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1. Direct microwave spectroscopy of Andreev bound states in planar Ge Josephson junctions

Author

Hinderling, M., Kate, S. C. ten, Coraiola, M., Haxell, D. Z., Stiefel, M., Mergenthaler, M., Paredes, S., Bedell, S. W., Sabonis, D., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

We demonstrate microwave measurements of the Andreev bound state (ABS) spectrum in planar Josephson junctions (JJs) defined in Ge high mobility two-dimensional hole gases contacted by superconducting PtSiGe. The JJs and readout circuitry are located on separate chips and inductively coupled via flip-chip bonding. For a device with $350~\mathrm{nm}$ junction length, spectroscopic signatures were consistent with the short-junction limit, with an induced superconducting gap $\Delta^{*}\approx48~\mathrm{\mu eV}$ and transmission $\tau \approx 0.94$. The interaction between the highest-transmission ABS and the resonator was well described by a Jaynes-Cummings model with a vacuum Rabi splitting of approximately $6~\mathrm{MHz}$. A device with junction length of $1~\mu m$ showed an ABS spectrum consistent with a long junction model. Time-resolved monitoring of the readout resonator in the dispersive regime revealed gate-voltage tunable junction parity fluctuations on the timescale of seconds. Our work indicates a viable path towards hybrid quantum devices based on planar Ge.

Published
2024
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2. Flux-Tunable Josephson Diode Effect in a Hybrid Four-Terminal Josephson Junction

Author

Coraiola, M., Svetogorov, A. E., Haxell, D. Z., Sabonis, D., Hinderling, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., Cuevas, J. C., Belzig, W., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

We investigate the direction-dependent switching current in a flux-tunable four-terminal Josephson junction defined in an InAs/Al two-dimensional heterostructure. The device exhibits the Josephson diode effect, with switching currents that depend on the sign of the bias current. The superconducting diode efficiency, reaching a maximum of $|\eta|\approx34\%$, is widely tunable - both in amplitude and sign - as a function of magnetic fluxes and gate voltages. Our observations are supported by a circuit model of three parallel Josephson junctions with non-sinusoidal current-phase relation. With respect to conventional Josephson interferometers, phase-tunable multiterminal Josephson junctions enable large diode efficiencies in structurally symmetric devices, where local magnetic fluxes break both time-reversal and spatial-inversion symmetries. Our work establishes a pathway to develop Josephson diodes with wide-range tunability and that do not rely on exotic materials or externally applied magnetic fields.

Published
2023
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3. Flip-chip-based fast inductive parity readout of a planar superconducting island

Author

Hinderling, M., Kate, S. C. ten, Haxell, D. Z., Coraiola, M., Paredes, S., Cheah, E., Krizek, F., Schott, R., Wegscheider, W., Sabonis, D., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

Properties of superconducting devices depend sensitively on the parity (even or odd) of the quasiparticles they contain. Encoding quantum information in the parity degree of freedom is central in several emerging solid-state qubit architectures. Yet, accurate, non-destructive, and time-resolved parity measurement is a challenging and long-standing issue. Here we report on control and real-time parity measurement in a superconducting island embedded in a superconducting loop and realized in a hybrid two-dimensional heterostructure using a microwave resonator. Device and readout resonator are located on separate chips, connected via flip-chip bonding, and couple inductively through vacuum. The superconducting resonator detects the parity-dependent circuit inductance, allowing for fast and non-destructive parity readout. We resolved even and odd parity states with signal-to-noise ratio SNR $\approx3$ with an integration time of $20~\mu$s and detection fidelity exceeding 98%. Real-time parity measurement showed state lifetime extending into millisecond range. Our approach will lead to better understanding of coherence-limiting mechanisms in superconducting quantum hardware and provide novel readout schemes for hybrid qubits.

Published
2023
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4. Spin-degeneracy breaking and parity transitions in three-terminal Josephson junctions

Author

Coraiola, M., Haxell, D. Z., Sabonis, D., Hinderling, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

Harnessing spin and parity degrees of freedom is of fundamental importance for the realization of emergent quantum devices. Nanostructures embedded in superconductor--semiconductor hybrid materials offer novel and yet unexplored routes for addressing and manipulating fermionic modes. Here we spectroscopically probe the two-dimensional band structure of Andreev bound states in a phase-controlled hybrid three-terminal Josephson junction. Andreev bands reveal spin-degeneracy breaking, with level splitting in excess of 9 GHz, and zero-energy crossings associated to ground state fermion parity transitions, in agreement with theoretical predictions. Both effects occur without the need of external magnetic fields or sizable charging energies and are tuned locally by controlling superconducting phase differences. Our results highlight the potential of multiterminal hybrid devices for engineering quantum states.

