Patent application number | Description | Published |
20100297250 | ALKYNES AND METHODS OF REACTING ALKYNES WITH 1,3-DIPOLE-FUNCTIONAL COMPOUNDS - 1,3-Dipole-functional compounds (e.g., azide functional compounds) can be reacted with certain alkynes in a cyclization reaction to form heterocyclic compounds. Useful alkynes (e.g., strained, cyclic alkynes) and methods of making such alkynes are also disclosed. The reaction of 1,3-dipole-functional compounds with alkynes can be used for a wide variety of applications including the immobilization of biomolecules on a substrate. | 11-25-2010 |
20120039984 | GLYCOPEPTIDE AND USES THEREOF - A glycolipopeptide comprising a carbohydrate component, a peptide component and a lipid component, for use as a therapeutic or prophylactic vaccine. Also provided are monoclonal and polyclonal antibodies that recognize the glycolipopeptide of the invention, as well as uses thereof. | 02-16-2012 |
20120040011 | ALKYNES AND METHODS OF REACTING ALKYNES WITH 1,3-DIPOLE-FUNCTIONAL COMPOUNDS - 1,3-Dipole-functional compounds (e.g., azide functional compounds) can be reacted with certain alkynes in a cyclization reaction to form heterocyclic compounds. Useful alkynes (e.g., strained, cyclic alkynes) and methods of making such alkynes are also disclosed. The reaction of 1,3-dipole-functional compounds with alkynes can be used for a wide variety of applications including the immobilization of biomolecules on a substrate. | 02-16-2012 |
20120172575 | ALKYNES AND METHODS OF REACTING ALKYNES WITH 1,3-DIPOLE-FUNCTIONAL COMPOUNDS - 1,3-Dipole-functional compounds (e.g., azide functional compounds) can be reacted with certain alkynes in a cyclization reaction to form heterocyclic compounds. Useful alkynes (e.g., strained, cyclic alkynes) and methods of making such alkynes are also disclosed. The reaction of 1,3-dipole-functional compounds with alkynes can be used for a wide variety of applications including the immobilization of biomolecules on a substrate. | 07-05-2012 |
20120295318 | CYCLOPROPENONES AND THE PHOTOCHEMICAL GENERATION OF CYCLIC ALKYNES THEREFROM - Cyclic alkynes (e.g., cyclooctynes such as dibenzocyclooctynes) can be photochemically generated from cyclopropenones as disclosed herein. The cyclic alkynes can be reacted (e.g., in situ) with materials having alkyne-reactive groups (e.g., azide groups in a “click” reaction). In preferred embodiments, the generation and reaction of the cyclic alkyne can proceed in the absence of a catalyst (e.g., Cu(I)). These reactions can be useful, for example, for the selective labeling of living cells that are metabolically modified with azido-containing surface monosaccharides, or for light-directed surface patterning. | 11-22-2012 |
20120322974 | ALKYNES AND METHODS OF REACTING ALKYNES WITH 1,3-DIPOLE-FUNCTIONAL COMPOUNDS - 1,3-Dipole-functional compounds (e.g., azide functional compounds) can be reacted with certain alkynes in a cyclization reaction to form heterocyclic compounds. Useful alkynes (e.g., strained, cyclic alkynes) and methods of making such alkynes are also disclosed. The reaction of 1,3-dipole-functional compounds with alkynes can be used for a wide variety of applications including the immobilization of biomolecules on a substrate. | 12-20-2012 |
20130164803 | CYCLOPROPENONES AND THE PHOTOCHEMICAL GENERATION OF CYCLIC ALKYNES THEREFROM - Cyclic alkynes (e.g., cyclooctynes such as dibenzocyclooctynes) can be photochemically generated from cyclopropenones as disclosed herein. The cyclic alkynes can be reacted (e.g., in situ) with materials having alkyne-reactive groups (e.g., azide groups in a “click” reaction). In preferred embodiments, the generation and reaction of the cyclic alkyne can proceed in the absence of a catalyst (e.g., Cu(I)). These reactions can be useful, for example, for the selective labeling of living cells that are metabolically modified with azido-containing surface monosaccharides, or for light-directed surface patterning. | 06-27-2013 |
20130236486 | IMMUNOGENIC VACCINE - A glycolipopeptide comprising a carbohydrate component, a lipid component, and a MUC1 peptide component that induces both a humoral and a cellular immune response for use as a therapeutic or prophylactic vaccine. | 09-12-2013 |
20140212473 | GLYCOPEPTIDE AND USES THEREOF - A glycolipopeptide comprising a carbohydrate component, a peptide component and a lipid component, for use as a therapeutic or prophylactic vaccine. Also provided are monoclonal and polyclonal antibodies that recognize the glycolipopeptide of the invention, as well as uses thereof. | 07-31-2014 |
20150087806 | GLYCOPEPTIDE AND USES THEREOF - A glycolipopeptide comprising a carbohydrate component, a peptide component and a lipid component, for use as a therapeutic or prophylactic vaccine. Also provided are monoclonal and polyclonal antibodies that recognize the glycolipopeptide of the invention, as well as uses thereof. | 03-26-2015 |
Patent application number | Description | Published |
