PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
18528556-1	2008	The photochemical properties of alpha-cleavage of C-O bond in highly excited triplet states (T(n) with n>2) of p-biphenyl acetate and p-biphenyl benzoate (Me-OBP and Ph-OBP) in solution were investigated in comparison with those in the lowest excited singlet and triplet states by using single laser and sequential two-color two-laser photolysis techniques.	p-biphenyl benzoate	137-156	odorant binding protein 2A	Homo sapiens	172-175	
18528556-2	2008	Upon 266 nm laser photolysis of Me-OBP and Ph-OBP, occurrence of C-O bond cleavage in the excited singlet state was recognized from the observation of the formation of p-phenylphenoxy radical (PPR) in the transient absorption.	p-phenylphenoxy radical	168-191	odorant binding protein 2A	Homo sapiens	35-38	
18528556-2	2008	Upon 266 nm laser photolysis of Me-OBP and Ph-OBP, occurrence of C-O bond cleavage in the excited singlet state was recognized from the observation of the formation of p-phenylphenoxy radical (PPR) in the transient absorption.	p-phenylphenoxy radical	168-191	odorant binding protein 2A	Homo sapiens	46-49	
18528556-2	2008	Upon 266 nm laser photolysis of Me-OBP and Ph-OBP, occurrence of C-O bond cleavage in the excited singlet state was recognized from the observation of the formation of p-phenylphenoxy radical (PPR) in the transient absorption.	p-phenylphenoxy radical	168-191	PPR1	Homo sapiens	193-196	
18528556-4	2008	Triplet sensitization using acetone (Ac) provided efficient formation of the lowest triplet states (T(1)) of Me-OBP and Ph-OBP, and the molar absorption coefficients of the triplet-triplet absorption were determined.	Acetone	28-35	odorant binding protein 2A	Homo sapiens	112-115	
18528556-4	2008	Triplet sensitization using acetone (Ac) provided efficient formation of the lowest triplet states (T(1)) of Me-OBP and Ph-OBP, and the molar absorption coefficients of the triplet-triplet absorption were determined.	Acetone	28-35	odorant binding protein 2A	Homo sapiens	123-126