PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33755454-8	2021	Then, we investigated the reactivities of the (mu-eta2:eta2-NO2)dicopper complex toward methane and benzene by considering the conversions of N2O to N2 in the presence and the absence of methane or benzene.	Methane	88-95	DNA polymerase iota	Homo sapiens	50-54	
33961741-13	2021	In Ti+(CH4)4 and V+(CH4)4 all of the methanes have eta2 coordination.	Methane	37-45	DNA polymerase iota	Homo sapiens	51-55	
34008884-5	2021	In contrast, binding governed by orbital interactions results in a eta2 type coordination of methane.	Methane	93-100	DNA polymerase iota	Homo sapiens	67-71	
33755454-8	2021	Then, we investigated the reactivities of the (mu-eta2:eta2-NO2)dicopper complex toward methane and benzene by considering the conversions of N2O to N2 in the presence and the absence of methane or benzene.	Methane	88-95	DNA polymerase iota	Homo sapiens	55-59	
33755454-8	2021	Then, we investigated the reactivities of the (mu-eta2:eta2-NO2)dicopper complex toward methane and benzene by considering the conversions of N2O to N2 in the presence and the absence of methane or benzene.	Methane	187-194	DNA polymerase iota	Homo sapiens	50-54	
33755454-8	2021	Then, we investigated the reactivities of the (mu-eta2:eta2-NO2)dicopper complex toward methane and benzene by considering the conversions of N2O to N2 in the presence and the absence of methane or benzene.	Methane	187-194	DNA polymerase iota	Homo sapiens	55-59	
33755454-10	2021	Thus, the (mu-eta2:eta2-NO2)dicopper complex prefers the reactions with methane and benzene to that with N2O.	Methane	72-79	DNA polymerase iota	Homo sapiens	14-18	
33755454-10	2021	Thus, the (mu-eta2:eta2-NO2)dicopper complex prefers the reactions with methane and benzene to that with N2O.	Methane	72-79	DNA polymerase iota	Homo sapiens	19-23	
33755454-11	2021	The reaction of the (mu-eta2:eta2-NO2)dicopper complex with methane or benzene generated the (mu-nitrosyl)dicopper complex.	Methane	60-67	DNA polymerase iota	Homo sapiens	24-28	
33755454-11	2021	The reaction of the (mu-eta2:eta2-NO2)dicopper complex with methane or benzene generated the (mu-nitrosyl)dicopper complex.	Methane	60-67	DNA polymerase iota	Homo sapiens	29-33	
30240204-3	2018	FJU-35 with coordinated solvent and formate in asymmetric mu3-eta1:eta2 coordination mode within the CdII-O-CdII chains is vulnerable to external attacks and is apt to collapse after activation, while FJU-36 with no coordinated solvent in the CdII-O-CdII chains but fully protected by the carboxylates from the ligands and the symmetric formate in the coordination mode mu3-eta2:eta2 is stable, and its activated sample shows efficient separation of C2H2/CH4 and C2H2/CO2 mixtures.	Methane	455-458	DNA polymerase iota	Homo sapiens	67-71	
17165710-1	2006	The intermolecular C-H bond activation of benzene occurs under very mild conditions (room temperature) via a rare stereospecific 1,3-H addition on an unsaturated eta2-cyclopropene intermediate generated by a beta-H abstraction of CH4 from TpMe2NbMe(c-C3H5)(MeCCMe) to give TpMe2NbPh(c-C3H5)(MeCCMe).	Methane	230-233	DNA polymerase iota	Homo sapiens	162-166