PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25384112-0	2014	Highly efficient activation of organosilanes with eta2-aldehyde nickel complexes: key for catalytic syntheses of aryl-, vinyl-, and alkynyl-benzoxasiloles.	Nickel	64-70	DNA polymerase iota	Homo sapiens	50-54	
21449600-0	2011	Theoretical insights into the nature of nickel-carbon dioxide interactions in Ni(PH3)2(eta2-CO2).	Nickel	40-46	DNA polymerase iota	Homo sapiens	87-91	
33107502-1	2020	[LSi(eta2-P4)] (L = CH[C(Me)N(Dipp)][C(CH2)N(Dipp)], Dipp = 2,6-diisopropylphenyl) forms well-defined 1 : 1 and 2 : 1 complexes with N-heterocyclic carbene nickel fragments.	Nickel	156-162	DNA polymerase iota	Homo sapiens	5-9	
18729364-0	2008	Eta2-organoazide complexes of nickel and their conversion to terminal imido complexes via dinitrogen extrusion.	Nickel	30-36	DNA polymerase iota	Homo sapiens	0-4	
18594727-0	2008	Polycarbide nickel clusters containing interstitial Ni(eta2-C2)4 and Ni2(micro-eta2-C2)4 acetylide moieties: mimicking the supersaturated Ni-C solutions preceding the catalytic growth of CNTs with the structures of [HNi25(C2)4(CO)32]3- and [Ni22(C2)4(CO)28Cl]3-.	Nickel	12-18	DNA polymerase iota	Homo sapiens	55-59	
18594727-0	2008	Polycarbide nickel clusters containing interstitial Ni(eta2-C2)4 and Ni2(micro-eta2-C2)4 acetylide moieties: mimicking the supersaturated Ni-C solutions preceding the catalytic growth of CNTs with the structures of [HNi25(C2)4(CO)32]3- and [Ni22(C2)4(CO)28Cl]3-.	Nickel	12-18	DNA polymerase iota	Homo sapiens	79-83	
16159269-0	2005	AlMe3-promoted oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0).	Nickel	71-77	DNA polymerase iota	Homo sapiens	40-44	
16159269-0	2005	AlMe3-promoted oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0).	Nickel	71-77	DNA polymerase iota	Homo sapiens	56-60	
16159269-2	2005	AlMe3 can promote the oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0) to give an intriguing nickel-aluminum dinuclear complex having a bridging methyl group, which might be an intermediate for the nickel-catalyzed cycloisomerization of o-allylacetophenone or o-allylbenzophenone.	Nickel	78-84	DNA polymerase iota	Homo sapiens	47-51	
16159269-2	2005	AlMe3 can promote the oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0) to give an intriguing nickel-aluminum dinuclear complex having a bridging methyl group, which might be an intermediate for the nickel-catalyzed cycloisomerization of o-allylacetophenone or o-allylbenzophenone.	Nickel	78-84	DNA polymerase iota	Homo sapiens	63-67	
16159269-2	2005	AlMe3 can promote the oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0) to give an intriguing nickel-aluminum dinuclear complex having a bridging methyl group, which might be an intermediate for the nickel-catalyzed cycloisomerization of o-allylacetophenone or o-allylbenzophenone.	Nickel	110-116	DNA polymerase iota	Homo sapiens	47-51	
16159269-2	2005	AlMe3 can promote the oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0) to give an intriguing nickel-aluminum dinuclear complex having a bridging methyl group, which might be an intermediate for the nickel-catalyzed cycloisomerization of o-allylacetophenone or o-allylbenzophenone.	Nickel	110-116	DNA polymerase iota	Homo sapiens	63-67	
16159269-2	2005	AlMe3 can promote the oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0) to give an intriguing nickel-aluminum dinuclear complex having a bridging methyl group, which might be an intermediate for the nickel-catalyzed cycloisomerization of o-allylacetophenone or o-allylbenzophenone.	Nickel	110-116	DNA polymerase iota	Homo sapiens	47-51	
16159269-2	2005	AlMe3 can promote the oxidative cyclization of eta2-alkene and eta2-ketone on nickel(0) to give an intriguing nickel-aluminum dinuclear complex having a bridging methyl group, which might be an intermediate for the nickel-catalyzed cycloisomerization of o-allylacetophenone or o-allylbenzophenone.	Nickel	110-116	DNA polymerase iota	Homo sapiens	63-67	
15225021-1	2004	The reaction of (2-SiH3C6H4)2SiH2 with Ni(Et2PCH2CH2PEt2)(PEt3)2 afforded a new silylnickel complex, which, in the solid state, was determined to be a bis(silyl)eta2-(Si-H)nickel complex, the first example of eta2-(Si-H)nickel complex by single-crystal X-ray analysis.	Nickel	85-91	DNA polymerase iota	Homo sapiens	161-165	
