PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 19383473-3 2009 At pH 7, bicarbonate was found to be the most effective for both manganese and iron binding, with dissociation constants around 1 muM in three of the mutants. Manganese 65-74 latexin Homo sapiens 130-133 15895982-7 2005 The dependence of the amplitude of this component on manganese concentration yielded a dissociation constant of approximately 1 muM, similar to that observed in the steady-state measurements. Manganese 53-62 latexin Homo sapiens 128-131 28730349-5 2017 We first found that treatment with 30 and 100 muM manganese resulted in reduction of c-RET transcript level and degradation of c-RET protein through promotion of ubiquitination. Manganese 50-59 latexin Homo sapiens 46-49 28730349-7 2017 Decreased TH expression with decreased c-RET kinase activity was observed in c-RET protein-depleted TGW cells by treatment with manganese (30 muM) as well as by c-RET siRNA transfection. Manganese 128-137 latexin Homo sapiens 142-145 28744261-9 2017 The manganese chelates (CC50 values ranged from 234.51 to >512 muM) were the least toxic to the mammalian cells, followed by the silver (CC50 values ranged from 2.07 to 13.63 muM) and copper (CC50 values ranged from 0.53 to 3.86 muM) compounds. Manganese 4-13 latexin Homo sapiens 66-69 29238131-4 2017 Manganese concentrations increase more quickly and to higher levels than arsenic and iron concentrations; maximum [Mn]= ~13 ppm (~250 muM), maximum [Fe] = ~6 ppm (~120 muM). Manganese 0-9 latexin Homo sapiens 134-137 29238131-4 2017 Manganese concentrations increase more quickly and to higher levels than arsenic and iron concentrations; maximum [Mn]= ~13 ppm (~250 muM), maximum [Fe] = ~6 ppm (~120 muM). Manganese 0-9 latexin Homo sapiens 168-171