PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31909595-7	2020	Data presented here shows that both 1-Cl and 1-Ph form noncovalent adducts with albumin, but only 1-Cl can form a covalent one.	Chlorine	36-40	albumin	Homo sapiens	80-87	
5040850-0	1972	A chlorine-35 nuclear magnetic resonance study of dodecyl sulfate binding to bovine serum albumin.	Chlorine	2-10	albumin	Homo sapiens	84-97	
31909595-11	2020	Uptake of 1-Cl in media containing fluorescein-labeled albumin gave a high degree of colocalization of intracellular fluorescence.	Chlorine	10-14	albumin	Homo sapiens	55-62	
31909595-13	2020	In an in vivo tumor model, only the two dyes that can form albumin adducts (1-Cl and 5-Cl) gave intratumor fluorescence that persisted long enough to be clearly discerned over the background (~4 h); this fluorescence was still observed at 48 h. Tumors could be imaged with a higher contrast if 5-Cl is used instead of 1-Cl, because 5-Cl is cleared more rapidly from healthy tissues.	Chlorine	76-80	albumin	Homo sapiens	59-66	
31909595-13	2020	In an in vivo tumor model, only the two dyes that can form albumin adducts (1-Cl and 5-Cl) gave intratumor fluorescence that persisted long enough to be clearly discerned over the background (~4 h); this fluorescence was still observed at 48 h. Tumors could be imaged with a higher contrast if 5-Cl is used instead of 1-Cl, because 5-Cl is cleared more rapidly from healthy tissues.	Chlorine	85-89	albumin	Homo sapiens	59-66	
31909595-13	2020	In an in vivo tumor model, only the two dyes that can form albumin adducts (1-Cl and 5-Cl) gave intratumor fluorescence that persisted long enough to be clearly discerned over the background (~4 h); this fluorescence was still observed at 48 h. Tumors could be imaged with a higher contrast if 5-Cl is used instead of 1-Cl, because 5-Cl is cleared more rapidly from healthy tissues.	Chlorine	294-298	albumin	Homo sapiens	59-66	
31909595-13	2020	In an in vivo tumor model, only the two dyes that can form albumin adducts (1-Cl and 5-Cl) gave intratumor fluorescence that persisted long enough to be clearly discerned over the background (~4 h); this fluorescence was still observed at 48 h. Tumors could be imaged with a higher contrast if 5-Cl is used instead of 1-Cl, because 5-Cl is cleared more rapidly from healthy tissues.	Chlorine	318-322	albumin	Homo sapiens	59-66	
31909595-13	2020	In an in vivo tumor model, only the two dyes that can form albumin adducts (1-Cl and 5-Cl) gave intratumor fluorescence that persisted long enough to be clearly discerned over the background (~4 h); this fluorescence was still observed at 48 h. Tumors could be imaged with a higher contrast if 5-Cl is used instead of 1-Cl, because 5-Cl is cleared more rapidly from healthy tissues.	Chlorine	294-298	albumin	Homo sapiens	59-66	
31909595-14	2020	Overall, the evidence is consistent with in vitro and in vivo results and indicates that the two dyes in the test series that accumulate in tumors and persist there (1-Cl and 5-Cl, true tumor-seeking dyes) do so as covalent albumin adducts trapped in tumor tissue via uptake by some cancer cells and via the enhanced permeability and retention (EPR) effect.	Chlorine	166-170	albumin	Homo sapiens	224-231	
31909595-14	2020	Overall, the evidence is consistent with in vitro and in vivo results and indicates that the two dyes in the test series that accumulate in tumors and persist there (1-Cl and 5-Cl, true tumor-seeking dyes) do so as covalent albumin adducts trapped in tumor tissue via uptake by some cancer cells and via the enhanced permeability and retention (EPR) effect.	Chlorine	175-179	albumin	Homo sapiens	224-231	
31401348-6	2019	The same trend was observed for the bovine serum albumin binding constant with higher values for iodine, chlorine, and bromine in this order.	Chlorine	105-113	albumin	Homo sapiens	43-56