about
The CopC Family: Structural and Bioinformatic Insights into a Diverse Group of Periplasmic Copper Binding ProteinsMethanobactin transport machineryGenome mining for methanobactinsDual pathways for copper uptake by methanotrophic bacteria.Chemistry and biology of the copper chelator methanobactin.Mechanistic studies on bleomycin-mediated DNA damage: multiple binding modes can result in double-stranded DNA cleavageMethanobactins: from genome to function.Perspective: what is known, and not known, about the connections between alkane oxidation and metal uptake in alkanotrophs in the marine environment.Characterization of Methanobactin from Methylosinus sp. LW4.Methanobactins: maintaining copper homeostasis in methanotrophs and beyond.Chalkophores.Repurposed HisC Aminotransferases Complete the Biosynthesis of Some Methanobactins.The biosynthesis of methanobactin.Copper-responsive gene expression in the methanotroph Methylosinus trichosporium OB3b.Characterization of a long overlooked copper protein from methane- and ammonia-oxidizing bacteriaNative top-down mass spectrometry provides insights into the copper centers of membrane-bound methane monooxygenase.MbnH is a diheme MauG-like protein associated with microbial copper homeostasis
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description
researcher ORCID ID = 0000-0002-9579-3351
@en
wetenschapper
@nl
name
Grace E Kenney
@ast
Grace E Kenney
@en
Grace E Kenney
@nl
type
label
Grace E Kenney
@ast
Grace E Kenney
@en
Grace E Kenney
@nl
prefLabel
Grace E Kenney
@ast
Grace E Kenney
@en
Grace E Kenney
@nl
P31
P496
0000-0002-9579-3351