Patent application number | Description | Published |
20090042246 | Methods For The Production And Secretion Of Modified Peptides - The invention relates to the production of heterologous polypeptides in a recombinant host cell. More specifically, it relates to the production and secretion of peptides, such as biologically active peptides, that are modified by one or more lantibiotic-synthesizing enzymes. Provided is a nucleic acid construct encoding a polypeptide comprising 1) a non-lantibiotic export signal that is recognized by a non-lantibiotic export system; 2) a lantibiotic leader peptide that is recognized by at least a lantibiotic dehydratase such as LanB and, C-terminally of said export signal and said leader peptide, 3) a peptide of interest containing one or more serine or threonine residue(s) which can be posttranslationally dehydrated by said dehydratase. Also provided is a method for producing a polypeptide in a host cell, comprising providing a host cell with a nucleic acid construct according to the invention and allowing expression and secretion of the encoded polypeptide by said host cell, wherein said host cell comprises at least a dehydratase capable of modifying said encoded polypeptide and a non-lantibiotic export system capable of secreting said modified polypeptide. | 02-12-2009 |
20100055146 | CYCLIC ANGIOTENSIN ANALOGS - The invention relates to analogs of angiotensins, in particular to cyclised analogs having Ang(1-8) agonistic or antagonistic activity and to cyclised Ang(1-7) analogs with agonistic or antagonistic activity and displaying improved proteolytic resistance compared to their linear counterparts. Provided is a cyclic angiotensin peptide analog comprising a thioether-bridge linkage between the amino acids corresponding to positions Tyr | 03-04-2010 |
20120165230 | BIOLOGICALLY PRODUCED CYCLIC AFFINITY TAGS - Described are novel ways of introducing an affinity tag into a protein of interest. Provided is an enzymatic method for providing a proteinaceous substance comprising a polypeptide of interest and a cyclic affinity tag, comprising: (a) providing at least one precursor proteinaceous substance, the precursor comprising the protein of interest and at least one motif of the general formula X1-Tag-X2, wherein X1 and X2 represent amino acids whose side chains can be linked enzymatically by a covalent bond; Tag is a short amino acid sequence capable of binding to a binding partner of the tag when cyclized; (b) contacting the precursor with at least one enzyme capable of forming a covalent bond between X1 and X2, thereby introducing an intramolecular ring structure comprising the Tag sequence; and (c) isolating the resulting cyclized proteinaceous substance. Also provided are proteinaceous substances obtainable thereby and the use thereof, for instance, for preparing a peptide library. | 06-28-2012 |
Patent application number | Description | Published |
20110288361 | REAL TIME RADIATION TREATMENT PLANNING SYSTEM - The invention relates to a real time radiation treatment planning system for use in effecting radiation therapy of a pre-selected anatomical portion of an animal body using hollow needles. According to embodiments of the invention, the system may include a processing means processing means-configured to perform a three-dimensional imaging algorithm and a three-dimensional image segmentation algorithm, with respect to one or more specific organs within the pre-selected anatomical portion and with respect to the needles, for converting the image data obtained with an imaging means into a three-dimensional image of the anatomical portion, using at least one single or multi-objective anatomy-based genetic optimization algorithm. For pre-planning or virtual simulation purposes, the processing means is arranged to determine in real time the optimal number and position of at least one of the needles, positions of energy emitting sources within the needles, and the dwell times of the energy emitting sources at the positions. For post-planning purposes, the processing means is arranged to determine, based on three-dimensional image information, in real time the real needle positions and the dwell times of the energy emitting sources for the positions. | 11-24-2011 |
