PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 17388319-3 2007 The eta2 (6-6 edge of C60) type of cobalt ion coordination is preferable for both the n=1 and n=2 cases. Cobalt 35-41 DNA polymerase iota Homo sapiens 4-8 17388319-4 2007 The eta2" (coordination with a 6-5 edge) and even the eta5 (C5 fragment) types can serve as low- and high-energy intermediates for the cobalt ion"s migration around the C60 cage. Cobalt 135-141 DNA polymerase iota Homo sapiens 4-8 29077236-4 2018 The ketone moiety does not bind to the metal in MII complexes, whereas MI complexes (Fe, Co, Ni) adopt an eta2 (C,O) coordination. Cobalt 89-91 DNA polymerase iota Homo sapiens 106-110 29741884-4 2018 A formally zerovalent cobalt complex has different structures depending on whether potassium binds; potassium binding gives transfer of two electrons into the eta2-diazoalkane, but the removal of the potassium with crown ether leads to a form with only one electron transferred into an eta1-diazoalkane. Cobalt 22-28 DNA polymerase iota Homo sapiens 159-163 27920922-0 2016 Crystal structure of bis-(eta2-ethyl-ene)(eta5-penta-methyl-cyclo-penta-dien-yl)cobalt. Cobalt 80-86 DNA polymerase iota Homo sapiens 26-30 27936666-0 2016 Spin Crossover in Anionic Cobalt-Bridged Fullerene (Bu4N+){Co(Ph3P)}2(mu2-Cl-)(mu2-eta2,eta2-C60)2 Dimers. Cobalt 26-32 DNA polymerase iota Homo sapiens 83-87 27936666-0 2016 Spin Crossover in Anionic Cobalt-Bridged Fullerene (Bu4N+){Co(Ph3P)}2(mu2-Cl-)(mu2-eta2,eta2-C60)2 Dimers. Cobalt 26-32 DNA polymerase iota Homo sapiens 88-92 27936666-1 2016 A spin crossover phenomena is observed in an anionic (Bu4N+){Co(Ph3P)}2(mu2-Cl-)(mu2-eta2,eta2-C60)2 2C6H14 (1) complex in which two cobalt atoms bridge two fullerene molecules to form a dimer. Cobalt 133-139 DNA polymerase iota Homo sapiens 90-94