Kathryn Haas, Ph.D.
Affiliations: | 2010 | Chemistry | Duke University, Durham, NC |
Area:
metal ion coordination in biological systemsGoogle:
"Kathryn Haas"Mean distance: 8.65 | S | N | B | C | P |
Parents
Sign in to add mentorKatherine J. Franz | grad student | 2010 | Duke | |
(Copper at the interface of chemistry and biology: New insights into hCtr1 function and the role of histidine in human cellular copper acquisition.) |
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Publications
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Strausbaugh Hjelmstad A, Pushie MJ, Ruth K, et al. (2024) Investigating Cu(I) binding to model peptides of N-terminal Aβ isoforms. Journal of Inorganic Biochemistry. 253: 112480 |
Schulte NB, Pushie MJ, Martinez A, et al. (2023) Exploration of the Potential Role of Serum Albumin in the Delivery of Cu(I) to Ctr1. Inorganic Chemistry |
Stefaniak E, Pushie MJ, Vaerewyck C, et al. (2020) Exploration of the Potential Role for Aβ in Delivery of Extracellular Copper to Ctr1. Inorganic Chemistry |
Stefaniak E, Pushie MJ, Vaerewyck C, et al. (2020) Exploration of the Potential Role for Aβ in Delivery of Extracellular Copper to Ctr1. Inorganic Chemistry |
Pushie MJ, Stefaniak E, Sendzik MR, et al. (2019) Using N-Terminal Coordination of Cu(II) and Ni(II) to Isolate the Coordination Environment of Cu(I) and Cu(II) Bound to His13 and His14 in Amyloid-β(4-16). Inorganic Chemistry |
Stefaniak E, Płonka D, Drew SC, et al. (2018) The N-terminal 14-mer model peptide of human Ctr1 can collect Cu(ii) from albumin. Implications for copper uptake by Ctr1. Metallomics : Integrated Biometal Science |
Sendzik M, Pushie MJ, Stefaniak E, et al. (2017) Structure and Affinity of Cu(I) Bound to Human Serum Albumin. Inorganic Chemistry |
Haas KL, Heemstra JM, Medema M, et al. (2017) Collaborating with Undergraduates to Contribute to Biochemistry Community Resources. Biochemistry |
Conklin SE, Bridgman EC, Su Q, et al. (2017) Specific Histidine Residues Confer Histatin Peptides with Copper-Dependent Activity against Candida albicans. Biochemistry |
Schwab S, Shearer J, Conklin SE, et al. (2015) Sequence proximity between Cu(II) and Cu(I) binding sites of human copper transporter 1 model peptides defines reactivity with ascorbate and O2. Journal of Inorganic Biochemistry |