Electronic and magnetic properties of TATA‐DNA sequence driven by chemical functionalization

Author:

Salgado‐Blanco Daniel12,Flores‐Saldaña Diana S. M.3ORCID,Jaimes‐Miranda Fabiola4ORCID,López‐Urías Florentino2ORCID

Affiliation:

1. Cátedra‐Conacyt, Centro Nacional de Supercómputo IPICyT San Luis Potosí Mexico

2. División de Materiales Avanzados IPICyT San Luis Potosí Mexico

3. Engineering in Nanotechnologies and Energies San Luis Potosí Autonomous University San Luis Potosí Mexico

4. Cátedras‐Conacyt, División de Biología Molecular IPICYT San Luis Potosí Mexico

Abstract

AbstractThe TATA box is a promoter sequence able to interact directly with the components of the basal transcription initiation machinery. We investigate the changes in the electronic and magnetic properties of a TATA‐DNA sequence when functionalized with different chemical groups; using the first‐principles density functional theory specifically, the TATA‐DNA sequences were functionalized with methyl groups (CH3, methylation), amino groups (NH2, amination), imine groups (NH, imination), chloroamine groups (NCl2, chloramination), H‐adatom (hydrogenation), and Cl‐adatom (chlorination). The functional groups were anchored at nitrogen atoms from adenine and oxygen atoms from thymine at sites pointed as reactive regions. We demonstrated that chemical functionalization induces significant changes in charge transfer, hydrogen bond distance, and hydrogen bond energy. The hydrogenation and imination increased the hydrogen bond energy. Results also revealed that the chemical functionalization of DNA molecules exhibit a ferromagnetic ground state, reaching magnetization up to 4.665 μB and complex magnetic ordering. We further demonstrated that the functionalization could induce tautomerism (proton migration in the base pair systems). The present study provides a theoretical basis for understanding the functionalization further into DNA molecules and visualizing possible future applications.

Publisher

Wiley

Subject

Computational Mathematics,General Chemistry

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