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Dawid Płonka
Dawid Płonka
PhD student, Institute of Biochemistry and Biophysics, Polish Academy of Sciences
Zweryfikowany adres z ibb.waw.pl
Tytuł
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Cytowane przez
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Resistance of Cu(Aβ416) to Copper Capture by Metallothionein‐3 Supports a Function for the Aβ442 Peptide as a Synaptic CuII Scavenger
NE Wezynfeld, E Stefaniak, K Stachucy, A Drozd, D Płonka, SC Drew, ...
Angewandte Chemie International Edition 55 (29), 8235-8238, 2016
592016
The N-terminal 14-mer model peptide of human Ctr1 can collect Cu (ii) from albumin. Implications for copper uptake by Ctr1
E Stefaniak, D Płonka, SC Drew, K Bossak-Ahmad, KL Haas, MJ Pushie, ...
Metallomics 10 (12), 1723-1727, 2018
432018
The Cu (II) affinity of the N-terminus of human copper transporter CTR1: Comparison of human and mouse sequences
K Bossak, SC Drew, E Stefaniak, D Płonka, A Bonna, W Bal
Journal of inorganic biochemistry 182, 230-237, 2018
342018
Oligopeptides Generated by Neprilysin Degradation of β-Amyloid Have the Highest Cu (II) Affinity in the Whole Aβ Family
K Bossak-Ahmad, M Mital, D Płonka, SC Drew, W Bal
Inorganic chemistry 58 (1), 932-943, 2018
292018
The N-terminus of hepcidin is a strong and potentially biologically relevant Cu (II) chelator
D Płonka, W Bal
Inorganica Chimica Acta 472, 76-81, 2018
262018
Formation of highly stable multinuclear Ag n S n clusters in zinc fingers disrupts their structure and function
K Kluska, MD Peris-Díaz, D Płonka, A Moysa, M Dadlez, A Deniaud, ...
Chemical Communications 56 (9), 1329-1332, 2020
242020
5–x Peptides: N-Terminal Truncation Yields Tunable Cu(II) Complexes
NE Wezynfeld, A Tobolska, M Mital, UE Wawrzyniak, MZ Wiloch, D Płonka, ...
Inorganic chemistry 59 (19), 14000-14011, 2020
222020
Cu transfer from amyloid-β 4–16 to metallothionein-3: the role of the neurotransmitter glutamate and metallothionein-3 Zn (ii)-load states
A Santoro, NE Wezynfeld, E Stefaniak, A Pomorski, D Płonka, A Krężel, ...
Chemical Communications 54 (89), 12634-12637, 2018
222018
Hierarchical binding of copper II to N-truncated Aβ 4–16 peptide
X Teng, E Stefaniak, P Girvan, R Kotuniak, D Płonka, W Bal, L Ying
Metallomics 12 (4), 470-473, 2020
172020
Electrospray-Induced Mass Spectrometry Is Not Suitable for Determination of Peptidic Cu (II) Complexes
D Płonka, R Kotuniak, K Dąbrowska, W Bal
Journal of the American Society for Mass Spectrometry 32 (12), 2766-2776, 2021
162021
Copper Transporters? Glutathione Reactivity of Products of Cu–Aβ Digestion by Neprilysin
E Stefaniak, D Płonka, P Szczerba, NE Wezynfeld, W Bal
Inorganic Chemistry 59 (7), 4186-4190, 2020
162020
Gly-His-Thr-Asp-Amide, an Insulin-Activating Peptide from the Human Pancreas Is a Strong Cu (II) but a Weak Zn (II) Chelator
R Kotuniak, T Fra̧czyk, P Skrobecki, D Płonka, W Bal
Inorganic chemistry 57 (24), 15507-15516, 2018
142018
Rational drug-design approach supported with thermodynamic studies—a peptide leader for the efficient bi-substrate inhibitor of protein kinase CK2
M Winiewska-Szajewska, D Płonka, I Zhukov, J Poznański
Scientific Reports 9 (1), 11018, 2019
102019
Ni (II) Ions May Target the Entire Melatonin Biosynthesis Pathway—A Plausible Mechanism of Nickel Toxicity
NE Wezynfeld, AM Bonna, D Płonka, W Bal, T Frączyk
Molecules 27 (17), 5582, 2022
62022
Ni2+-Assisted Hydrolysis May Affect the Human Proteome; Filaggrin Degradation Ex Vivo as an Example of Possible Consequences
EI Podobas, D Gutowska-Owsiak, S Moretti, J Poznański, M Kulińczak, ...
Frontiers in Molecular Biosciences 9, 828674, 2022
12022
The Cu (II) affinity constant and reactivity of Hepcidin-25, the main iron regulator in human blood
D Płonka, MD Wiśniewska, J Ziemska-Legięcka, M Grynberg, W Bal
Journal of inorganic biochemistry 248, 112364, 2023
2023
Corrigendum: Ni2+-assisted hydrolysis may affect the human proteome; filaggrin degradation ex vivo as an example of possible consequences
EI Podobas, D Gutowska-Owsiak, S Moretti, J Poznański, M Kulińczak, ...
Frontiers in Molecular Biosciences 9, 1101224, 2022
2022
An Overlooked Hepcidin–Cadmium Connection
D Płonka, MD Wiśniewska, MD Peris-Díaz, A Krężel, AM Bonna, W Bal
International Journal of Molecular Sciences 23 (24), 15483, 2022
2022
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