34 research outputs found
Docking and molecular dynamics simulations of the ternary complex nisin2:lipid II
Lanthionine antibiotics are an important class of naturally-occurring antimicrobial peptides. The best-known, nisin, is a commercial food preservative. However, structural and mechanistic details on nisin/lipid II membrane complexes are currently lacking. Recently, we have developed empirical force-field parameters to model lantibiotics. Docking and molecular dynamics (MD) simulations have been used to study the nisin2:lipid II complex in bacterial membranes, which has been put forward as the building block of nisin/lipid II binary membrane pores. A Ile1Trp mutation of the N-terminus of nisin has been modelled and docked onto lipid II models; the computed binding affinity increased compared to wildtype. Wild-type nisin was also docked onto three different lipid II structures and a stable 2:1 nisin:lipid II complex formed. This complex was inserted into a membrane. Six independent MD simulations revealed key interactions in the complex, specifically the N terminal engagement of nisin with lipid II at the pyrophosphate and C-terminus of the pentapeptide chain. Nisin2 inserts into the membrane and we propose this is the first step in pore formation, mediated by the nisin N-terminusâlipid II pentapeptide hydrogen bond. The lipid II undecaprenyl chain adopted different conformations in the presence of nisin, which may also have implications for pore formation
Parameterization of a coarse-grained model of cholesterol with point-dipole electrostatics
© 2018, Springer Nature Switzerland AG. We present a new coarse-grained (CG) model of cholesterol (CHOL) for the electrostatic-based ELBA force field. A distinguishing feature of our CHOL model is that the electrostatics is modeled by an explicit point dipole which interacts through an ideal vacuum permittivity. The CHOL model parameters were optimized in a systematic fashion, reproducing the electrostatic and nonpolar partitioning free energies of CHOL in lipid/water mixtures predicted by full-detailed atomistic molecular dynamics simulations. The CHOL model has been validated by comparison to structural, dynamic and thermodynamic properties with experimental and atomistic simulation reference data. The simulation of binary DPPC/cholesterol mixtures covering the relevant biological content of CHOL in mammalian membranes is shown to correctly predict the main lipid behavior as observed experimentally
An Alternative Approach to Cognitive and Achievement Relations Research: An Introduction to Quantile Regression
Reading expressively and understanding thoroughly: An examination of prosody in adults with low literacy skills
An Intertextual Reading Intervention Program to Improve Reading Motivation of College Students
An Intertextual Reading Intervention Program to Improve Reading Motivation of College Students
Beginning to disentangle the prosody-literacy relationship: a multi-component measure of prosodic sensitivity
A growing number of studies now suggest that sensitivity to the rhythmic patterning of speech (prosody) is implicated in successful reading acquisition. However, recent evidence suggests that prosody is not a unitary construct and that the different components of prosody (stress, intonation, and timing) operating at different linguistic levels (word, phrase, and sentence) may be related to reading development in different ways. Sixty-two five- to seven-year-old English-speaking children completed a newly developed, multi-component measure designed to assess several different aspects of prosodic sensitivity in a single, easily-administered task. The new measure was found to be sensitive to individual differences in prosodic sensitivity and participantsâ overall scores were significantly correlated with measures of vocabulary, phonological awareness, phonological decoding, text reading accuracy, and reading comprehension. An exploratory factor analysis suggested that the multi-component measure of prosodic sensitivity distinguished between the processing of stress, intonation, and timing. The task also distinguished between word-level and sentence-level sensitivity to stress information. These findings add to the growing literature demonstrating a relationship between prosodic sensitivity and reading and represent a first step towards disentangling prosody and developing a more sophisticated understanding of its role in early reading development
Positive Selection or Free to Vary? Assessing the Functional Significance of Sequence Change Using Molecular Dynamics
Structure of native lens connexin 46/50 intercellular channels by cryo-EM
Gap junctions establish direct pathways for cell-to-cell communication through the assembly of twelve connexin subunits that form intercellular channels connecting neighbouring cells. Co-assembly of different connexin isoforms produces channels with unique properties and enables communication across cell types. Here we used single-particle cryo-electron microscopy to investigate the structural basis of connexin co-assembly in native lens gap junction channels composed of connexin 46 and connexin 50 (Cx46/50). We provide the first comparative analysis to connexin 26 (Cx26), whichâtogether with computational studiesâelucidates key energetic features governing gap junction permselectivity. Cx46/50 adopts an open-state conformation that is distinct from the Cx26 crystal structure, yet it appears to be stabilized by a conserved set of hydrophobic anchoring residues. âHot spotsâ of genetic mutations linked to hereditary cataract formation map to the core structuralâfunctional elements identified in Cx46/50, suggesting explanations for many of the disease-causing effects