20130102831 | REAL-TIME RADIATION TREATMENT PLANNING SYSTEM - The invention relates to a real time radiation treatment planning system for use in effecting radiation therapy of a pre-selected anatomical portion of an animal body using hollow needles. According to embodiments of the invention, the system may include a processing means processing means-configured to perform a three-dimensional imaging algorithm and a three-dimensional image segmentation algorithm, with respect to one or more specific organs within the pre-selected anatomical portion and with respect to the needles, for converting the image data obtained with an imaging means into a three-dimensional image of the anatomical portion, using at least one single or multi-objective anatomy-based genetic optimization algorithm. For pre-planning or virtual simulation purposes, the processing means is arranged to determine in real time the optimal number and position of at least one of the needles, positions of energy emitting sources within the needles, and the dwell times of the energy emitting sources at the positions. For post-planning purposes, the processing means is arranged to determine, based on three-dimensional image information, in real time the real needle positions and the dwell times of the energy emitting sources for the positions. | 04-25-2013 |
20150105606 | Real Time Radiation Treatment Planning System - The invention relates to a real time radiation treatment planning system for use in effecting radiation therapy of a pre-selected anatomical portion of an animal body using hollow needles. According to embodiments of the invention, the system may include a processing means processing means-configured to perform a three-dimensional imaging algorithm and a three-dimensional image segmentation algorithm, with respect to one or more specific organs within the pre-selected anatomical portion and with respect to the needles, for converting the image data obtained with an imaging means into a three-dimensional image of the anatomical portion, using at least one single or multi-objective anatomy-based genetic optimization algorithm. For pre-planning or virtual simulation purposes, the processing means is arranged to determine in real time the optimal number and position of at least one of the needles, positions of energy emitting sources within the needles, and the dwell times of the energy emitting sources at the positions. For post-planning purposes, the processing means is arranged to determine, based on three-dimensional image information, in real time the real needle positions and the dwell times of the energy emitting sources for the positions. | 04-16-2015 |
Patent application number | Description | Published |
20090042246 | Methods For The Production And Secretion Of Modified Peptides - The invention relates to the production of heterologous polypeptides in a recombinant host cell. More specifically, it relates to the production and secretion of peptides, such as biologically active peptides, that are modified by one or more lantibiotic-synthesizing enzymes. Provided is a nucleic acid construct encoding a polypeptide comprising 1) a non-lantibiotic export signal that is recognized by a non-lantibiotic export system; 2) a lantibiotic leader peptide that is recognized by at least a lantibiotic dehydratase such as LanB and, C-terminally of said export signal and said leader peptide, 3) a peptide of interest containing one or more serine or threonine residue(s) which can be posttranslationally dehydrated by said dehydratase. Also provided is a method for producing a polypeptide in a host cell, comprising providing a host cell with a nucleic acid construct according to the invention and allowing expression and secretion of the encoded polypeptide by said host cell, wherein said host cell comprises at least a dehydratase capable of modifying said encoded polypeptide and a non-lantibiotic export system capable of secreting said modified polypeptide. | 02-12-2009 |
20090209007 | Method of Expression Cloning in a Host Cell - The invention relates to a promoter DNA sequence highly suited in an improved expression cloning method for isolation of DNA sequences comprising a DNA sequence encoding a protein of interest in a host cell and to the improved expression cloning method wherein use is made of this promoter. The isolated DNA sequences are useful in processes for producing a protein of interest. | 08-20-2009 |
20090239264 | Immunization with bacterial ghost-based vaccines - Methods for improving binding of a proteinaceous substance to cell-wall material of a Gram-positive bacterium are disclosed. The proteinaceous substance includes an AcmA cell-wall binding domain, homolog or functional derivative thereof. The method includes treating the cell-wall material with a solution capable of removing a cell-wall component such as a protein, lipoteichoic acid or carbohydrate from the cell-wall material and contacting the proteinaceous substance with the cell-wall material. | 09-24-2009 |
20100183596 | Virulence Factors of Streptoccus Pnuemoniae - The present invention provides proteins/genes, which are essential for survival, and consequently, for virulence of | 07-22-2010 |
20110305688 | NEW VIRULENCE FACTORS OF STREPTOCOCCUS PNEUMONIAE - The present invention provides proteins/genes, which are essential for survival, and consequently, for virulence of | 12-15-2011 |