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Items: 13

1.

Insights on the relationship between structure vs. toxicological activity of antibacterial rhodamine-labelled 3-hydroxy-4-pyridinone iron(III) chelators in HepG2 cells.

Moniz T, da Silva DD, Carmo H, de Castro B, Bastos ML, Rangel M.

Interdiscip Toxicol. 2018 Oct;11(3):189-199. doi: 10.2478/intox-2018-0016. Epub 2019 Oct 18.

2.

Tuning the Anti(myco)bacterial Activity of 3-Hydroxy-4-pyridinone Chelators through Fluorophores.

Rangel M, Moniz T, Silva AMN, Leite A.

Pharmaceuticals (Basel). 2018 Oct 20;11(4). pii: E110. doi: 10.3390/ph11040110. Review.

3.

New fluorescent rosamine chelator showing promising antibacterial activity against Gram-positive bacteria.

Novais Â, Moniz T, Rebelo AR, Silva AMG, Rangel M, Peixe L.

Bioorg Chem. 2018 Sep;79:341-349. doi: 10.1016/j.bioorg.2018.05.013. Epub 2018 May 15.

PMID:
29807207
4.

Lactoferricin Peptides Increase Macrophages' Capacity To Kill Mycobacterium avium.

Silva T, Moreira AC, Nazmi K, Moniz T, Vale N, Rangel M, Gomes P, Bolscher JGM, Rodrigues PN, Bastos M, Gomes MS.

mSphere. 2017 Aug 30;2(4). pii: e00301-17. doi: 10.1128/mSphere.00301-17. eCollection 2017 Jul-Aug.

5.

Microsequential injection lab-on-valve system for the spectrophotometric bi-parametric determination of iron and copper in natural waters.

González A, Mesquita RBR, Avivar J, Moniz T, Rangel M, Cerdà V, Rangel AOSS.

Talanta. 2017 May 15;167:703-708. doi: 10.1016/j.talanta.2017.02.055. Epub 2017 Mar 1.

PMID:
28340782
6.

Effect of tris(3-hydroxy-4-pyridinonate) iron(III) complexes on iron uptake and storage in soybean (Glycine max L.).

Santos CS, Carvalho SM, Leite A, Moniz T, Roriz M, Rangel AO, Rangel M, Vasconcelos MW.

Plant Physiol Biochem. 2016 Sep;106:91-100. doi: 10.1016/j.plaphy.2016.04.050. Epub 2016 Apr 29.

PMID:
27156133
7.

NMR study of the interaction of fluorescent 3-hydroxy-4-pyridinone chelators with DMPC liposomes.

Moniz T, de Castro B, Rangel M, Ivanova G.

Phys Chem Chem Phys. 2016 Feb 14;18(6):5027-33. doi: 10.1039/c5cp05273d.

PMID:
26812137
8.

Uncovering novel 3-hydroxy-4-pyridinone metal ion complexes with potential anti-inflammatory properties.

Chisté RC, Ribeiro D, Freitas M, Leite A, Moniz T, Rangel M, Fernandes E.

J Inorg Biochem. 2016 Feb;155:9-16. doi: 10.1016/j.jinorgbio.2015.11.009. Epub 2015 Nov 11.

PMID:
26606288
9.

Vanadyl cationic complexes as catalysts in olefin oxidation.

Nunes CD, Vaz PD, Félix V, Veiros LF, Moniz T, Rangel M, Realista S, Mourato AC, Calhorda MJ.

Dalton Trans. 2015 Mar 21;44(11):5125-38. doi: 10.1039/c4dt03174a.

PMID:
25675271
10.

Relevant interactions of antimicrobial iron chelators and membrane models revealed by nuclear magnetic resonance and molecular dynamics simulations.

Coimbra JT, Moniz T, Brás NF, Ivanova G, Fernandes PA, Ramos MJ, Rangel M.

J Phys Chem B. 2014 Dec 18;118(50):14590-601. doi: 10.1021/jp509491p. Epub 2014 Dec 8.

PMID:
25482538
11.

Distinctive EPR signals provide an understanding of the affinity of bis-(3-hydroxy-4-pyridinonato) copper(II) complexes for hydrophobic environments.

Rangel M, Leite A, Silva AM, Moniz T, Nunes A, Amorim MJ, Queirós C, Cunha-Silva L, Gameiro P, Burgess J.

Dalton Trans. 2014 Jul 7;43(25):9722-31. doi: 10.1039/c4dt00642a.

PMID:
24834987
12.

Rhodamine labeling of 3-hydroxy-4-pyridinone iron chelators is an important contribution to target Mycobacterium avium infection.

Moniz T, Nunes A, Silva AM, Queirós C, Ivanova G, Gomes MS, Rangel M.

J Inorg Biochem. 2013 Apr;121:156-66. doi: 10.1016/j.jinorgbio.2013.01.002. Epub 2013 Jan 9.

PMID:
23384853
13.

Investigation of the insulin-like properties of zinc(II) complexes of 3-hydroxy-4-pyridinones: identification of a compound with glucose lowering effect in STZ-induced type I diabetic animals.

Moniz T, Amorim MJ, Ferreira R, Nunes A, Silva A, Queirós C, Leite A, Gameiro P, Sarmento B, Remião F, Yoshikawa Y, Sakurai H, Rangel M.

J Inorg Biochem. 2011 Dec;105(12):1675-82. doi: 10.1016/j.jinorgbio.2011.09.005. Epub 2011 Sep 10.

PMID:
22088976

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