15225021-1	2004	The reaction of (2-SiH3C6H4)2SiH2 with Ni(Et2PCH2CH2PEt2)(PEt3)2 afforded a new silylnickel complex, which, in the solid state, was determined to be a bis(silyl)eta2-(Si-H)nickel complex, the first example of eta2-(Si-H)nickel complex by single-crystal X-ray analysis.	Nickel	85-91	DNA polymerase iota	Homo sapiens	209-213	
15099111-1	2004	Density functional theory indicates that oxidative addition of the C-F and C-H bonds in C6F6 and C6H6 at zerovalent nickel and platinum fragments, M(H2PCH2CH2PH2), proceeds via initial exothermic formation of an eta2-coordinated arene complex.	Nickel	116-122	DNA polymerase iota	Homo sapiens	212-216	
33111387-1	2021	A nickel complex incorporating an N2O ligand with a rare eta2-N,N"-coordination mode was isolated and characterized by X-ray crystallography, as well as by IR and solid-state NMR augmented by 15N-labeling experiments.	Nickel	2-8	DNA polymerase iota	Homo sapiens	57-61	
33111387-3	2021	Computational studies revealed that eta2-N2O binds to nickel slightly stronger than eta2-CO2 in this case, and comparably to or slightly stronger than eta2-CO2 to transition metals in general.	Nickel	54-60	DNA polymerase iota	Homo sapiens	36-40	
21826370-4	2011	The crystal structure of 1 has been solved to show the coordination of nickel to the C-C bond of C(70) at the 6-6 ring junction of eta(2)-type to form Ni-C(C(70)) bonds of 1.929-1.941(2) A length, the shortest M-C bonds among those known for eta(2)-complexes of fullerenes C(60) and C(70).	Nickel	71-77	DNA polymerase iota	Homo sapiens	131-136	
21826370-4	2011	The crystal structure of 1 has been solved to show the coordination of nickel to the C-C bond of C(70) at the 6-6 ring junction of eta(2)-type to form Ni-C(C(70)) bonds of 1.929-1.941(2) A length, the shortest M-C bonds among those known for eta(2)-complexes of fullerenes C(60) and C(70).	Nickel	71-77	DNA polymerase iota	Homo sapiens	242-247	
16749844-0	2006	Molybdenum and tungsten eta2-alkyne-1-thio complexes acting as sulfur donors in homoleptic Werner type complexes with nickel(II) and palladium(II).	Nickel	118-124	DNA polymerase iota	Homo sapiens	24-28	
29099520-1	2017	Reacting the low-valent nickel complex [(dtbpe)Ni]2(mu-eta2:eta2-C6H6) with oxaziridines was found to form mixtures of imine, amide and aldehyde products.	Nickel	24-30	DNA polymerase iota	Homo sapiens	55-59	
29099520-1	2017	Reacting the low-valent nickel complex [(dtbpe)Ni]2(mu-eta2:eta2-C6H6) with oxaziridines was found to form mixtures of imine, amide and aldehyde products.	Nickel	24-30	DNA polymerase iota	Homo sapiens	60-64	
29099520-5	2017	Preliminary mechanistic analysis is consistent with a bimetallic mechanism of fragmentation of the oxazanickelacyclobutane to form the nickel imido and eta2-aldehyde complexes.	Nickel	104-110	DNA polymerase iota	Homo sapiens	152-156	
32558829-1	2020	An unprecedented nickel-catalyzed hydroarylative and hydroalkenylative cyclization of unsymmetrically substituted 1,6-dienes with organoboronic acid was developed by using MeOH as the hydrogen source and employing commercially available Ni(eta2-1,5-cyclooctadiene)2 as the catalyst.	Nickel	17-23	DNA polymerase iota	Homo sapiens	240-244	
31860738-5	2020	The thermolysis of 3 leads to the tetrahedrane complex [(Cp"""Ni)2(micro,eta2:eta2-P)2] (5).	Nickel	57-64	DNA polymerase iota	Homo sapiens	73-77	
31860738-5	2020	The thermolysis of 3 leads to the tetrahedrane complex [(Cp"""Ni)2(micro,eta2:eta2-P)2] (5).	Nickel	57-64	DNA polymerase iota	Homo sapiens	78-82	
30113165-8	2018	In one of them, the imine adopts an uncommon eta1(N)eta2(C,N) bridging mode of the ligand to nickel, while the second one may involve reactivity on the ligand by the formation of a new C-C bond by oxidative coupling.	Nickel	93-99	DNA polymerase iota	Homo sapiens	52-56	
29634236-7	2018	Two isolated nickel-CO2 adducts, (PPMeP)Ni(eta2-CO2-kappa C) (2) and {Na(12-C-4)2}{(PNP)Ni(eta1-CO2-kappa C)} (7), clearly demonstrate that the geometry of the nickel ion is crucial in the binding of CO2 and its level of activation.	Nickel	13-19	DNA polymerase iota	Homo sapiens	43-47	
29152826-0	2018	Synthesis and Reactivity of Nickel-Stabilised mu2 :eta2 ,eta2 -P2 , As2 and PAs Units.	Nickel	28-34	DNA polymerase iota	Homo sapiens	51-55	
29152826-0	2018	Synthesis and Reactivity of Nickel-Stabilised mu2 :eta2 ,eta2 -P2 , As2 and PAs Units.	Nickel	28-34	DNA polymerase iota	Homo sapiens	57-61