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  • Molecular crowding creates an essential environment for the formation of stable G-quadruplexes in long double-stranded DNA.

Molecular crowding creates an essential environment for the formation of stable G-quadruplexes in long double-stranded DNA.

Nucleic acids research (2009-10-28)
Ke-wei Zheng, Zhao Chen, Yu-hua Hao, Zheng Tan
ABSTRACT

Large numbers of guanine-rich sequences with potential to form G-quadruplexes have been identified in genomes of various organisms. Such sequences are constrained at both ends by long DNA duplex with a complementary strand in close proximity to compete for duplex formation. G-quadruplex/duplex competition in long double-stranded DNA has rarely been studied. In this work, we used DMS footprinting and gel electrophoresis to study G-quadruplex formation in long double-stranded DNA derived from human genome under both dilute and molecular crowding condition created by PEG. G-quadruplex formation was observed in the process of RNA transcription and after heat denaturation/renaturation under molecular crowding condition. Our results showed that the heat denaturation/renaturation treatment followed by gel electrophoresis could provide a simple method to quantitatively access the ability of G-quadruplex formation in long double-stranded DNA. The effect of K(+) and PEG concentration was investigated and we found that stable G-quadruplexes could only form under the crowding condition with PEG at concentrations near the physiological concentration of biomass in living cells. This observation reveals a physical basis for the formation of stable G-quadruplexes in genome and supports its presence under the in vivo molecular crowding condition.

MATERIALS
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Brand
Product Description

Sigma-Aldrich
Dimethyl sulfate, puriss. p.a., ≥99.0% (GC)
Sigma-Aldrich
Dimethyl sulfate, ≥99.5%