PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
18427121-8	2008	The qualitatively different hydration of the beta-lactoglobulin pore and carbon nanotubes is caused by subtle differences in water-wall interactions and water entropy.	Carbon	73-79	beta-lactoglobulin	Bos taurus	45-63	
30445706-0	2018	Electrochemical Determination of beta-Lactoglobulin Employing a Polystyrene Bead-Modified Carbon Nanotube Ink.	Carbon	90-96	beta-lactoglobulin	Bos taurus	33-51	
34960338-2	2021	A sensitive electrochemical sensor based on a molecularly imprinted polymer-modified carbon electrode for the detection of beta-lactoglobulin was successfully synthesized.	Carbon	85-91	beta-lactoglobulin	Bos taurus	123-141	
30445706-1	2018	In this article, we introduce the use of a carboxy-functionalized waterborne carbon nanotube ink for the fabrication of an amperometric biosensor aimed at the quantification of beta-lactoglobulin.	Carbon	77-83	beta-lactoglobulin	Bos taurus	177-195	
30445706-6	2018	These antibody-immobilized carbon nanotube electrodes allowed for the detection of beta-lactoglobulin in sub-ppm concentrations.	Carbon	27-33	beta-lactoglobulin	Bos taurus	83-101	
26272099-7	2015	In this work, we used hybrid steered molecular dynamics to accurately compute the binding free energies between BLG and the five saturated FAs of 8 to 16 carbon atoms.	Carbon	154-160	beta-lactoglobulin	Bos taurus	112-115