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30 results about "Α helical" patented technology

Triazole macrocycle systems

The present invention provides novel peptidomimetic macrocycles and methods for their preparation and use, as well as amino acid analogs and macrocycle-forming linkers, and kits useful in their production. In various embodiments, the peptidomimetic macrocycles are of Formula I:The linker L includes a triazole moiety. Peptidomimetic macrocycles according to the invention may exhibit increased α-helical or beta sheet structure in aqueous solution compared to a corresponding non-macrocyclic polypeptide.
Owner:AILERON THERAPEUTICS INC

Peptide conjugates for the stabilization of membrane proteins and interactions with biological membranes

The present invention provides a novel class of detergents referred to herein as lipopeptide detergents. Lipopeptide detergents comprise an amphipathic α-helical peptide having a hydrophobic or neutral face and a hydrophilic face. To each end of this peptide is covalently linked an aliphatic hydrocarbon tail, these aliphatic tails being linked thereto such that they associate with the hydrophobic or neutral face of the peptide. Lipopeptide detergents can advantageously be used to stabilize membrane proteins in the absence of a phospholipid bilayer in a manner that preserves the native conformation and permits the subsequent crystallization thereof.
Owner:UNIV HEALTH NETWORK

Stabilized bioactive peptides and methods of identification, synthesis, and use

InactiveUS20060099571A1Slow down rate of intracellular degradationBacteriaPeptide/protein ingredientsLac operonΑ helical
An intracellular selection system allows screening for peptide bioactivity and stability. Randomized recombinant peptides are screened for bioactivity in a tightly regulated expression system, preferably derived from the wild-type lac operon. Bioactive peptides thus identified are inherently protease- and peptidase-resistant. Also provided are bioactive peptides stabilized by a stabilizing group at the N-terminus, the C-terminus, or both. The stabilizing group can be a small stable protein, such as the Rop protein, glutathione sulfotransferase, thioredoxin, maltose binding protein, or glutathione reductase, an α-helical moiety, or one or more proline residues.
Owner:PEPTIDE BIOSCI

Fabrication of a cartilage implant

A method of fabricating a cartilage implant including embedding and growing chondrocytes or mesenchymal stem cells in a three-dimensional substrate. The substrate contains randomly rewound α-helical monomers of type I collagen.
Owner:TAIPEI BIOTECH

Selective detection of proteins that contain two or more alpha-helical transmembrane domains

Embodiments of the present invention provide a staining solution and of method of using the staining solution for selectively detecting proteins that contain two or more α-helical transmembrane domains. The staining solution comprises a lipophilic dyes and at least about a 30% hydrophobic solvent. The dyes of the present are represented by the general formula A-B-E wherein A is a nitrogen heterocycle, B is a bridge moiety and E is an electron pair accepting moiety that comprises either a carbonyl or nitrogen atom. In one embodiment these lipophilic dyes are merocyanine dye, a cyanine dye, a styryl dye or a carbazolylvinyl dye.
Owner:LIFE TECH CORP

Multi-domain amphipathic helical peptides and methods of their use

Disclosed herein are peptides or peptide analogs with multiple amphipathic α-helical domains that promote lipid efflux from cells via an ABCA1-dependent pathway. Also provided herein are methods of using multi-domain amphipathic α-helical peptides or peptide analogs to treat or inhibit dyslipidemic disorders. Methods for identifying non-cytotoxic peptides that promote ABCA1-dependent lipid efflux from cells are also disclosed herein.
Owner:UNITED STATES OF AMERICA

Targeted human-interferon fusion proteins

This disclosure relates to a modified α-helical bundle cytokine, with reduced activity via an α-helical bundle cytokine receptor, wherein the α-helical bundle cytokine is specifically delivered to target cells. Preferably, the α-helical bundle cytokine is a mutant, more preferably it is a mutant interferon, with low affinity to the interferon receptor, wherein the mutant interferon is specifically delivered to target cells. The targeting is realized by fusion of the modified α-helical bundle cytokine to a targeting moiety, preferably an antibody. This disclosure relates further to the use of such targeted modified α-helical bundle cytokine to treat diseases. A preferred embodiment is the use of a targeted mutant interferon, to treat diseases, preferably viral diseases and tumors.
Owner:VLAAMS INTERUNIVERSITAIR INST VOOR BIOTECHNOLOGIE VZW +4

