Graham D. Balkwill scite author profile

Tissue-specific expression of the human estrogen receptor alpha gene (ESR1) is achieved through multiple promoter sequences resulting in various mRNA transcripts encoding a common protein but differing in their 5'-untranslated region (5'-UTR). Many cancers are estrogen-sensitive with neoplastic growth stimulated through the estrogen receptor, a transcription factor that regulates developmental genes. We demonstrate that the human ESR1 gene is rich in potential quadruplex-forming sequences with 3 of 20 identified within exonic regions. In particular, we show using CD, UV, and NMR spectroscopy that a stable DNA G-quadruplex motif is formed within the exon C gene sequence. This motif, which PCR shows is transcribed in normal and neoplastic endometrium and in MCF-7 cells, forms a stable RNA quadruplex demonstrable by CD and UV analysis. Cloning the exon C G-quadruplex sequence upstream of a luciferase reporter gene caused a 6-fold reduction of enzymatic activity compared to a mutant sequence. We conclude that the exon C G-quadruplex motif is present in the 5'-UTR of the mRNA transcript, where it modulates the efficiency of translation.

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The Highly Repetitive Region of the Helicobacter pylori CagY Protein Comprises Tandem Arrays of an α-Helical Repeat Module

Delahay

Balkwill

Bunting

et al. 2008

Journal of Molecular Biology

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The cag-pathogenicity-island-encoded type IV secretion system of Helicobacter pylori functions to translocate the effector protein CagA directly through the plasma membrane of gastric epithelial cells. Similar to other secretion systems, the Cag type IV secretion system elaborates a surface filament structure, which is unusually sheathed by the large cag-pathogenicity-island-encoded protein CagY. CagY is distinguished by unusual amino acid composition and extensive repetitive sequence organised into two defined repeat regions. The second and major repeat region (CagYrpt2) has a regular disposition of six repetitive motifs, which are subject to deletion and duplication, facilitating the generation of CagY size and phenotypic variants. In this study, we show CagYrpt2 to comprise two highly thermostable and acid-stable α-helical structural motifs, the most abundant of which (motif A) occurs in tandem arrays of one to six repeats terminally flanked by single copies of the second repeat (motif B). Isolated motifs demonstrate hetero- and homomeric interactions, suggesting a propensity for uniform assembly of discrete structural subunit motifs within the larger CagYrpt2 structure. Consistent with this, CagY proteins comprising substantially different repeat 2 motif organisations demonstrate equivalent CagA translocation competence, illustrating a remarkable structural and functional tolerance for precise deletion and duplication of motif subunits. We provide the first insight into the structural basis for CagYrpt2 assembly that accommodates both the variable motif sequence composition and the extensive contraction/expansion of repeat modules within the CagYrpt2 region.

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Folding Topology of a Bimolecular DNA Quadruplex Containing a Stable Mini-hairpin Motif within the Diagonal Loop

Balkwill¹,

Garner²,

Williams³

et al. 2009

Journal of Molecular Biology

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Occurrence of a Quadruplex Motif in a Unique Insert within Exon C of the Bovine Estrogen Receptor α Gene (ESR1)

et al. 2010

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The 5' end of exon C of the bovine estrogen receptor alpha gene (bov-ESR1) includes a unique G-rich insert, not found in other closely related mammalian genes, which lies close to both a double E-box transcription factor binding site and the site of a single nucleotide (G/A) polymorphism. Biophysical studies, using CD and UV absorbance measurements, show that this 22 base insert leads to the formation of a family of stable G-quadruplex structures which are unaffected by the G/A polymorphism. Multiplex PCR shows that the region including the G-quadruplex is transcribed into RNA, and studies with a synthetic RNA transcript sequence demonstrated formation of a highly stable parallel-folded quadruplex structure. Luciferase reporter constructs demonstrate that the G-rich sequence reduces rates of translation when present in the 5'-UTR of mRNA transcripts. Mutations (GGG to AAA) that destabilize the quadruplex lead to a 15-fold enhancement of translational efficiency, suggesting that a possible biological role of the insert in exon C of the bov-ESR1 is to regulate translation of this exon.

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Folding of single-stranded DNA quadruplexes containing an autonomously stable mini-hairpin loop

Balkwill¹,

Garner²,

Searle³

2009

Mol. BioSyst.

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The single-stranded DNA quadruplex motif TG(3)-L(1)-G(3)-L(2)-G(3)-L(3)-G(3)T (where L(1), L(2) and L(3) are the three loop sequences) was used as a template for probing the effects of the loop sequences on stability and folding topology. An autonomously stable mini-hairpin sequence (ACGTAGT) was inserted into the central loop (L(2)) of different sequences with intrinsic propensities to form either parallel or anti-parallel structures. Single nucleotides (T) at positions L(1) and L(3) strongly favour the formation of a parallel structure with the L(2) hairpin insert affecting stability in the same way as a T(7) loop. However, in the context of an anti-parallel quadruplex with T(3) loops in positions L(1) and L(3), the mini-hairpin in the central loop forms a stable structure which enhances the T(m) of the quadruplex by approximately 10 degrees C when compared with the T(7) insert. The CD and UV melting data show that base pairing interactions within the ACGTAGT hairpin loop sequence, when accommodated as a diagonal loop in an anti-parallel structure, can enhance stability and lead to novel quadruplex structures, adding complexity to the folding landscape and expanding the potential repertoire of sequences that are able to regulate gene expression in vivo.

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