The journal einstein (São Paulo) – e-ISSN 2317-6385 is dedicated to dissemination of high-quality scientific content that advances our understanding of human disease with the goal of improving prevention, care, diagnostics and treatment of patients globally.
One of neurology’s most challenging and evolving fields, vascular neurology has been constantly calling for attention. From small breakthroughs to large randomized trials, the quest for new answers in stroke treatment has brought us many advances and keeps bringing problems and solutions as new trials are coming.
CarvalhoFA, SilvaGS. Advances in stroke evaluation and treatment. Einstein (São Paulo) 2012;10(2):255-7. https://doi.org/10.1590/S1679-45082012000200025
Carvalho,Flavio Augusto de; Silva,Gisele Sampaio. Advances in stroke evaluation and treatment. Einstein (São Paulo), v. 10, n. 2, p. 255-257, Sep. 2012. https://doi.org/10.1590/S1679-45082012000200025
Carvalho,F.A. , & Silva,G.S. (2012). Advances in stroke evaluation and treatment. Einstein (São Paulo),10(2), 255-257. https://doi.org/10.1590/S1679-45082012000200025
Carvalho,Flavio Augusto de and Silva,Gisele Sampaio. Advances in stroke evaluation and treatment. Einstein (São Paulo) [online]. 2012, vol. 10, n. 2, [cited 2026-06-27], pp.255-257. Available from: <https://journal.einstein.br/article/advances-in-stroke-evaluation-and-treatment/>. ISSN 1679-4508. https://doi.org/10.1590/S1679-45082012000200025
Figure 5
DNA triple helix (triplex) structures. A) Three-dimensional view of an intramolecular DNA triplex solved by solution-state nuclear magnetic resonance (PDB ID: 1BCB). The structure was deposited by Asensio et al. (1998) and classified as DNA without mutations.(20) This triple helical arrangement illustrates the association of a third strand with the canonical duplex, stabilized by Hoogsteen interactions. B) Simplified schematic (adapted from Brazda et al., 2020; and Holder et al., 2015) illustrating the principle of triplex formation.(22,23) The canonical duplex is stabilized by Watson–Crick base pairs, while the third strand binds in the major groove via Hoogsteen hydrogen bonds. The chemical structure shown in green corresponds to adenine from the third strand, forming a representative T·A·T triad with a Watson–Crick A·T base pair. Such alternative base-pairing interactions enable an additional strand to associate with duplex DNA through Hoogsteen hydrogen bonding, generating a triple-helical structure capable of modulating essential processes such as replication and transcription