DNA-binding properties of non-intercalating water-soluble organometallic Ir(III) luminophores
DNA-binding properties of non-intercalating water-soluble organometallic Ir(III) luminophores
A series of Ir(III) complexes, [Ir(C^N)2(en)]+ (where C^N = 2-phenyl-benzo[d]thiazolyl cyclometalating ligand; en = ethylene diamine), are reported with structural variation via a substituent (H, Me, OMe, Cl, OCF3) at the coordinated phenyl ring. The complexes were soluble in aqueous buffer, with solubility limits correlating inversely with the predicted logP. The complexes display efficient visible absorption at 400-500 nm (e ~ 5000 M-1 cm-1) due to charge-transfer transitions and are triplet emitters in aerated buffer (lem = 529-540 nm; lifetimes up to 0.763 ms; Fem £ 12 %). Each complex was investigated, via computational and biophysical experiments, in the context of DNA binding. According to UV-visible titrations, the cationic complexes bind to DNA with apparent affinities ranging from 6´104 to 5´105 M-1 with apparent binding site sizes between 0.4 and 1.0 base pairs.Isothermal titration calorimetry (ITC) showed that complexes [Ir(L1-3)2(en)]Cl bind to DNA in two types of binding sites, viz. a high affinity (107-108 M-1) binding site with characteristics of major groove binding and a low affinity binding site (105 M-1) with characteristics of non-specific binding to negatively charged DNA, with binding supported by hydrophobic interactions between complexes.
DNA binding, calorimetry, docking, iridium complex, luminescence
Alkhaibari, Ibrahim S.
91043665-d9b7-4127-bb0f-e09a85cdb0cf
Horton, Peter
154c8930-bfc3-495b-ad4a-8a278d5da3a5
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Buurma, Niklaas J.
4965c9f1-dfa7-4cf4-866f-200615cf0cd5
Pope, Simon J.A.
db9a489c-29ba-41cd-a96a-623bace0889d
27 May 2025
Alkhaibari, Ibrahim S.
91043665-d9b7-4127-bb0f-e09a85cdb0cf
Horton, Peter
154c8930-bfc3-495b-ad4a-8a278d5da3a5
Coles, Simon J.
3116f58b-c30c-48cf-bdd5-397d1c1fecf8
Buurma, Niklaas J.
4965c9f1-dfa7-4cf4-866f-200615cf0cd5
Pope, Simon J.A.
db9a489c-29ba-41cd-a96a-623bace0889d
Alkhaibari, Ibrahim S., Horton, Peter, Coles, Simon J., Buurma, Niklaas J. and Pope, Simon J.A.
(2025)
DNA-binding properties of non-intercalating water-soluble organometallic Ir(III) luminophores.
Chemistry - A European Journal, 31 (30), [e202500290].
(doi:10.1002/chem.202500290).
Abstract
A series of Ir(III) complexes, [Ir(C^N)2(en)]+ (where C^N = 2-phenyl-benzo[d]thiazolyl cyclometalating ligand; en = ethylene diamine), are reported with structural variation via a substituent (H, Me, OMe, Cl, OCF3) at the coordinated phenyl ring. The complexes were soluble in aqueous buffer, with solubility limits correlating inversely with the predicted logP. The complexes display efficient visible absorption at 400-500 nm (e ~ 5000 M-1 cm-1) due to charge-transfer transitions and are triplet emitters in aerated buffer (lem = 529-540 nm; lifetimes up to 0.763 ms; Fem £ 12 %). Each complex was investigated, via computational and biophysical experiments, in the context of DNA binding. According to UV-visible titrations, the cationic complexes bind to DNA with apparent affinities ranging from 6´104 to 5´105 M-1 with apparent binding site sizes between 0.4 and 1.0 base pairs.Isothermal titration calorimetry (ITC) showed that complexes [Ir(L1-3)2(en)]Cl bind to DNA in two types of binding sites, viz. a high affinity (107-108 M-1) binding site with characteristics of major groove binding and a low affinity binding site (105 M-1) with characteristics of non-specific binding to negatively charged DNA, with binding supported by hydrophobic interactions between complexes.
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Accepted/In Press date: 8 April 2025
e-pub ahead of print date: 8 April 2025
Published date: 27 May 2025
Keywords:
DNA binding, calorimetry, docking, iridium complex, luminescence
Identifiers
Local EPrints ID: 501302
URI: http://eprints.soton.ac.uk/id/eprint/501302
ISSN: 0947-6539
PURE UUID: 69e16a2a-a7dd-4855-9816-d48928ed38be
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Date deposited: 28 May 2025 16:55
Last modified: 03 Sep 2025 01:37
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Author:
Ibrahim S. Alkhaibari
Author:
Peter Horton
Author:
Niklaas J. Buurma
Author:
Simon J.A. Pope
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