id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-034823-ogwjzfgf	Guo, Hao-Bo	A Suggestion of Converting Protein Intrinsic Disorder to Structural Entropy Using Shannon’s Information Theory	2019-06-14		.txt	text/plain	7021	377	55	We propose a framework to convert the protein intrinsic disorder content to structural entropy (H) using Shannon's information theory (IT). Hence, it is useful to know the relationships between the intrinsic structural entropies and the information that can be derived (Equation (3)) from the residual disorder contents, which, in turn, can be predicted based on the protein amino acid sequences. In the CR-space, Ci sets the upper limit and Ri gives the intrinsic ratio between the two quantities of the total Hi and Ii of the i-th protein Pi. Based on the Gaussian distribution in both log2C and log2R, the protein distributions in the CR-space are represented in Figure 2 , for proteins expressed in representative prokaryotes (bacteria and archaea, Figure 2A ), eukaryotes ( Figure 2B ), viruses ( Figure 2C ), and datasets collected from the DisProt database [25] and protein data bank (PDB) [26] ( Figure 2D ).	./cache/cord-034823-ogwjzfgf.txt	./txt/cord-034823-ogwjzfgf.txt