PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32320878-9	2020	Furthermore, the CS/MS ratios of 4-OH-BP, BP-1, BP-3, and benzophenone-8 (BP-8) increased with decreasing molecular weight or log Kow.	Cesium	17-19	BP1	Homo sapiens	42-46	
30616040-4	2019	Results show that the CS-DOM promotes the photodegradation of BP-1 mainly via the pathway involving 3DOM*; while 3DOM*, 1O2 and  OH are responsible for BP-1 photodegradation in the presence of the FW-DOM.	Cesium	22-24	BP1	Homo sapiens	62-66	
30616040-7	2019	BP-1 photodegradation in the presence of the CS-DOM is faster than in the presence of the FW-DOM, due to higher second-order reaction rate constants between BP-1 and CS-3DOM* and fewer antioxidants contained in the CS-DOM.	Cesium	45-47	BP1	Homo sapiens	0-4	
30616040-7	2019	BP-1 photodegradation in the presence of the CS-DOM is faster than in the presence of the FW-DOM, due to higher second-order reaction rate constants between BP-1 and CS-3DOM* and fewer antioxidants contained in the CS-DOM.	Cesium	45-47	BP1	Homo sapiens	157-161	
30616040-7	2019	BP-1 photodegradation in the presence of the CS-DOM is faster than in the presence of the FW-DOM, due to higher second-order reaction rate constants between BP-1 and CS-3DOM* and fewer antioxidants contained in the CS-DOM.	Cesium	166-168	BP1	Homo sapiens	0-4	
30616040-7	2019	BP-1 photodegradation in the presence of the CS-DOM is faster than in the presence of the FW-DOM, due to higher second-order reaction rate constants between BP-1 and CS-3DOM* and fewer antioxidants contained in the CS-DOM.	Cesium	166-168	BP1	Homo sapiens	0-4