Robin M. Betz scite author profile

The AMBER lipid force field has been updated to create Lipid14, allowing tensionless simulation of a number of lipid types with the AMBER MD package. The modular nature of this force field allows numerous combinations of head and tail groups to create different lipid types, enabling the easy insertion of new lipid species. The Lennard-Jones and torsion parameters of both the head and tail groups have been revised and updated partial charges calculated. The force field has been validated by simulating bilayers of six different lipid types for a total of 0.5 μs each without applying a surface tension; with favorable comparison to experiment for properties such as area per lipid, volume per lipid, bilayer thickness, NMR order parameters, scattering data, and lipid lateral diffusion. As the derivation of this force field is consistent with the AMBER development philosophy, Lipid14 is compatible with the AMBER protein, nucleic acid, carbohydrate, and small molecule force fields.

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Crystal Structure of an LSD-Bound Human Serotonin Receptor

Wacker

Wang

McCorvy

et al. 2017

Cell

377

413

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SUMMARY The prototypical hallucinogen LSD acts via serotonin receptors, and here we describe the crystal structure of LSD in complex with the human serotonin receptor 5-HT2B. The complex reveals conformational rearrangements to accommodate LSD, providing a structural explanation for the conformational selectivity of LSD’s key diethylamide moiety. LSD dissociates exceptionally slowly from both 5-HT2BR and 5-HT2AR -- a major target for its psychoactivity. Molecular dynamics (MD) simulations suggest that LSD’s slow binding kinetics may be due to a “lid” formed by extracellular loop 2 (EL2) at the entrance to the binding pocket. A mutation predicted to increase the mobility of this lid greatly accelerates LSD’s binding kinetics and selectively dampens LSD-mediated β-arrestin2 recruitment. This study thus reveals an unexpected binding mode of LSD, illuminates key features of its kinetics, stereochemistry, and signaling, and provides a molecular explanation for LSD’s actions at human serotonin receptors.

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D ₄ dopamine receptor high-resolution structures enable the discovery of selective agonists

Wang

Wacker

Levit

et al. 2017

Science

219

263

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Dopamine receptors are implicated in the pathogenesis and treatment of nearly every neuropsychiatric disorder. Although thousands of drugs interact with these receptors, our molecular understanding of dopaminergic drug selectivity and design remains clouded. To illuminate dopamine receptor structure, function, and ligand recognition, we determined crystal structures of the D4 dopamine receptor in its inactive state bound to the antipsychotic drug nemonapride, with resolutions up to 1.95 angstroms. These structures suggest a mechanism for the control of constitutive signaling, and their unusually high resolution enabled a structure-based campaign for new agonists of the D4 dopamine receptor. The ability to efficiently exploit structure for specific probe discovery-rapidly moving from elucidating receptor structure to discovering previously unrecognized, selective agonists-testifies to the power of structure-based approaches.

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GAFFlipid: a General Amber Force Field for the accurate molecular dynamics simulation of phospholipid

et al. 2012

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Robin M. Betz

Lipid14: The Amber Lipid Force Field

Crystal Structure of an LSD-Bound Human Serotonin Receptor

D ₄ dopamine receptor high-resolution structures enable the discovery of selective agonists

GAFFlipid: a General Amber Force Field for the accurate molecular dynamics simulation of phospholipid

Contact Info

Product

Resources

About

Robin M. Betz

Lipid14: The Amber Lipid Force Field

Crystal Structure of an LSD-Bound Human Serotonin Receptor

D 4 dopamine receptor high-resolution structures enable the discovery of selective agonists

GAFFlipid: a General Amber Force Field for the accurate molecular dynamics simulation of phospholipid

Contact Info

Product

Resources

About

D ₄ dopamine receptor high-resolution structures enable the discovery of selective agonists