Molecular models for intrastrand DNA G-quadruplexes.

Federico Fogolari, Haritha Haridas, Alessandra Corazza, Paolo Viglino, Davide Corà, Michele Caselle, Gennaro Esposito, Luigi E. Xodo

Research output: Contribution to journalArticlepeer-review


BACKGROUND: Independent surveys of human gene promoter regions have demonstrated an overrepresentation of G(3)X(n1)G3X(n2)G(3)X(n3)G(3) motifs which are known to be capable of forming intrastrand quadruple helix structures. In spite of the widely recognized importance of G-quadruplex structures in gene regulation and growing interest around this unusual DNA structure, there are at present only few such structures available in the Nucleic Acid Database. In the present work we generate by molecular modeling feasible G-quadruplex structures which may be useful for interpretation of experimental data. RESULTS: We have used all quadruplex DNA structures deposited in the Nucleic Acid Database in order to select a list of fragments entailing a strand of three adjacent G's paired with another strand of three adjacent G's separated by a loop of one to four residues. These fragments were further clustered and representative fragments were finally selected. Further fragments were generated by assemblying the two strands of each fragment with loops from different fragments whenever the anchor G's were superimposable. The fragments were used to assemble G quadruplex based on a superimposability criterion. CONCLUSION: Molecular models have been generated for a large number of G(3)X(n1)G(3)X(n2)G3X(n3)G(3) sequences. For a given sequence not all topologies are possible with the available repertoire of fragments due to steric hindrance and low superimposability. Since all molecular models are generated by fragments coming from observed quadruplex structures, molecular models are in principle reliable and may be used for interpretation of experimental data. Some examples of applications are given.

Original languageEnglish (US)
Pages (from-to)64
Number of pages1
JournalBMC structural biology
StatePublished - 2009

ASJC Scopus subject areas

  • Structural Biology


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