20090232732 | PRO108 Antibody Compositions and Methods of Use and Use of PRO108 to Assess Cancer Risk - This invention relates to a method for assessing risk of prostate cancer. Specifically, it relates to utilizing both Pro108 and Prostate Specific Antigen (PSA) in combination to determine the risk of prostate cancer. In addition, it is directed to a method for assessing risk of ovarian, colon, breast or stomach cancer utilizing Pro108 or specific antibodies to Pro108. The invention provides isolated anti-prostate, ovarian, colon, breast or stomach cancer antigen (Pro108) antibodies that bind to Pro108 on a mammalian cell in vivo. The invention also encompasses compositions comprising an anti-Pro108 antibody and a carrier. These compositions can be provided in an article of manufacture or a kit. Another aspect of the invention is an isolated nucleic acid encoding an anti-Pro108 antibody, as well as an expression vector comprising the isolated nucleic acid. Also provided are cells that produce the anti-Pro108 antibodies. The invention encompasses a method of producing the anti-Pro108 antibodies. Other aspects of the invention are a method of killing an Pro108-expressing cancer cell, comprising contacting Pro108 present in the ECM with an anti-Pro108 antibody and a method of alleviating or treating an Pro108-expressing cancer in a mammal, comprising administering a therapeutically effective amount of the anti-Pro108 antibody to the mammal. | 09-17-2009 |
20090269345 | CLN248 Antibody Compositions and Methods of Use - Isolated anti-Cln248 antibodies that bind to Cln248 and cells that produce the anti-Cln248 antibodies are provided. Also provided are compositions of an anti-Cln248 antibody and a carrier. In addition, isolated nucleic acids encoding an anti-Cln248 antibody, as well as an expression vector for the isolated nucleic acids are provided. Methods for identifying anti-Cln248 antibodies, methods for producing the anti-Cln248 antibodies, as well as methods for their use in killing a Cln248-expressing cancer cells and alleviating or treating a Cln248-expressing cancer in a mammal are also provided. | 10-29-2009 |
20100003705 | Cln101 Antibody Compositions and Methods of Use Alone and in Combination with Prostate Specific Antigen and Other Cancer Markers - This invention relates to a method for assessing risk of prostate and/or ovarian cancer. Specifically, in one embodiment it relates to utilizing both Cln101 and Prostate Specific Antigen (PSA) in combination to determine the risk of prostate cancer. In an alternative embodiment, the invention is relates to utilizing Cln101 alone or in combination with CA125 to determine the risk of ovarian cancer. The invention further provides isolated anti-prostate or ovarian cancer antigen (Cln101) antibodies that bind to Cln101 in vivo. The invention also encompasses compositions comprising an anti-Cln101 antibody and a carrier. These compositions can be provided in an article of manufacture or a kit. Another aspect of the invention is an isolated nucleic acid encoding an anti-Cln101 antibody, as well as an expression vector comprising the isolated nucleic acid. Also provided are cells that produce the anti-Cln101 antibodies. The invention encompasses a method of producing the anti-Cln101 antibodies. Other aspects of the invention are a method of killing an Cln101-expressing cancer cell, comprising contacting the cancer cell with an anti-Cln101 antibody and a method of alleviating or treating an Cln101-expressing cancer in a mammal, comprising administering a therapeutically effective amount of the anti-Cln101 antibody to the mammal. | 01-07-2010 |
20100151501 | Forms of Prostate Specific Antigens and Methods for their Detection - Inactive precursor forms of PSA (pPSA) have been identified to exist in serum and tissues of patients with prostate cancer. Antibodies specific for pPSA are provided. Methods for detecting inactive precursors of PSA in human physiological fluid and tissues are also provided, as well as diagnostic kits and methods useful in the diagnosis and management of prostate cancer. | 06-17-2010 |
20110070223 | Uses of Lp-PLA2 in combination to assess coronary risk - This invention relates to a method for assessing risk of Coronary Vascular Disease (CVD). Specifically, it relates to utilizing risk assessment from both Lipoprotein Associated Phospholipase A2 (Lp-PLA2) and C-reactive protein (CRP) in combination. In addition the invention relates to a method for assessing risk of Coronary Vascular Disease (CVD) in a patient with low to normal Low Density Lipoprotein Cholesterol (LDL) levels utilizing both LDL and Lipoprotein Associated Phospholipase A2 (Lp-PLA2). Moreover, the invention relates to the use of risk associated with Lp-PLA2, CRP and LDL in combination and specific ranges thereof to predict Coronary Vascular Disease. | 03-24-2011 |
20120329079 | Pro108 Antibody Compositions and Methods of Use and Use of Pro108 to Assess Cancer Risk - A method for assessing risk of prostate cancer utilizing both Pro108 and Prostate Specific Antigen (PSA) in combination is provided. Also provided is a method for assessing risk of cancer utilizing Pro108 or specific antibodies to Pro108. Antibodies that bind to Pro108 on a mammalian cell in vivo and compositions comprising an anti-Pro108 antibody and a carrier which can be provided in an article of manufacture or a kit are also provided. An isolated nucleic acid encoding an anti-Pro108 antibody, an expression vector comprising the isolated nucleic acid, cells that produce the anti-Pro108 antibodies and a method of producing the anti-Pro108 antibodies as well as methods for use of the antibodies in killing an Pro108-expressing cancer cell and alleviating or treating an Pro108-expressing cancer in a mammal are also provided. | 12-27-2012 |