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Coexistence of an ILPR i-motif and a partially folded structure with comparable mechanical stability revealed at the single-molecule level.


ABSTRACT: Investigation of i-motif is of high importance to fully understand the biological functions of G quadruplexes in the context of double-stranded DNA. Whereas single-molecule approaches have profiled G quadruplexes from a perspective unavailable by bulk techniques, there is a lack of similar literature on the i-motif in the cytosine (C)-rich region complementary to G quadruplex-forming sequences. Here, we have used laser tweezers to investigate the structures formed in 5'-(TGTCCCCACACCCC)(2), a predominate variant in the insulin-linked polymorphic region (ILPR). We have observed two species with the change in contour length (DeltaL) of 10.4 (+/-0.1) and 5.1 (+/-0.5) nm, respectively. Since DeltaL of 10.4 nm is located within the expected range for an i-motif structure, we assign this species to the i-motif. The formation of the i-motif in the same sequence has been corroborated by bulk experiments such as Br(2) footprinting, circular dichroism, and thermal denaturation. The assignment of the i-motif is further confirmed by decreased formation of this structure (23% to 1.3%) with pH 5.5 --> 7.0, which is a well-established behavior for i-motifs. In contrast to that of the i-motif, the formation of the second species with DeltaL of 5.1 nm remains unchanged (6.1 +/- 1.6%) in the same pH range, implying that pH-sensitive C:CH(+) pairs may not contribute to the structure as significantly as those to the i-motif. Compared to the DeltaG(unfold) of an i-motif (16.0 +/- 0.8 kcal/mol), the decreased free energy in the partially folded structure (DeltaG(unfold) 10.4 +/- 0.7 kcal/mol) may reflect a weakened structure with reduced C:CH(+) pairs. Both DeltaL and DeltaG(unfold) argue for the intermediate nature of the partially folded structure in comparison to the i-motif. In line with this argument, we have directly observed the unfolding of an i-motif through the partially folded structure. The i-motif and the partially folded structure share similar rupture forces of 22-26 pN, which are higher than those that can stall transcription catalyzed by RNA polymerases. This suggests, from a mechanical perspective alone, that either of the structures can stop RNA transcription.

SUBMITTER: Dhakal S 

PROVIDER: S-EPMC3145834 | biostudies-literature | 2010 Jul

REPOSITORIES: biostudies-literature

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Coexistence of an ILPR i-motif and a partially folded structure with comparable mechanical stability revealed at the single-molecule level.

Dhakal Soma S   Schonhoft Joseph D JD   Koirala Deepak D   Yu Zhongbo Z   Basu Soumitra S   Mao Hanbin H  

Journal of the American Chemical Society 20100701 26


Investigation of i-motif is of high importance to fully understand the biological functions of G quadruplexes in the context of double-stranded DNA. Whereas single-molecule approaches have profiled G quadruplexes from a perspective unavailable by bulk techniques, there is a lack of similar literature on the i-motif in the cytosine (C)-rich region complementary to G quadruplex-forming sequences. Here, we have used laser tweezers to investigate the structures formed in 5'-(TGTCCCCACACCCC)(2), a pr  ...[more]

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