Entangled World of DNA Quadruplex Folds.

DNA quadruplexes participate in many biological functions. It takes up a variety of folds based on the sequence and environment. Here, a meticulous analysis of experimentally determined 437 quadruplex structures (433 PDBs) deposited in the PDB is carried out. The analysis reveals the modular representation of the quadruplex folds. Forty-eight unique quadruplex motifs (whose diversity arises out of the propeller, bulge, diagonal, and lateral loops that connect the quartets) are identified, leading to simple to complex inter/intramolecular quadruplex folds. The two-layered structural motifs are further classified into 33 continuous and 15 discontinuous motifs. While the continuous motifs can directly be extended to a quadruplex fold, the discontinuous motif requires an additional loop(s) to complete a fold, as illustrated here with examples. Similarly, higher-order quadruplex folds can also be represented by continuous or discontinuous motifs or their combinations. Such a modular representation of the quadruplex folds may assist in custom engineering of quadruplexes, designing motif-based drugs, and the prediction of the quadruplex structure. Furthermore, it could facilitate understanding of the role of quadruplexes in biological functions and diseases.