Published
2023
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5. Zeeman and Orbital Driven Phase Transitions in Planar Josephson Junctions

Author

Haxell, D. Z., Coraiola, M., Sabonis, D., Hinderling, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., and Nichele, F.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We perform supercurrent and tunneling spectroscopy measurements on gate-tunable InAs/Al Josephson junctions (JJs) in an in-plane magnetic field, and report on phase shifts in the current-phase relation measured with respect to an absolute phase reference. The impact of orbital effects is investigated by studying multiple devices with different superconducting lead sizes. At low fields, we observe gate-dependent phase shifts of up to ${\varphi_{0}=0.5\pi}$ which are consistent with a Zeeman field coupling to highly-transmissive Andreev bound states via Rashba spin-orbit interaction. A distinct phase shift emerges at larger fields, concomitant with a switching current minimum and the closing and reopening of the superconducting gap. These signatures of an induced phase transition, which might resemble a topological transition, scale with the superconducting lead size, demonstrating the crucial role of orbital effects. Our results elucidate the interplay of Zeeman, spin-orbit and orbital effects in InAs/Al JJs, giving new understanding to phase transitions in hybrid JJs and their applications in quantum computing and superconducting electronics.

Published
2023
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6. Demonstration of nonlocal Josephson effect in Andreev molecules

Author

Haxell, D. Z., Coraiola, M., Hinderling, M., Kate, S. C. ten, Sabonis, D., Svetogorov, A. E., Belzig, W., Cheah, E., Krizek, F., Schott, R., Wegscheider, W., and Nichele, F.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We perform switching current measurements of planar Josephson junctions (JJs) coupled by a common superconducting electrode, with independent control over the two superconducting phase differences. We observe an anomalous phase shift in the current--phase relation of a JJ as a function of gate voltage or phase difference in the second JJ. This demonstrates a nonlocal Josephson effect, and the implementation of a $\varphi_0$-junction which is tunable both electrostatically and magnetically. The anomalous phase shift was larger for shorter distances between the JJs and vanished for distances much longer than the superconducting coherence length. Results are consistent with the hybridization of ABSs, leading to the formation of an Andreev molecule. Our devices constitute a realization of a tunable superconducting phase source, and could enable new coupling schemes for hybrid quantum devices.

Published
2023
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7. Phase-engineering the Andreev band structure of a three-terminal Josephson junction

Author

Coraiola, M., Haxell, D. Z., Sabonis, D., Weisbrich, H., Svetogorov, A. E., Hinderling, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., Cuevas, J. C., Belzig, W., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

In hybrid Josephson junctions with three or more superconducting terminals coupled to a semiconducting region, Andreev bound states may form unconventional energy band structures, or Andreev matter, which are engineered by controlling superconducting phase differences. Here we report tunnelling spectroscopy measurements of three-terminal Josephson junctions realised in an InAs/Al heterostructure. The three terminals are connected to form two loops, enabling independent control over two phase differences and access to a synthetic Andreev band structure in the two-dimensional phase space. Our results demonstrate a phase-controlled Andreev molecule, originating from two discrete Andreev levels that spatially overlap and hybridise. Signatures of hybridisation are observed in the form of avoided crossings in the spectrum and band structure anisotropies in the phase space, all explained by a numerical model. Future extensions of this work could focus on addressing spin-resolved energy levels, ground state fermion parity transitions and Weyl bands in multiterminal geometries.

Published
2023
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8. Control over epitaxy and the role of the InAs/Al interface in hybrid two-dimensional electron gas systems

Author

Cheah, E., Haxell, D. Z., Schott, R., Zeng, P., Paysen, E., Kate, S. C. ten, Coraiola, M., Landstetter, M., Zadeh, A. B., Trampert, A., Sousa, M., Riel, H., Nichele, F., Wegscheider, W., and Krizek, F.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In-situ synthesised semiconductor/superconductor hybrid structures became an important material platform in condensed matter physics. Their development enabled a plethora of novel quantum transport experiments with focus on Andreev and Majorana physics. The combination of InAs and Al has become the workhorse material and has been successfully implemented in the form of one-dimensional structures and two-dimensional electron gases. In contrast to the well-developed semiconductor parts of the hybrid materials, the direct effect of the crystal nanotexture of Al films on the electron transport still remains unclear. This is mainly due to the complex epitaxial relation between Al and the semiconductor. We present a study of Al films on shallow InAs two-dimensional electron gas systems grown by molecular beam epitaxy, with focus on control of the Al crystal structure. We identify the dominant grain types present in our Al films and show that the formation of grain boundaries can be significantly reduced by controlled roughening of the epitaxial interface. Finally, we demonstrate that the implemented roughening does not negatively impact either the electron mobility of the two-dimensional electron gas or the basic superconducting properties of the proximitized system., Comment: 12 pages, 7 figures and supplementary material

Published
2023
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9. Flip-chip-based microwave spectroscopy of Andreev bound states in a planar Josephson junction

