Harel Weinstein scite author profile

Proline residues are known to perturb the structure of helices by introducing a kink between the segments preceding and following the proline residue. The distortion of the helical structure results from the avoided steric clash between the ring of the proline at position (i) and the backbone carbonyl at position (i - 4), as well as the elimination of helix backbone H-bonds for the carbonyls at positions (i - 3) and (i - 4). Both the departure from the ideal helical pattern and the reduction in H-bond stabilization contribute to the observed flexibility of a proline-containing alpha-helix. The special local flexibility of the proline kink can confer an important role on the proline-containing helix in the conformational changes related to the function of the protein. As a useful tool in determining and evaluating the role of proline-induced flexibility and distortions in protein function, we present here a protocol to quantify the geometry of the distortion introduced in helices by prolines both as a time-averaged value and for individual 'snapshots' along a molecular dynamics simulation.

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The FDA-approved drug Alectinib compromises SARS-CoV-2 nucleocapsid phosphorylation and inhibits viral infection in vitro

Yaron

Heaton

Levy

et al. 2020

Preprint

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Antiviral therapeutics against SARS-CoV-2 are needed to treat the pandemic disease COVID-19. Pharmacological targeting of a host factor required for viral replication can suppress viral spread with a low probability of viral mutation leading to resistance. Here, we used a genome-wide loss of function CRISPR/Cas9 screen in human lung epithelial cells to identify potential host therapeutic targets. Validation of our screening hits revealed that the kinase SRPK1, together with the closely related SRPK2, were jointly essential for SARS-CoV-2 replication; inhibition of SRPK1/2 with small molecules led to a dramatic decrease (more than 100,000-fold) in SARS-CoV-2 virus production in immortalized and primary human lung cells. Subsequent biochemical studies revealed that SPRK1/2 phosphorylate the viral nucleocapsid (N) protein at sites highly conserved across human coronaviruses and, due to this conservation, even a distantly related coronavirus was highly sensitive to an SPRK1/2 inhibitor. Together, these data suggest that SRPK1/2-targeted therapies may be an efficacious strategy to prevent or treat COVID-19 and other coronavirus-mediated diseases.

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Nucleophilic addition to activated double bonds: predictions of reactivity from the Laplacian of the charge density

Carroll¹,

Cheeseman²,

Osman³

et al. 1989

J. Phys. Chem.

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The reactivities of a series of molecules in a Michael addition reaction are analyzed on the basis of properties expressed in the Laplacian of the charge density distribution. The charge densities of structurally optimized acrylic acid (AA), methacrylic acid (MAA), acrylonitrile, and acrolein have been calculated by ab initio quantum mechanical methods with various basis sets. The relative reactivities of the activated double bond in these molecules toward a nucleophilic attack, predicted by the values of V1 2p at the corresponding critical point, are in accord with experiment. The changes in the atomic properties of two reactants, AA and MAA, upon the nucleophilic addition of P are examined by using the theory of atoms in molecules. The changes in these properties provide a quantitative description of AAF" and MAAP carbanion formation which is related to the size of the region of charge depletion on the attacked atom.

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Phosphatidylinositol phosphates modulate interactions between the StarD4 sterol trafficking protein and lipid membranes

Zhang

Xie

Iaea

et al. 2022

Journal of Biological Chemistry

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Conformational Rearrangements to the Intracellular Open States of the LeuT and ApcT Transporters Are Modulated by Common Mechanisms

Shi

Weinstein

2010

Biophysical Journal

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Recent crystallographic studies revealed that five transporter families without much sequence similarities among them have similar structure folds to LeuT, a bacterial neurotransmitter:sodium symporter homolog. The LeuT fold is characterized by an internal twofold structural pseudosymmetry. The transport cycle of some members of each of these families is dependent on a sodium gradient across the membrane, whereas in some others the role of sodium is mimicked by proton. We report on the identification of common structure-dynamics elements of the transporters with LeuT fold, which are recognizable in the conformational transitions related to function. The findings from comparative computational modeling and simulation studies of LeuT, and ApcT from the amino acid-polyamine-organocation transporter family define the intramolecular mechanisms by which Na+ binding couples to the transport process, and single out the lead/active role of TM1a in the transition to inward-open conformation. These mechanistic insights are derived in the context of collaborative investigations of LeuT dynamics with both single-molecule fluorescence and simulations that have produced excellent agreement of the dynamic details, and are found to be generalizable across the transporter families and to transcend sequence and motif similarities.

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Harel Weinstein

Prokink: a protocol for numerical evaluation of helix distortions by proline

The FDA-approved drug Alectinib compromises SARS-CoV-2 nucleocapsid phosphorylation and inhibits viral infection in vitro

Nucleophilic addition to activated double bonds: predictions of reactivity from the Laplacian of the charge density

Phosphatidylinositol phosphates modulate interactions between the StarD4 sterol trafficking protein and lipid membranes

Conformational Rearrangements to the Intracellular Open States of the LeuT and ApcT Transporters Are Modulated by Common Mechanisms

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