logos are frequently used to illustrate substrate preferences and specificity of proteases....
<div><p>A purely information theory-guided approach to quantitatively characterize protease specific...
<div><p>Calculation of cleavage entropies allows to quantify, map and compare protease substrate spe...
<p>Ranking of 49 proteases with respective MEROPS clan (including the added 2 glutamic proteases) in...
<p>Serine proteases and associated MEROPS clans sorted according to the number of known substrates n...
<p>Further proteases in the test set and associated MEROPS clans not belonging to the catalytic type...
Proteases are among the largest protein families and critical regulators of biochemical processes li...
Proteases are among the largest protein families and critical regulators of biochemical processes li...
<p>Splitting of protease catalytic types into homologous protease clans allows to separate specific ...
Abstract Background The mechanism of action of proteases has been widely studied based on substrate ...
AbstractOne peptidase can usually be distinguished from another biochemically by its action on prote...
<p>Subpocket-wise cleavage entropies S<sub>i</sub> of metallo proteases and associated MEROPS clans ...
<p>Scattering of specific and unspecific behavior over respective evolutionary distances is apparent...
<p>Cysteine proteases and associated MEROPS clans sorted according to the number of known substrates...
<div><p>Sequence logos are frequently used to illustrate substrate preferences and specificity of pr...
Sequence logos are frequently used to illustrate substrate preferences and specificity of proteases....