Author

Hinderling, M., Sabonis, D., Paredes, S., Haxell, D. Z., Coraiola, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

We demonstrate a flip-chip-based approach to microwave measurements of Andreev bound states in a gate-tunable planar Josephson junction using inductively-coupled superconducting low-loss resonators. By means of electrostatic gating, we present control of both the density and transmission of Andreev bound states. Phase biasing of the device shifted the resonator frequency, consistent with the modulation of supercurrent in the junction. Two-tone spectroscopy measurements revealed an isolated Andreev bound state consistent with an average induced superconducting gap of $184~\mathrm{\mu eV}$ and a gate-tunable transmission approaching $0.98$. Our results represent the feasibility of using the flip-chip technique to address and study Andreev bound states in planar Josephson junctions, and they give a promising path towards microwave applications with superconductor-semiconductor two-dimensional materials.

Published
2022
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10. Microwave-induced conductance replicas in hybrid Josephson junctions without Floquet-Andreev states

Author

Haxell, D. Z., Coraiola, M., Sabonis, D., Hinderling, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., Belzig, W., Cuevas, J. C., and Nichele, F.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

Light-matter interaction enables engineering of non-equilibrium quantum systems. In condensed matter, spatially and temporally cyclic Hamiltonians are expected to generate energy-periodic Floquet states, with properties inaccessible at thermal equilibrium. A recent work explored the tunnelling conductance of a planar Josephson junction under microwave irradiation, and interpreted replicas of conductance features as evidence of steady Floquet-Andreev states. Here we realise a similar device in a hybrid superconducting-semiconducting heterostructure, which utilises a tunnelling probe with gate-tunable transparency and allows simultaneous measurements of Andreev spectrum and current-phase relation of the planar Josephson junction. We show that, in our devices, spectral replicas in sub-gap conductance emerging under microwave irradiation are caused by photon assisted tunnelling of electrons into Andreev states. The current-phase relation under microwave irradiation is also explained by the interaction of Andreev states with microwave photons, without the need to invoke Floquet states. The techniques outlined in this study establish a baseline to distinguish photon assisted tunnelling from Floquet-Andreev states in mesoscopic devices, a crucial development towards understanding light-matter coupling in hybrid nanostructures.

Published
2022
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12. Hybridisation of Andreev bound states in three-terminal Josephson junctions

Author

Coraiola, M., Haxell, D. Z., Sabonis, D., Weisbrich, H., Svetogorov, A. E., Hinderling, M., Kate, S. C. ten, Cheah, E., Krizek, F., Schott, R., Wegscheider, W., Cuevas, J. C., Belzig, W., and Nichele, F.

Subjects
Superconductivity (cond-mat.supr-con), Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences
Abstract

Hybrid Josephson junctions with three or more superconducting terminals coupled to a semiconducting region are expected to exhibit a rich variety of phenomena. Andreev bound states (ABSs) arising in such multiterminal devices have been predicted to form unconventional energy band structures, which can be engineered by controlling superconducting phase differences between the individual terminals. Here we report tunnelling spectroscopy measurements of three-terminal Josephson junctions (3TJJs) realised in a gate-tunable InAs/Al heterostructure. The three terminals are connected to form two loops where phase differences are independently controlled. Our results provide a demonstration of phase control over a novel Andreev band structure. Signatures of hybridisation between ABSs, consistent with their overlap in the 3TJJ region, are observed in the form of avoided crossings in the spectrum and are well explained by a numerical model. Future extensions of this work could focus on addressing spin-resolved energy levels, ground state parity transitions and Weyl bands in multiterminal geometries.

Published
2023

13. WLIP and Analogues of Tolaasin I, Lipodepsipeptides from Pseudomonas reactans and Pseudomonas tolaasii: A Comparison of Their Activity on Natural and Model Membranes

Author

Paletti, R., Coraiola, M., Cimmino, A., Cantore, P. Lo, Evidente, A., Iacobellis, Nicola Sante, Serra, M. Dalla, Fatmi, M'Barek, editor, Collmer, Alan, editor, Iacobellis, Nicola Sante, editor, Mansfield, John W., editor, Murillo, Jesus, editor, Schaad, Norman W., editor, and Ullrich, Matthias, editor

Published
2008
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14. Interaction of Tolaasin I and WLIP, Lipodepsipeptides of Pseudomonas tolaasii and P. 'reactans ', with Biological and Model Membranes

Author

Lo Cantore, P., Coraiola, M., Dalla Serra, M., Menestrina, G., Lazzaroni, S., Evidente, A., Iacobellis, N. S., Iacobellis, Nicola Sante, editor, Collmer, Alan, editor, Hutcheson, Steven W., editor, Mansfield, John W., editor, Morris, Cindy E., editor, Murillo, Jesus, editor, Schaad, Norman W., editor, Stead, David E., editor, Surico, Giuseppe, editor, and Ullrich, Matthias S., editor