Core structure of gp41 from the HIV envelope glycoprotein

Described are the crystal structure of the α-helical domain of the gp41 component of HIV-1 envelope glycoprotein which represents the core of fusion-active gp41, methods of identifying and designing drugs which inhibit gp41 function and drugs which do so.
Owner:WHITEHEAD INST FOR BIOMEDICAL RES

Peptides promoting lipid efflux via abca1 and activating a lipoprotein lipase

Disclosed herein are peptides and peptide analogs with multiple amphipathic α-helical domains that promote lipid efflux from cells via an ABCA1-dependent pathway, as well as peptides that activate lipoprotein lipase, and compositions comprising such peptides or combinations thereof. Also provided herein are methods of using multi-domain amphipathic α-helical peptides or peptide analogs to treat or inhibit dyslipidemic disorders. Methods for identifying non-cytotoxic peptides that promote ABCA1-dependent lipid efflux from cells and activate lipoprotein lipase within cells are also disclosed herein.
Owner:UNITED STATES OF AMERICA

A dual-targeted therapeutic peptide for nasopharyngeal carcinoma, nanoparticles carrying same and uses thereof

Disclosed is a dual-targeted therapeutic peptide for nasopharyngeal carcinoma formed by covalently linking a targeted therapeutic peptide for nasopharyngeal carcinoma, a peptide linker and a targeted therapeutic peptide with an α-helical structure for nasopharyngeal carcinoma. Also disclosed is a nanoparticle containing the peptide. The peptide and the nanoparticle can be used to treat nasopharyngeal carcinoma.
Owner:HUAZHONG UNIV OF SCI & TECH

Alpha-helical protein based materials and methods for making same

The invention relates to a method of producing useful materials from filament-forming α-helical proteins or filaments made of such proteins. The method comprises allowing filament-formingα-helical proteins to self-assemble into α-helix containing filaments and forming fibres, films or bulk materials from the filaments. The materials are stretched to strain the filaments so that the α-helices substantially irreversibly change to β-sheet forms. The filament-forming α-helical proteins can comprise intermediate filament proteins. In a specific embodiment, the filament-forming proteins comprise hagfish slime thread IF proteins.
Owner:GOSLINE JOHN M DR +2

Peptides promoting lipid efflux

Disclosed herein are peptides and peptide analogs with multiple amphipathic α-helical domains that promote lipid efflux from cells via an ABCA1-dependent pathway, as well as peptides that activate lipoprotein lipase, and compositions comprising such peptides or combinations thereof. Also provided herein are methods of using multi-domain amphipathic α-helical peptides or peptide analogs to treat or inhibit dyslipidemic disorders. Methods for identifying non-cytotoxic peptides that promote ABCA1-dependent lipid efflux from cells and activate lipoprotein lipase within cells are also disclosed herein.
Owner:UNITED STATES OF AMERICA

Bilaterally-substituted tricyclic compounds for the treatment of human immunodeficiency virus type-1 (hiv-1) infection and other diseases

InactiveUS20160108024A1Inhibiting RRE-Rev interactionDull appearanceAntibacterial agentsBiocideDiseaseΑ helical
The invention relates to novel bilaterally-substituted tricyclic compounds and pharmaceutical compositions containing them, for use as medicaments.Due to their ability to interact with an internal RNA loop and to mimic a protein α-helix these compounds are effective in the treatment and / or prevention of HIV-1 (Human Immunodeficiency Virus-1) infection and other diseases such as those caused by other RNA viruses and by gram-positive and gram-negative bacteria, or infectious or chronic diseases responsive to inhibition of DNA transcription, or infectious or chronic diseases where these compounds can be used to modulate the function of RNA internal loops, or infectious or chronic diseases where these compounds can be used as agonists or inhibitors of α-helical proteins in interaction with other biomolecules.
Owner:INST DE SALUD CARLOS III +2

Novel Alpha-Helical Peptidomimetic Inhibitors And Methods Using Same

The present invention includes a novel class of highly specific protease inhibitors. In one embodiment, the inhibitors of the invention are α-helical in structure. In another embodiment, the present invention represents the first demonstration of a highly specific cysteine protease inhibitor.
Owner:THE TRUSTEES OF THE UNIV OF PENNSYLVANIA

