Tunable helicity, stability and DNA-binding properties of short peptides with hybrid metal coordination motifs

Smith, Sarah J.; Radford, Robert J.; Subramanian, Rohit H.; Barnett, Brandon R.; Figueroa, Joshua S.; Tezcan, F.A.

doi:10.1039/c6sc00826g

Cited by 9 publications

(4 citation statements)

References 71 publications

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“…We also proved that an analogous complex featuring nitrate instead of chloride ligands Pd(bipy)(NO 3 ) 2 is also a very efficient binding trigger (Figure S12). Therefore, it appears that square planar cis -Pd(II) complexes present the ideal coordination properties to promote an effective folding, and interaction to the target DNA . Notably, similar PtCl 2 complexes were ineffective, most probably because of the low reactivity and kinetic stability of the precursor salts (Figure b).…”

Section: Resultsmentioning

confidence: 99%

Metal-Dependent DNA Recognition and Cell Internalization of Designed, Basic Peptides

et al. 2017

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A fragment of the DNA basic region (br) of the GCN4 bZIP transcription factor has been modified to include two His residues at designed i and i+4 positions of its N-terminus. The resulting monomeric peptide (brHis2) does not bind to its consensus target DNA site (5′-GTCAT-3′). However, addition of Pd(en)Cl2 (en, ethylenediamine) promotes a high-affinity interaction with exquisite selectivity for this sequence. The peptide–DNA complex is disassembled by addition of a slight excess of a palladium chelator, and the interaction can be reversibly switched multiple times by playing with controlled amounts of either the metal complex or the chelator. Importantly, while the peptide brHis2 fails to translocate across cell membranes on its own, addition of the palladium reagent induces an efficient cell internalization of this peptide. In short, we report (1) a designed, short peptide that displays highly selective, major groove DNA binding, (2) a reversible, metal-dependent DNA interaction, and (3) a metal-promoted cell internalization of this basic peptide.

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Section: Resultsmentioning

confidence: 99%

Metal-Dependent DNA Recognition and Cell Internalization of Designed, Basic Peptides

et al. 2017

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“…Peptides associated with metals can play an important role in such complexes. 13 Short peptides do not show immunogenicity. The mechanism of the biological activity of short peptides has not been yet fully understood.…”

Section: ■ Introductionmentioning

confidence: 99%

“…It is known that gene expression relies on the controlled combination of DNA-binding proteins. Peptides associated with metals can play an important role in such complexes …”

Section: Introductionmentioning

confidence: 99%

Role of Mono- and Divalent Ions in Peptide Glu-Asp-Arg–DNA Interaction

et al. 2019

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The interaction of the regulatory biologically active peptide Glu-Asp-Arg (EDR) with DNA is considered by spectral, NMR, viscosimetry, and molecular dynamics methods. It was shown that EDR can partly penetrate into the major groove of DNA and affect the base atoms, mainly the N7 and O6 of guanine. It was observed that Mg 2+ ions can promote DNA−EDR interaction due to their effective screening of the negatively charged phosphate groups of DNA. This action of Mg 2+ remains in salted solution as well.

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“…The most basic indicators that allow storing, transferring and copying of the genetic information within these nuclear acids are hydrogen bonded Watson-Crick base pairs. Having metal coordination bonds instead of hydrogen bonds presents alternative and completely different base pairs [5] [6] [7]. As known, the event of binding a metal ion to a molecule affects the characteristics of UV-visible spectrum of molecule.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Investigation of the Newly Designed Benzimidazole Based Metal Mediated DNA Base Couples with DFT Method

Sevin¹,

Dilmani²,

Sarikavak³

et al. 2017

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DNA has the genetic information storage and transmission capacity according to the sequential order of the monomer and creates a central role in the chemical evolution by copying itself with the proliferation feature. WatsonCrick base pairs define two base pairs with hydrogen bonds. If metal coordination bonds replace hydrogen bonds more stable alternative metallo-DNA sequence can be established. If the replication feature can be obtained for the metallo-DNA, this will greatly benefit the creation of DNA computer keys. In this study, a new type of benzimidazole based metallo-DNA sensors consisting of a connector unit that unsaturated azinil bridge linked to Watson-Crick base pairs with Ni 2+ , Hg 2+ , Zn 2+ , Ag + , Pt 2+ , Pd 2+ metal cations and a benzimidazole has been designed. Absorption and emission spectrum of the newly designed aqua medium based fluorophore and their metallo-DNA sensors with selected cations have been theoretically investigated by using DFT method. The logic gates of selected possible sensors which response in the visible region have also been examined in detail in acidic and water phase. As a result of calculated absorption-emission spectrum data show that T-Hg-A-Bnz,

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Tunable helicity, stability and DNA-binding properties of short peptides with hybrid metal coordination motifs

Cited by 9 publications

References 71 publications

Metal-Dependent DNA Recognition and Cell Internalization of Designed, Basic Peptides

Metal-Dependent DNA Recognition and Cell Internalization of Designed, Basic Peptides

Role of Mono- and Divalent Ions in Peptide Glu-Asp-Arg–DNA Interaction

Theoretical Investigation of the Newly Designed Benzimidazole Based Metal Mediated DNA Base Couples with DFT Method

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