Published
2003
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15. Antimicrobial Lipodepsipeptides from Pseudomonas spp: a Comparison of Their Activity on Model Membranes

Author

Menestrina, G., Coraiola, M., Fogliano, V., Fiore, A., Grgurina, I., Carpaneto, A., Gambale, F., Dalla Serra, M., Iacobellis, Nicola Sante, editor, Collmer, Alan, editor, Hutcheson, Steven W., editor, Mansfield, John W., editor, Morris, Cindy E., editor, Murillo, Jesus, editor, Schaad, Norman W., editor, Stead, David E., editor, Surico, Giuseppe, editor, and Ullrich, Matthias S., editor

Published
2003
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17. Site-directed mutagenesis to assess the binding capacity of class S protein of Staphylococcus aureus leucotoxins to the surface of polymorphonuclear cells

Author

Moussa, L. Baba, Werner, S., Coraiola, M., Colin, D.A., Keller, D., Sanni, A., Serra, M. Dalla, Monteil, H., and Prevost, G.

Subjects
Research, Staphylococcus aureus -- Research, Protein S -- Research, Mutagenesis -- Research, Neutrophils -- Research
Abstract

Staphylococcal leucotoxins result from the association of class S components and class F component inducing the activation and the permeabilization of the target cells. Like α-toxin, the leucotoxins are pore-forming [...]

Published
2006

18. Fuscopeptins, antimicrobial lipodepsipeptides from Pseudomonas fuscovaginae, are channel forming peptides active on biological and model membranes

Author

Coraiola M, Paletti R, Fiore A, Serra M.D., FOGLIANO, VINCENZO, Coraiola, M, Paletti, R, Fiore, A, Fogliano, Vincenzo, and Serra, M. D.

Subjects
Erythrocytes, Lipid Bilayers, Molecular Sequence Data, Membranes, Artificial, Hydrogen-Ion Concentration, Hemolysis, Models, Biological, Peptides, Cyclic, Ion Channels, Structure-Activity Relationship, Anti-Infective Agents, Pseudomonas, Liposomes, Humans, Amino Acid Sequence, Ion Channel Gating
Abstract

FP-A and FP-B are LDPs produced by the plant pathogen Pseudomonas fuscovaginae. As expected from their primary structure, they shared a similar mechanism of action with the better characterized SPs, synthesized by strains of Pseudomonas syringae pv. syringae. Indeed, they displayed hemolytic activity on human erythrocytes and were able to induce calcein release from LUVs: the effect was dependent on the concentration of the FPs and the lipid composition of the liposome and, in particular, it increased with the SM content of the membrane. The permeabilizing activity was further investigated on PLMs. FPs were able to open pores on pure POPC membranes. Pore opening was strongly voltage dependent: by switching the potential from negative to positive values, an increase in the absolute amplitude of transmembrane current was induced with simultaneous closure of pores. In 0.1 M KCl both FPs' pores had a conductance of 4 and 9 pS at - 140 mV and + 140 mV, respectively. Studies on ion selectivity indicated that FPs formed cation-selective channels.

Published
2007

19. Structure, conformation and biological activity of novel lipodepsipeptides from Pseudomonas corrugata: the cormycins

Author

SCALONI A., DALLA SERRA M., AMODEO P., MANNINA L., VITALE R.M., SEGRE A.L., CRUCIANI O., LODOVICHETTI F., GRECO M.L., FIORE A., DAMBROSIO C., CORAIOLA M., MENESTRINA G., GRANITI A., GALLO, MONICA, FOGLIANO, VINCENZO, Scaloni, A., DALLA SERRA, M., Amodeo, P., Mannina, L., Vitale, R. M., Segre, A. L., Cruciani, O., Lodovichetti, F., Greco, M. L., Fiore, A., Gallo, Monica, Dambrosio, C., Coraiola, M., Menestrina, G., Graniti, A., and Fogliano, Vincenzo

Abstract

Cationic lipodepsipeptides from Pseudomonas spp. have been characterized for their structural and antimicrobial properties. In the present study, the structure of a novel lipodepsipeptide, cormycin A, produced in culture by the tomato pathogen Pseudomonas corrugata was elucidated by combined protein chemistry, mass spectrometry and two-dimensional NMR procedures. Its peptide moiety corresponds to L-Ser-D-Orn-L-Asn-D-Hse-L-His- L-aThr-Z-Dhb-L-Asp(3-OH)-L-Thr(4-Cl) [where Orn represents ornithine, Hse is homoserine, aThr is allo-threonine, Z-Dhb is 2,3- dehydro-2-aminobutanoic acid, Asp(3-OH) is 3-hydroxyaspartic acid and Thr(4-Cl) is 4-chlorothreonine], with the terminal carboxy group closing a macrocyclic ring with the hydroxy group of the N-terminal serine residue. This is, in turn, N-acylated by 3,4-dihydroxy-esadecanoate. In aqueous solution, cormycin A showed a rather compact structure, being derived from an inward orientation of some amino acid side chains and from the ‘hairpinbent’ conformation of the lipid, due to inter-residue interactions involving its terminal part. Cormycin was significantly more active than the other lipodepsipeptides from Pseudomonas spp., as demonstrated by phytotoxicity and antibiosis assays, as well as by red-blood-cell lysis. Differences in biological activity were putatively ascribed to its weak positive net charge at neutral pH. Planar lipid membrane experiments showed step-like current transitions, suggesting that cormycin is able to form pores. This ability was strongly influenced by the phospholipid composition of the membrane and, in particular, by the presence of sterols. All of these findings suggest that cormycin derivatives could find promising applications, either as antifungal compounds for topical use or as post-harvest biocontrol agents.

