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Professor Mark Lorch's Outputs (3)

Cholesterol and lipid phases influence the interactions between serotonin receptor agonists and lipid bilayers (2010)
Journal Article
Batchelor, R., Windle, C. J., Buchoux, S., & Lorch, M. (2010). Cholesterol and lipid phases influence the interactions between serotonin receptor agonists and lipid bilayers. Journal of Biological Chemistry, 285(53), 41402-41411. https://doi.org/10.1074/jbc.M110.155176

Solid state NMR techniques have been used to investigate the effect that two serotonin receptor 1a agonists (quipazine and LY-165,163) have on the phase behavior of, and interactions within, cholesterol/phosphocholine lipid bilayers. The presence of... Read More about Cholesterol and lipid phases influence the interactions between serotonin receptor agonists and lipid bilayers.

The use of enzymes, isomerisable lipid analogues and small molecules to modulate the structure and dynamics of lipid bilayer (2010)
Thesis
Batchelor, R. The use of enzymes, isomerisable lipid analogues and small molecules to modulate the structure and dynamics of lipid bilayer. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4211370

A series of experiments were carried out to assess the effects and interactions of isomerisable lipid analogues, small molecules, and enzyme catalysed substrates on the structure and dynamics of lipid bilayers.

Modulation of Enzyme Activity Usin... Read More about The use of enzymes, isomerisable lipid analogues and small molecules to modulate the structure and dynamics of lipid bilayer.

Access to a primary aminosporopollenin solid support from plant spores (2010)
Journal Article
Barrier, S., Löbbert, A., Boasman, A. J., Boa, A. N., Lorch, M., Atkin, S. L., & MacKenzie, G. (2010). Access to a primary aminosporopollenin solid support from plant spores. Green chemistry : an international journal and green chemistry resource : GC, 12(2), 234-240. https://doi.org/10.1039/b913215e

Sporopollenin, which is a naturally occurring and highly resilient organic polymer constituting the external shell of spores and pollen grains, has been converted into a primary amine form with a loading of 0.58 +/- 0.04 mmol. g(-1) by reductive amin... Read More about Access to a primary aminosporopollenin solid support from plant spores.