PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
26657017-1	2015	In this paper, we consider the glass transition as a kinetic process and establish one universal equation for the pressure coefficient of the glass transition temperature, dTg/dp, which is a thermodynamic characteristic of this process.	dp	176-178	Dpp target gene	Drosophila melanogaster	172-175	
23214586-1	2012	We report that the pressure coefficient of the glass transition temperature, dT(g)/dp, which is commonly used to determine the pressure sensitivity of the glass transition temperature T(g), can be predicted in the thermodynamic scaling regime.	dp	83-85	Dpp target gene	Drosophila melanogaster	78-82	
23214586-2	2012	We show that the equation derived from the isochronal condition combined with the well-known scaling, TV(gamma) = const, predicts successfully values of dT(g)/dp for a variety of glass-forming systems, including van der Waals liquids, polymers, and ionic liquids.	dp	159-161	Dpp target gene	Drosophila melanogaster	153-158	
11580351-6	2001	Pressure was found to increase the glass temperature in the nematic and smectic phases and the dT(g)/dP was 18.7 and 16.9 K/kbar, respectively.	dp	101-103	Dpp target gene	Drosophila melanogaster	95-100	
26178113-3	2015	This equation combined with our previous formula for dTg/dp, derived solely from the density scaling criterion, implies a relationship among thermodynamic coefficients at Tg.	dp	57-59	Dpp target gene	Drosophila melanogaster	53-56	
26178113-3	2015	This equation combined with our previous formula for dTg/dp, derived solely from the density scaling criterion, implies a relationship among thermodynamic coefficients at Tg.	dp	57-59	Dpp target gene	Drosophila melanogaster	54-56	
23214586-1	2012	We report that the pressure coefficient of the glass transition temperature, dT(g)/dp, which is commonly used to determine the pressure sensitivity of the glass transition temperature T(g), can be predicted in the thermodynamic scaling regime.	dp	83-85	Dpp target gene	Drosophila melanogaster	77-82	
32189785-7	1974	Accordingly, the values of dT g /dP are in close agreement with those obtained from dynamic mechanical and dielectric time-temperature-pressure superposition.	dp	33-35	Dpp target gene	Drosophila melanogaster	27-31