Published
2004

21. Structural features affecting antimicrobial activity, membrane interaction and resistance to proteases of distinctin

Author

Dalla Serra M, Cirioni O, Vitale RM, Renzone G, Coraiola M, Giacometti A, Potrich C, Baroni E, Guella G, Sanseverino M, De Luca S, Scalise G, Amodeo P, and Scaloni A.

Abstract

The antimicrobial peptide distinctin consists of two peptide chains linked by a disulfide bridge; it presents a peculiar fold in water resulting from noncovalent dimerization of two heterodimeric molecules. To investigate the contribution of each peptide chain and the S-S bond to distinctin biochemical properties, different monomeric and homodimeric peptide analogues were synthesized and comparatively evaluated with respect to the native molecule. Our experiments demonstrate that the simultaneous occurrence of both peptide chains and the disulfide bond is essential for the formation of the quaternary structure of distinctin in aqueous media, able to resist protease action. In contrast, distinctin and monomeric and homodimeric analogues exhibited comparable antimicrobial activities, suggesting only a partial contribution of the S-S bond to peptide killing effectiveness. Relative bactericidal properties paralleled liposome permeabilization results, definitively demonstrating that microbial membranes are the main target of distinctin activity. Various biophysical experiments performed in membrane-mimicking media, before and after peptide addition, provided information about peptide secondary structure, lipid bilayer organization, and lipid-peptide orientation with respect to membrane surface. These data were instrumental in the generation of putative models of peptide-lipid supramolecular pore complexes.

Published
2008
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22. Peptides corresponding to helices 5 and 6 of Bax can independently form large pores of lipidic nature

Author

García-Sáez A. J., Coraiola M., Dalla Serra M., Mingarro I., Muller P., and Salgado J.

Abstract

Proteins of the B-cell lymphoma protein 2 (Bcl2) family are key regulators of the apoptotic cascade, controlling the release of apoptotic factors from the mitochondrial intermembrane space. A helical hairpin found in the core of water-soluble folds of these proteins has been reported to be the pore-forming domain. Here we show that peptides including any of the two alpha-helix fragments of the hairpin of Bcl2 associated protein X (Bax) can independently induce release of large labelled dextrans from synthetic lipid vesicles. The permeability promoted by these peptides is influenced by intrinsic monolayer curvature and accompanied by fast transbilayer redistribution of lipids, supporting a toroidal pore mechanism as in the case of the full-length protein. However, compared with the pores made by complete Bax, the pores made by the Bax peptides are smaller and do not need the concerted action of tBid. These data indicate that the sequences of both fragments of the hairpin contain the principal physicochemical requirements for pore formation, showing a parallel between the permeabilization mechanism of a complex regulated protein system, such as Bax, and the much simpler pore-forming antibiotic peptides.

Published
2006

25. Crystal structure of leucotoxin S component: new insight into the staphylococcal beta-barrel pore-forming toxins

Author

Guillet V., Roblin P., Werner S., Coraiola M., Menestrina G., Monteil H., Prevost G., and Mourey L.

Abstract

Staphylococcal leucocidins and gamma-hemolysins (leucotoxins) are bi-component toxins that form lytic transmembrane pores. Their cytotoxic activities require the synergistic association of a class S component and a class F component, produced as water-soluble monomers that form hetero-oligomeric membrane-associated complexes. Strains that produce the Panton-Valentine leucocidin are clinically associated with cutaneous lesions and community-acquired pneumonia. In a previous study, we determined the crystal structure of the F monomer from the Panton-Valentine leucocidin. To derive information on the second component of the leucotoxins, the x-ray structure of the S protein from the Panton-Valentine leucocidin was solved to 2.0 angstrom resolution using a tetragonal crystal form that contains eight molecules in the asymmetric unit. The structure demonstrates the different conformation of the domain involved in membrane contacts and illustrates sequence and tertiary structure variabilities of the pore-forming leucotoxins. Mutagenesis studies at a key surface residue (Thr-28) further support the important role played by these microheterogeneities for the assembly of the bipartite leucotoxins.