Nociceptin mimetics

The present invention relates to nociceptin peptide mimetics that have α-helical structures and bind to and modulate the opioid receptor-like-1 (ORL-1) receptor. The peptide mimetics are constrained cyclic nociceptin analogs which have either agonist or antagonist activity. Pharmaceutical compositions comprising the nociceptin peptide mimetics and methods of treating or preventing a disease or condition ameliorated by modulating the ORL-1 receptor are also described.
Owner:THE UNIV OF QUEENSLAND

Nanoemulsions

ActiveUS20150132395A1Improved pharmacokinetic and targeting propertyEasy to prepareBiocidePeptide/protein ingredientsActive agentΑ helical
The invention relates to nanoemulsions useful for analytical techniques and delivery of cargoes such as pharmaceutically active agents. In particular, the invention relates to nanoemulsions comprising an oil phase dispersed in an aqueous phase and at least two peptide surfactants adsorbed at the liquid-liquid interface, one peptide surfactant comprising a short peptide sequence having α-helical propensity and at least one second polypeptide surfactant comprising at least two peptide sequences having α-helical propensity linked by a linking sequence of 3 to 11 amino acid residues. Optionally the at least one second polypeptide surfactant comprises at least one pharmacokinetic modifying agent and / or a targeting agent. Furthermore, the nanoemulsion may further comprise a cargo such as a pharmaceutically active agent.
Owner:THE UNIV OF QUEENSLAND

Nociceptin mimetics

InactiveUS20130157928A1Negligible alpha helical structureIncrease serum stabilityNervous disorderImmunoglobulinsDiseasePeptide mimetic
The present invention relates to nociceptin peptide mimetics that have α-helical structures and bind to and modulate the opioid receptor-like-1 (ORL-1) receptor. The peptide mimetics are constrained cyclic nociceptin analogues which have either agonist or antagonist activity. Pharmaceutical compositions comprising the nociceptin peptide mimetics and methods of treating or preventing a disease or condition ameliorated by modulating the ORL-1 receptor are also described.
Owner:THE UNIV OF QUEENSLAND

Optimized polypeptide for a subunit vaccine against avian reovirus

An isolated polypeptide comprising an amino acid sequence corresponding to the amino acid residues forming a full or partial α-helical domain, the hinge domain, the β-triple spiral domain and a full or partial globular head domain of an avian reovirus sigma C protein, and lacking the amino acid sequence that is N-terminal to said α-helical domain is provided. Furthermore, a vaccine comprising, or a viral vector expressing, at least one of the isolated polypeptides of the present invention is provided.
Owner:GAVISH GALILEE BIO APPL

Reovirus vaccines and methods of use therefor

The present invention provides for modified reoviruses that carry α-helical epitopes from a variety of pathogens, as well as methods of using such modified reoviruses to generate immune responses against those epitopes in hosts.
Owner:VANDERBILT UNIV

Designed biosurfactants, their manufacture, purification and use

The present invention relates to designed polypeptide biosurfactants that may be prepared by recombinant technology in commercially useful amounts and purified by simple non-chromatographic methods. The designed polypeptide biosurfactants comprise at least one stimuli-responsive amino acid residue or at least one glutamine or asparagine residue and may be useful in modulating the stability of a foam, alone or in combination with an α-helical peptide. The designed polypeptide biosurfactant may be useful in the formation and collapse of foams in foods, beverages, pharmaceuticals, personal care products, cosmetics, cleaning products, mineral recovery, bioremediation, oil recovery and laundry products. The designed biosurfactants may also be useful in recombinant production and purification of peptides, polypeptides and proteins.
Owner:THE UNIV OF QUEENSLAND

Antimicrobial alpha-helical cationic polypeptides

The invention provides antimicrobial polypeptides (AMPs) with high radial amphiphilicity. Unlike typical AMPs characterized by facial amphiphilicity or biomimetic antimicrobial polymers with randomly distributed charged and hydrophobic groups, these new AMPs are homo-polypeptides with radially amphiphilic structure. They adopt a stable α-helical conformation with a hydrophobic helical core and a charged exterior shell, formed by flexible hydrophobic side chains with terminal charge group. The radially amphiphilic polypeptides offer several advantages over conventional AMPs with regard to stability against protease and simplicity of design. They also exhibit high antibacterial activity against both Gram-negative and Gram-positive bacteria and low hemolytic activity. The AMPs thus provide a general platform for treating drug-resistant bacterial infections.
Owner:THE BOARD OF TRUSTEES OF THE UNIV OF ILLINOIS
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