PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
11670003-2	1997	Paramagnetic transition-ion impurities were carefully excluded during the synthesis of H(2)(tbp)I and Ni(tbp)I, and both materials show much higher, metal-like conductivites than previously seen for less-pure Ni(tbp)I.	Metals	149-154	TATA-box binding protein	Homo sapiens	92-95	
11670003-2	1997	Paramagnetic transition-ion impurities were carefully excluded during the synthesis of H(2)(tbp)I and Ni(tbp)I, and both materials show much higher, metal-like conductivites than previously seen for less-pure Ni(tbp)I.	Metals	149-154	TATA-box binding protein	Homo sapiens	105-108	
11670003-2	1997	Paramagnetic transition-ion impurities were carefully excluded during the synthesis of H(2)(tbp)I and Ni(tbp)I, and both materials show much higher, metal-like conductivites than previously seen for less-pure Ni(tbp)I.	Metals	149-154	TATA-box binding protein	Homo sapiens	105-108	
11670003-3	1997	Comparison of the specular reflectance data for Ni(tbp)I and H(2)(tbp)I allows a distinction between purely ring pi-transitions and metal-involved charge-transfer transitions, and the spectra fix the energy levels of the pi orbitals involved in conduction.	Metals	132-137	TATA-box binding protein	Homo sapiens	51-54	
11670003-3	1997	Comparison of the specular reflectance data for Ni(tbp)I and H(2)(tbp)I allows a distinction between purely ring pi-transitions and metal-involved charge-transfer transitions, and the spectra fix the energy levels of the pi orbitals involved in conduction.	Metals	132-137	TATA-box binding protein	Homo sapiens	66-69	
11670003-4	1997	Transport, magnetic, and optical properties show that both H(2)(tbp)I and Ni(tbp)I are ring-based conductors that have metal-like conductivities, varying as approximately 1/T, down to ca.	Metals	119-124	TATA-box binding protein	Homo sapiens	64-67	
11670003-4	1997	Transport, magnetic, and optical properties show that both H(2)(tbp)I and Ni(tbp)I are ring-based conductors that have metal-like conductivities, varying as approximately 1/T, down to ca.	Metals	119-124	TATA-box binding protein	Homo sapiens	77-80	
22087562-5	2011	Other metal TBP clusters with the same total electron count (TEC) of 72 are different because the skeletal bonding is largely contributed by d-d interactions (e.g., [Os(5)(CO)(14)(PR(3))(mu-H)(n)](n-2), n = 0, 1, 2).	Metals	6-11	TATA-box binding protein	Homo sapiens	12-15	
29584395-1	2018	We report on the benzoporphyrin-based metal-organic framework (TBP-MOF), with 10-connected Zr6 cluster and much improved photophysical properties over the traditional porphyrin-based MOFs.	Metals	38-43	TATA-box binding protein	Homo sapiens	63-66	
29665677-3	2018	Here we report a nanoscale metal-organic framework, Fe-TBP, as a novel nanophotosensitizer to overcome tumor hypoxia and sensitize effective PDT, priming non-inflamed tumors for cancer immunotherapy.	Metals	27-32	TATA-box binding protein	Homo sapiens	55-58	
29578703-1	2018	We report the design of two new metal-organic frameworks (MOFs), Ru-TBP and Ru-TBP-Zn, based on Ru2 secondary building units (SBUs) and porphyrin-derived tetracarboxylate ligands.	Metals	32-37	TATA-box binding protein	Homo sapiens	68-71	
29578703-1	2018	We report the design of two new metal-organic frameworks (MOFs), Ru-TBP and Ru-TBP-Zn, based on Ru2 secondary building units (SBUs) and porphyrin-derived tetracarboxylate ligands.	Metals	32-37	TATA-box binding protein	Homo sapiens	79-82	
27398866-7	2016	The new insights into the conformational behaviors of the TBP molecule as a monomer and as part of an aggregate could greatly aid in the understanding of the complexation between TBP and metal ions in a solvent extraction system.	Metals	187-192	TATA-box binding protein	Homo sapiens	58-61	
27399338-1	2016	Tri-n-butyl phosphate (TBP), a representative of neutral organophosphorous metal-ion-extracting reagents, is an important ligand used in solvent extraction processes for the recovery of uranium and plutonium from spent nuclear fuel, as well as other non-nuclear applications.	Metals	75-80	TATA-box binding protein	Homo sapiens	23-26	
15998036-4	2005	The complexes obtained were pentacoordinate, a THF ligand completing the coordination sphere of the metal, which was found to be of almost perfect TBP geometry, as revealed by crystallography.	Metals	100-105	TATA-box binding protein	Homo sapiens	147-150	
19002334-4	2008	The metal is coordinated to the PPh3 molecules (Cu-P 2.224(2) and 2.258(2) A) and the pyrazine N(5) atom (Cu-N(5) 2.058(6) A) in a trigonal planar arrangement; two additional semi-coordinated atoms (Cu...O(4) 2.479(5) and Cu...O(61) 2.559(5) A) can be observed, forming an intermediate SP/TBP polyhedron.	Metals	4-9	TATA-box binding protein	Homo sapiens	289-292