Virtudes Moreno mainly focuses on Stereochemistry, DNA, Crystallography, Molecule and Circular dichroism. The Stereochemistry study combines topics in areas such as Ligand, Bipyridine, Nucleobase and Medicinal chemistry. Virtudes Moreno works mostly in the field of Medicinal chemistry, limiting it down to concerns involving Pyrimidine and, occasionally, Atropisomer.
His DNA study integrates concerns from other disciplines, such as In vitro growth and Gel electrophoresis. Virtudes Moreno specializes in Crystallography, namely Supramolecular chemistry. Virtudes Moreno interconnects Nuclear chemistry, Cell growth, Aqueous solution and Mass spectrometry in the investigation of issues within Molecule.
Stereochemistry, Crystallography, DNA, Medicinal chemistry and Circular dichroism are his primary areas of study. His study looks at the relationship between Stereochemistry and topics such as Ligand, which overlap with Reactivity. His Octahedral molecular geometry study, which is part of a larger body of work in Crystallography, is frequently linked to Ternary operation, bridging the gap between disciplines.
His studies in DNA integrate themes in fields like Supramolecular chemistry, Adduct and Gel electrophoresis. In his study, Titration is inextricably linked to Aqueous solution, which falls within the broad field of Medicinal chemistry. His Circular dichroism research includes elements of Nuclear magnetic resonance spectroscopy, Agarose, Biological activity, Diamine and Cytotoxicity.
Virtudes Moreno mainly focuses on Stereochemistry, Cancer research, DNA, In patient and Internal medicine. His biological study spans a wide range of topics, including Denticity, Phenanthroline and Intercalation. He has researched Cancer research in several fields, including Nanoparticle, Locally advanced and Single agent.
His DNA research is multidisciplinary, relying on both Structure–activity relationship, Cruzipain, Cysteine protease and Copper. In his work, In vitro is strongly intertwined with Molecule, which is a subfield of Structure–activity relationship. The study incorporates disciplines such as Lurbinectedin and Oncology in addition to Internal medicine.
His scientific interests lie mostly in Stereochemistry, Moiety, DNA, Circular dichroism and Biochemistry. The Semicarbazone research Virtudes Moreno does as part of his general Stereochemistry study is frequently linked to other disciplines of science, such as Conjugate, therefore creating a link between diverse domains of science. His study in Moiety is interdisciplinary in nature, drawing from both Nuclear magnetic resonance spectroscopy, Ligand and Electrospray ionization.
His DNA study combines topics in areas such as IC50, Chagas disease and Cruzipain, Cysteine protease. His work deals with themes such as Ethidium bromide, Base pair, Intercalation and Potato carboxypeptidase inhibitor, which intersect with Circular dichroism. He has included themes like Molecule and Coordination sphere in his In vitro study.
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Intramolecular DNA Coiling Mediated by a Metallo‐Supramolecular Cylinder
Michael J. Hannon;Virtudes Moreno;Maria J. Prieto;Erlend Moldrheim.
Angewandte Chemie (2001)
Intramolecular DNA coiling mediated by metallo-supramolecular cylinders: Differential binding of P and M helical enantiomers
Isabelle Meistermann;Virtudes Moreno;Maria J. Prieto;Erlend Moldrheim.
Proceedings of the National Academy of Sciences of the United States of America (2002)
Photocontrolled DNA Binding of a Receptor-Targeted Organometallic Ruthenium(II) Complex
Flavia Barragán;Paula López-Senín;Luca Salassa;Soledad Betanzos-Lara.
Journal of the American Chemical Society (2011)
Study of the interaction of DNA with cisplatin and other Pd(II) and Pt(II) complexes by atomic force microscopy.
G. Bibiana Onoa;Gemma Cervantes;Virtudes Moreno;M. José Prieto.
Nucleic Acids Research (1998)
Vanadium polypyridyl compounds as potential antiparasitic and antitumoral agents: new achievements.
Julio Benítez;Lorena Becco;Isabel Correia;Sandra Milena Leal.
Journal of Inorganic Biochemistry (2011)
New palladium(II) and platinum(II) complexes with the model nucleobase 1-methylcytosine: antitumor activity and interactions with DNA.
José Ruiz;Natalia Cutillas;Consuelo Vicente;Maria Dolores Villa.
Inorganic Chemistry (2005)
Biological recognition patterns implicated by the formation and stability of ternary metal ion complexes of low-molecular-weight formed with amino acid/peptides and nucleobases/nucleosides
Angel Terrón;Juan J. Fiol;Angel García-Raso;Miquel Barceló-Oliver.
Coordination Chemistry Reviews (2007)
Synthesis, structure and nuclease properties of several ternary copper(II) peptide complexes with 1,10-phenanthroline.
Ángel Garcı́a-Raso;Juan J. Fiol;Bartomeu Adrover;Virtudes Moreno.
Journal of Inorganic Biochemistry (2003)
Palladium(II) and platinum(II) organometallic complexes with the model nucleobase anions of thymine, uracil, and cytosine : Antitumor activity and interactions with DNA of the platinum compounds○
José Ruiz;Julia Lorenzo;Laura Sanglas;Natalia Cutillas.
Inorganic Chemistry (2006)
DNA interaction and cytotoxicity studies of new ruthenium(II) cyclopentadienyl derivative complexes containing heteroaromatic ligands.
Virtudes Moreno;Mercè Font-Bardia;Teresa Calvet;Julia Lorenzo.
Journal of Inorganic Biochemistry (2011)
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