Katie A. Wilson scite author profile

Four hundred twenty-eight high-resolution DNA–protein complexes were chosen for a bioinformatics study. Although 164 crystal structures (38% of those searched) contained no interactions, 574 discrete π–contacts between the aromatic amino acids and the DNA nucleobases or deoxyribose were identified using strict criteria, including visual inspection. The abundance and structure of the interactions were determined by unequivocally classifying the contacts as either π–π stacking, π–π T-shaped or sugar–π contacts. Three hundred forty-four nucleobase–amino acid π–π contacts (60% of all interactions identified) were identified in 175 of the crystal structures searched. Unprecedented in the literature, 230 DNA–protein sugar–π contacts (40% of all interactions identified) were identified in 137 crystal structures, which involve C–H···π and/or lone–pair···π interactions, contain any amino acid and can be classified according to sugar atoms involved. Both π–π and sugar–π interactions display a range of relative monomer orientations and therefore interaction energies (up to –50 (–70) kJ mol−1 for neutral (charged) interactions as determined using quantum chemical calculations). In general, DNA–protein π-interactions are more prevalent than perhaps currently accepted and the role of such interactions in many biological processes may yet to be uncovered.

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The relationship between aortic wall distensibility and rupture of infrarenal abdominal aortic aneurysm

Wilson

Lee

Hoskins³

et al. 2003

Journal of Vascular Surgery

171

153

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Identification of an allosteric binding site on the human glycine transporter, GlyT2, for bioactive lipid analgesics

Mostyn

Wilson

Schumann-Gillett

et al. 2019

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The treatment of chronic pain is poorly managed by current analgesics, and there is a need for new classes of drugs. We recently developed a series of bioactive lipids that inhibit the human glycine transporter GlyT2 (SLC6A5) and provide analgesia in animal models of pain. Here, we have used functional analysis of mutant transporters combined with molecular dynamics simulations of lipid-transporter interactions to understand how these bioactive lipids interact with GlyT2. This study identifies a novel extracellular allosteric modulator site formed by a crevice between transmembrane domains 5, 7, and 8, and extracellular loop 4 of GlyT2. Knowledge of this site could be exploited further in the development of drugs to treat pain, and to identify other allosteric modulators of the SLC6 family of transporters.

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Relationship between abdominal aortic aneurysm wall compliance and clinical outcome: a preliminary analysis

Wilson

Bradbury²,

Whyman³

et al. 1998

European Journal of Vascular and Endovascular Surgery

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Katie A. Wilson

DNA–protein π-interactions in nature: abundance, structure, composition and strength of contacts between aromatic amino acids and DNA nucleobases or deoxyribose sugar

The relationship between aortic wall distensibility and rupture of infrarenal abdominal aortic aneurysm

Identification of an allosteric binding site on the human glycine transporter, GlyT2, for bioactive lipid analgesics

Relationship between abdominal aortic aneurysm wall compliance and clinical outcome: a preliminary analysis

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