Published
2004

34. Protein engineering modulates the transport properties and ion selectivity of the pores formed by staphylococcal gamma-hemolysins in lipid membranes

Author

Comai M. 1, Dalla Serra M. 1, Coraiola M. 1, Werner S. 1, 2, Colin D.A. 2, Privost G. 2, and Menestrina G. 1

Abstract

Staphylococcal gamma-haemolysins are bicomponent toxins in a family including other leucocidins and alpha-toxin. Two active toxins are formed combining HlgA or HlgC with HlgB. Both open pores in lipid membranes with conductance, current voltage characteristics and stability similar to alpha-toxin, but different selectivity (cation instead of anion). Structural analogies between gamma-haemolysins and alpha-toxin indicate the presence, at the pore entry, of a conserved region containing four positive charges in alpha-toxin, but either positive or negative in gamma- haemolysins. Four mutants were produced (HlgA D44K, HlgB D47K, HlgB D49K and HlgB D47K/D49K) converting those negative charges to positive in HlgA and HlgB. When all charges were positive, the pores had the same selectivity and conductance as alpha-toxin, suggesting that the cluster may form an entrance electrostatic filter. As mutated HlgC-HlgB pores were less affected, additional charges in the lumen of the pore were changed (HlgB E107Q, HlgB D121N, HlgB T136D and HlgA K108T). Removing a negative charge from the lumen made the selectivity of both HlgA-HlgB D121N and HlgC-HlgB D121N more anionic. Residue D121 of HlgB is compensated by a positive residue (HlgA K108) in the HlgA-HlgB pore, but isolated in the more cation-selective HlgC-HlgB pore. Interestingly, the pore formed by HlgA K108T-HlgB, in which the positive charge of HlgA was removed, was as cation selective as HlgC-HlgB. Meanwhile, the pore formed by HlgA K108T-HlgB D121N, in which the two charge changes compensated, retrieved the properties of wild-type HlgA-HlgB. We conclude that the conductance and selectivity of the gamma-haemolysin pores depend substantially on the presence and location of charged residues in the channel.

Published
2002

37. Seed production of a subalpine Festuca nigrescens – Agrostis capillaris semi-natural grassland in the eastern Italian Alps.

Author

Scotton, M., Piccinin, L., and Coraiola, M.

Subjects
SEED production (Botany), MOUNTAIN plants, FESCUE, AGROSTIS, MOUNTAIN grasslands, REGENERATION (Botany)
Abstract

Studying the seed production of semi-natural grasslands helps to understand their regeneration processes and to evaluate the possibility of collecting seed useful for ecological restoration. In a subalpineFestuca nigrescens–Agrostis capillaris meadow, the development of the main grasses' seed production and the standing seed yield at meadow maturity were studied. The inflorescence size was in the lower part of the variation range reported in previous studies. The seed viability was average to high and durable. The biological floret site utilization was mostly above 50%. With 458 fertile stems m− 2, the seeds produced (all seeds produced up to the time of the meadow maturity) by the main grasses were 21,000 m− 2, of which 77% were ofA. capillarisand 81% were viable. On a 3-year average, the standing seed yield (seeds present on the plants, i.e. produced minus shed seeds) at meadow maturity was 6953 seeds m− 2. Amount and composition of the produced seeds were affected mainly by the variability among years of the fertile stems density of the perennial grasses and the annual hemiparasiteRhinanthus freynii. The percentage of produced seeds which formed the standing seed yield was affected mainly by the collecting date. [ABSTRACT FROM AUTHOR]

Published
2015
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41. Fuscopeptins, antimicrobial lipodepsipeptides from Pseudomonas fuscovaginae, are channel forming peptides active on biological and model membranes.

Author

Coraiola, M., Paletti, R., Fiore, A., Fogliano, V., and Serra, M. Dalla

Abstract

FP-A and FP-B are LDPs produced by the plant pathogen Pseudomonas fuscovaginae. As expected from their primary structure, they shared a similar mechanism of action with the better characterized SPs, synthesized by strains of Pseudomonas syringae pv. syringae. Indeed, they displayed hemolytic activity on human erythrocytes and were able to induce calcein release from LUVs: the effect was dependent on the concentration of the FPs and the lipid composition of the liposome and, in particular, it increased with the SM content of the membrane. The permeabilizing activity was further investigated on PLMs. FPs were able to open pores on pure POPC membranes. Pore opening was strongly voltage dependent: by switching the potential from negative to positive values, an increase in the absolute amplitude of transmembrane current was induced with simultaneous closure of pores. In 0.1 M KCl both FPs' pores had a conductance of 4 and 9 pS at − 140 mV and + 140 mV, respectively. Studies on ion selectivity indicated that FPs formed cation-selective channels. Copyright © 2007 European Peptide Society and John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2008
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42. Staphylococcus aureus Bicomponent γ-Hemolysins, HlgA, HlgB, and HlgC, Can Form Mixed Pores Containing All Components

Author

Serra, M. Dalla, Coraiola, M., Viero, G., Comai, M., Potrich, C., Ferreras, M., Baba-Moussa, L., Colin, D. A., Menestrina, G., Bhakdi, S., and Prevost, G.

