Parametric longitudinal coupling between a high-impedance superconducting resonator and a semiconductor quantum dot singlet-triplet spin qubit.

Coupling qubits to a superconducting resonator provides a mechanism to enable long-distance entangling operations in a quantum computer based on spins in semiconducting materials. Here, we demonstrate a controllable spin-photon coupling based on a longitudinal interaction between a spin qubit and a resonator. We show that coupling a singlet-triplet qubit to a high-impedance superconducting resonator can produce the desired longitudinal coupling when the qubit is driven near the resonator's frequency. We measure the energy splitting of the qubit as a function of the drive amplitude and frequency of a microwave signal applied near the resonator antinode, revealing pronounced effects close to the resonator frequency due to longitudinal coupling. By tuning the amplitude of the drive, we reach a regime with longitudinal coupling exceeding 1 MHz. This mechanism for qubit-resonator coupling represents a stepping stone towards producing high-fidelity two-qubit gates mediated by a superconducting resonator.

Controlled self-assembly of stomatosomes by use of single-component fluorinated dendritic amphiphiles.

A series of novel non-ionic amphiphiles with dendritic oligoglycerol head groups of different generations ([G1]-[G3]) and lipophilic/fluorophilic tail segments, comprising single or double tail alkyl chains, C8F17-perfluoro rod segments as well as flexible spacer groups of different lengths were designed and synthesized. We expected that the differences in the size of the dendritic head groups in combination with perfluorinated segments would have an impact on the supramolecular structures formed in aqueous solution if compared with the hydrogenated analogues. Investigating the self-assembly behavior mainly by cryogenic transmission electron microscopy (cryo-TEM) and cryo-electron tomography (cryo-ET) we found as a new result the formation of perforated bilayer vesicles (stomatosomes) and bicontinuous network structures. Surprisingly, we have observed stomatosome formation by self-assembly of single component fluorinated dendritic amphiphiles. These assembly structures turned out to be extremely robust against harsh conditions, although there are strong indications that they represent non-equilibrium structures, which eventually transform into a bicontinuous cubic network structure of double diamond symmetry. In general, the molecular asymmetry of amphiphiles tuned by chemical design induced the expected trend from spherical micelles through worm-like micelles to perforated bilayers and three-dimensional network structures.

Drivers of Spatial Variation in the Role of Ants as Secondary Seed Dispersers.

The spatial variation in the outcome of the interaction between secondary dispersers and seeds is superimposed upon the variation produced by primary dispersers. Investigating the factors that drive the outcome of the interactions with secondary seed dispersers thus represents an essential refinement to our understanding of the complete seed dispersal process. We studied the interactions between two ponerine ants (Pachycondyla striata Smith, 1858 and Odontomachus chelifer (Latreille, 1802)) with fruits experimentally set on the ground, and estimated the effects of ants on seedling establishment in three areas distributed along a 2-km stretch of a Brazilian Atlantic rainforest that differ in soil properties and vegetation physiognomies. We tested the hypothesis that interactions are more frequent, resulting in greater seedling establishment at the site with harsher abiotic and biotic conditions. Both ant species removed fruits frequently and have a positive effect on seedling establishment in all study areas, but fruit removal did not differ among areas, while seedling establishment was more pronounced at the site with stressful abiotic conditions. The two ant species differed in important aspects of their seed dispersal services, including the propensity to interact with seeds. As a result, both the species of ant and abiotic conditions interact at the scale of 2 km to determine the fate of seeds interacting with ants, thus creating a mosaic of outcomes with variable benefits to plants.

Hexafluoroacetone as protecting and activating reagent: site-selective functionalization of iminodiacetic acid.

Hexafluoroacetone was applied as a bidentate protecting and activating agent for the syntheses of RGD-peptide mimetics starting from iminodiacetic acid in solution and on solid phase.

A multidisciplinary team approach to preservation of quality of life for patients following oral cancer surgery.

Knowledge of the etiology and pathophysiology of, and risk factors contributing to oral cavity cancer facilitates patient assessment and diagnosis. If untreated, oral cavity cancer can be disabling and potentially fatal. Even when treated, using the modalities discussed in this article, the patient experiences significant changes in body image and quality of life. The patient's physical and psychosocial needs must be identified pre-operatively and assessed throughout the post-operative period. By providing programs as described at the Toronto General Hospital utilizing a coordinated multidisciplinary team approach that encourages, supports, and nurtures patients and their significant others, an optimum quality of life may be established for this population. From the outset, patient education describing oral cancer and the course of treatment to follow, may contribute to the preservation and/or early return of optimum quality of life. Increased public knowledge and awareness of oral cavity cancer regarding risk factors and their potential effects may contribute to healthier life styles.

Chiral J-aggregates formed by achiral cyanine dyes.

The self-assembly of helical supramolecular structures from chiral building units is a basic principle of biological materials. The mesoscopic structure of a chiral molecular aggregate, which formed spontaneously from a nonchiral J-aggregating cyanine dye in aqueous solution, is presented. In single crystals (as shown in the picture) a coexistance of planar molecules with left- and right-handed twisted conformers of the same dye are found; the latter may act as templates to build up the helical superstructures.

Structure of influenza haemagglutinin at neutral and at fusogenic pH by electron cryo-microscopy.

The three-dimensional structures of the complete haemagglutinin (HA) of influenza virus A/Japan/305/57 (H2N2) in its native (neutral pH) and membrane fusion-competent (low pH) form by electron cryo-microscopy at a resolution of 10 A and 14 A, respectively, have been determined. In the fusion-competent form the subunits remain closely associated preserving typical overall features of the trimeric ectodomain at neutral pH. Rearrangements of the tertiary structure in the distal and the stem parts are associated with the formation of a central cavity through the entire ectodomain. We suggest that the cavity is essential for relocation of the so-called fusion sequence of HA towards the target membrane.

Topogenesis of a microsomal cytochrome P450 and induction of endoplasmic reticulum membrane proliferation in Saccharomyces cerevisiae.

Cytochrome P450 52A3 (P450Cm1) is one of the membrane proteins known to trigger by its high-level expression a marked proliferation of the endoplasmic reticulum, (ER). To gain insight into the relationship between the expression of a membrane protein and the induction of ER proliferation we have characterized the membrane topology of P450Cm1 and identified the structural determinants required for ER targeting, formation of correct membrane orientation, and ER retention. We show that all these features are interrelated and determined by sequence elements within the NH2-terminal region of P450Cm1. Using several approaches--a protease protection assay followed by probing with peptide-specific antibodies, immunolabeling of the intact membrane-bound P450 protein, and expression of fusion proteins in Saccharomyces cerevisiae--membrane topology was defined as follows: residues 2-16 are located in the ER lumen, only the first hydrophobic segment (residues 17-34) spans the membrane, a second hydrophobic segment (48-66) is exposed at the cytoplasmic side, and the remaining part (67-523) forms a large cytosolic domain. Fused to a cytosolic reporter protein, the first 44-amino-acid sequence of P450Cm1 was sufficient to mediate ER targeting, wild-type membrane orientation, and retention in the ER. Similar to wild-type P450Cm1, various fusion proteins were able to induce distinctly organized structures of proliferated ER provided that they were either permanently retained in the ER or accumulated in this compartment due to a delay in further transportation. Thus, we conclude that membrane insertion of the first hydrophobic segment is sufficient to deliver a signal for increased membrane formation.