Abstract

Staphylococcal γ-hemolysins are bicomponent toxins forming a protein family with leucocidins and α-toxin. Two active toxins (AB and CB) can be formed combining one of the class-S components, HlgA or HlgC, with the class-F component HlgB. These two γ-hemolysins form pores with marked similarities to α-toxin in terms of conductance, nonlinearity of the current−voltage curve, and channel stability in the open state. AB and CB pores, however, are cation-selective, whereas α-toxin is anion-selective. γ-Hemolysins' pores are hetero-oligomers formed by three or four copies of each component (indicated as 3A3B and 3C3B or 4A4B and 4C4B). Point mutants located on a β-strand of the class-S component that forms part of the protomer−protomer contact region can prevent oligomer assembly. Interestingly, these mutants inhibit growth of pores formed not only by their natural components but also by nonstandard components. This lead to the hypothesis that mixed ABC pores could also be formed. By studying the conductance of pores, assembled in the presence of all three components (in different ratios), it was observed that the magnitudes expected for mixed pores were, indeed, present. We conclude that the γ-hemolysin/leucocidin bicomponent toxin family may form a larger than expected number of active toxins by cross-combining various S and F components.

Published
2005

46. Flux-Tunable Josephson Diode Effect in a Hybrid Four-Terminal Josephson Junction.

Author

Coraiola M, Svetogorov AE, Haxell DZ, Sabonis D, Hinderling M, Ten Kate SC, Cheah E, Krizek F, Schott R, Wegscheider W, Cuevas JC, Belzig W, and Nichele F

Abstract

We investigate the direction-dependent switching current in a flux-tunable four-terminal Josephson junction defined in an InAs/Al two-dimensional heterostructure. The device exhibits the Josephson diode effect with switching currents that depend on the sign of the bias current. The superconducting diode efficiency, reaching a maximum of |η| ≈ 34%, is widely tunable─both in amplitude and sign─as a function of magnetic fluxes and gate voltages. Our observations are supported by a circuit model of three parallel Josephson junctions with nonsinusoidal current-phase relation. With respect to conventional Josephson interferometers, phase-tunable multiterminal Josephson junctions enable large diode efficiencies in structurally symmetric devices, where local magnetic fluxes generated on the chip break both time-reversal and spatial symmetries. Our work presents an approach for developing Josephson diodes with wide-range tunability that do not rely on exotic materials.

Published
2024
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47. Microwave-induced conductance replicas in hybrid Josephson junctions without Floquet-Andreev states.

Author

Haxell DZ, Coraiola M, Sabonis D, Hinderling M, Ten Kate SC, Cheah E, Krizek F, Schott R, Wegscheider W, Belzig W, Cuevas JC, and Nichele F

Abstract

Light-matter coupling allows control and engineering of complex quantum states. Here we investigate a hybrid superconducting-semiconducting Josephson junction subject to microwave irradiation by means of tunnelling spectroscopy of the Andreev bound state spectrum and measurements of the current-phase relation. For increasing microwave power, discrete levels in the tunnelling conductance develop into a series of equally spaced replicas, while the current-phase relation changes amplitude and skewness, and develops dips. Quantitative analysis of our results indicates that conductance replicas originate from photon assisted tunnelling of quasiparticles into Andreev bound states through the tunnelling barrier. Despite strong qualitative similarities with proposed signatures of Floquet-Andreev states, our study rules out this scenario. The distortion of the current-phase relation is explained by the interaction of Andreev bound states with microwave photons, including a non-equilibrium Andreev bound state occupation. The techniques outlined here establish a baseline to study light-matter coupling in hybrid nanostructures and distinguish photon assisted tunnelling from Floquet-Andreev states in mesoscopic devices., (© 2023. The Author(s).)

Published
2023
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48. A new index for assessing the value of importance of species--VIS.

Author

Netto SP, Amaral MK, and Coraiola M

Subjects
Brazil, Models, Biological, Population Density, Species Specificity, Tropical Climate, Biodiversity, Ecological Parameter Monitoring methods, Forests
Abstract

Phytosociological analysis in native forests is performed considering the horizontal and vertical structure of the studied population, whose most expressive parameters are the density, dominance, frequency, value of coverage and value of importance of species. Many phytosociological studies include a value of importance of species calculated by adding density, dominance and frequency, in their relative forms, however, this estimator is a mathematical impropriety because the result is a sum of indexes and does not express the true meaning of species' value. This is because the estimator is still influenced predominantly by the density of occurrence of species and cannot capture the relevant hierarchical participation of emerging species that occur with low density in the biocoenosis. In this work, we propose a new index to characterize the value of importance of species based on the hierarchy and spatial absolute probability of the species in the biocoenosis, illustrated with data from a forest fragment of semideciduous tropical forest located in Cassia, MG, Brazil. The new index appropriately expressed the importance of species in the evaluated fragment.

Published
2015
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49. EPR and FTIR studies reveal the importance of highly ordered sterol-enriched membrane domains for ostreolysin activity.

Author

Rebolj K, Bakrac B, Garvas M, Ota K, Sentjurc M, Potrich C, Coraiola M, Tomazzolli R, Dalla Serra M, Macek P, and Sepcić K

Subjects
Animals, Electron Spin Resonance Spectroscopy, Fungal Proteins chemistry, Liposomes chemistry, Membrane Microdomains chemistry, Membrane Microdomains metabolism, Spectroscopy, Fourier Transform Infrared, Sphingomyelins chemistry, Swine, Cell Membrane chemistry, Hemolysin Proteins chemistry, Sterols chemistry
Abstract

Ostreolysin is a cytolytic protein from the edible oyster mushroom (Pleurotus ostreatus), which recognizes specifically and binds to raft-like sterol-enriched membrane domains that exist in the liquid-ordered phase. Its binding can be abolished by micromolar concentrations of lysophospholipids and fatty acids. The membrane activity of ostreolysin, however, does not completely correlate with the ability of a certain sterol to induce the formation of a liquid-ordered phase, suggesting that the protein requires an additional structural organization of the membrane to exert its activity. The aim of this study was to further characterize the lipid membranes that facilitate ostreolysin binding by analyzing their lipid phase domain structure. Fourier-transformed infrared spectroscopy (FTIR) and electron paramagnetic resonance (EPR) were used to analyze the ordering and dynamics of membrane lipids and the membrane domain structure of a series of unilamellar liposomes prepared by systematically changing the lipid components and their ratios. Our results corroborate the earlier conclusion that the average membrane fluidity of ostreolysin-susceptible liposomes alone cannot account for the membrane activity of the protein. Combined with previous data computer-aided interpretation of EPR spectra strongly suggests that chemical properties of membrane constituents, their specific distribution, and physical characteristics of membrane nanodomains, resulting from the presence of sterol and sphingomyelin (or a highly ordered phospholipid, dipalmitoylphosphatidylcholine), are essential prerequisites for ostreolysin membrane binding and pore-formation., (2010 Elsevier B.V. All rights reserved.)

Published
2010
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50. Biological characterization of white line-inducing principle (WLIP) produced by Pseudomonas reactans NCPPB1311.

Author

Lo Cantore P, Lazzaroni S, Coraiola M, Dalla Serra M, Cafarchia C, Evidente A, and Lacobellis NS

Subjects
Anti-Infective Agents isolation & purification, Bacteria drug effects, Bacterial Proteins isolation & purification, Bacterial Toxins isolation & purification, Depsipeptides isolation & purification, Fungi drug effects, Hemolysis drug effects, Anti-Infective Agents pharmacology, Bacterial Proteins pharmacology, Bacterial Toxins pharmacology, Depsipeptides pharmacology, Pseudomonas chemistry
Abstract

The biological activities of the lipodepsipeptides (LDP) white line-inducing principle (WLIP), produced by Pseudomonas reactans NCPPB1311, and tolaasin I, produced by R tolaasii NCPPB2192, were compared. Antimicrobial assays showed that both LDP inhibited the growth of fungi-including the cultivated mushrooms Agaricus bisporus, Lentinus edodes, and Pleurotus spp.--chromista, and gram-positive bacteria. Assays of the two LDP on blocks of Agaricus bisporus showed their capacity to alter the mushrooms' pseudo-tissues though WLIP was less active than that of tolaasin I. Contrary to previous studies, tolaasin I was found to inhibit the growth of gram-negative bacteria belonging to the genera Escherichia, Erwinia, Agrobacterium, Pseudomonas, and Xanthomonas. The only gram-negative bacterium affected by WLIP was Erwinia carotovora subsp. carotovora. Both WLIP and tolaasin I caused red blood cell lysis through a colloid-osmotic shock mediated by transmembrane pores; however, the haemolytic activity of WLIP was greater than that of tolaasin I. Transmembrane pores, at a concentration corresponding to 1.5 x C50, showed a radius between 1.5 and 1.7 +/- 0.1 nm for WLIP and 2.1 +/- 0.1 nm for tolaasin I. The antifungal activity of WLIP together with the finding that avirulent morphological variants of P. reactans lack WLIP production suggests that WLIP may play an important role in the interaction of the producing bacterium P. reactans and cultivated mushrooms.

Published
2006
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