Patent application number | Description | Published |
20080248490 | Reagents for the detection of protein phosphorylation in Leukemia signaling pathways - The invention discloses nearly 288 novel phosphorylation sites identified in signal transduction proteins and pathways underlying human Leukemia, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: Adaptor/Scaffold proteins, Cytoskeletal proteins, Cellular Metabolism enzymes, G Protein/GTPase Activating/Guanine Nucleotide Exchange Factor proteins, Immunoglobulin Superfamily proteins, Inhibitor proteins, Lipid Kinases, Nuclear DNA Repair/RNA Binding/Transcription proteins, Serine/Threonine Protein Kinases, Tyrosine Kinases, Protein Phosphatases, and Translation/Transporter proteins. | 10-09-2008 |
20090053831 | Tyrosine phosphorylation sites - The invention discloses 405 novel phosphorylation sites identified in carcinoma and/or leukemia, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 02-26-2009 |
20090098581 | Tyrosine phosphorylation sites - The invention discloses 482 novel phosphorylation sites identified in carcinoma and/or leukemia, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 04-16-2009 |
20090124023 | Reagens for the Detection of Protein Acetylation Signaling Pathways - The invention discloses 432 novel acetylation sites identified in signal transduction proteins and pathways underlying human protein acetylation signaling pathways, and provides acetylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these acetylated sites/proteins, as well as methods of using the reagents for such purpose. Among the acetylation sites identified are sites occurring in the following protein types: Acetyltransferases, Adaptor/Scaffold proteins, Actin binding proteins, Adhesion proteins, Apoptosis proteins, Calcium-binding proteins, Cell Cycle Regulation proteins, Cell Surface proteins, DNA binding proteins, DNA replication proteins, Channel proteins, Chaperone proteins, Cellular Metabolism enzymes, Cytoskeletal proteins, DNA repair proteins, Endoplasmic reticulum proteins, Enzyme proteins, G protein and GTPase Activating proteins, Guanine Nucleotide Exchange Factors, Helicase proteins, Isomerase proteins, Extracelluar matrix proteins, Hydrolases, Ligase proteins, Lipid kinases, Inhibtor proteins, Lipid Binding proteins and Lyases. | 05-14-2009 |
20090142777 | Reagents for the detection of protein phosphorylation in leukemia signaling pathways - The invention discloses 424 novel phosphorylation sites identified in signal transduction proteins and pathways underlying human Leukemia, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: Adaptor/Scaffold proteins, Cytoskeletal proteins, Cellular Metabolism enzymes, G Protein/GTPase Activating/Guanine Nucleotide Exchange Factor proteins, Immunoglobulin Superfamily proteins, Inhibitor proteins, Lipid Kinases, Nuclear DNA Repair/RNA Binding/Transcription proteins, Serine/Threonine Protein Kinases, Tyrosine Kinases, Protein Phosphatases, and Translation/Transporter proteins. | 06-04-2009 |
20090156475 | Gene defects and mutant ALK kinase in human solid tumors - In accordance with the invention, novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ALK kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein enables new methods for determining the presence of these mutant ALK kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 06-18-2009 |
20090197269 | Translocation and mutant CSF1R Kinase in human leukemia - In accordance with the invention, a novel gene translocation, (3p21, 5q33), in human myelogenous leukemia (AML) that results in a fusion protein combining part of RNA Binding Protein-6 (RBM6) with Macrophage Colony Stimulating Factor-1 Receptor (CSF1R) kinase has now been identified. The RBM6-CSF1R fusion protein and truncated CSF1R kinase itself, which both retain CSF1R tyrosine kinase activity, were confirmed to drive the proliferation and survival of acute megakaryoblastic leukemia (AML-M7). The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant CSF1R kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein and truncated kinase enables new methods for determining the presence of these mutant CSF1R kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 08-06-2009 |
20090220991 | Reagents for the detection of protein phosphorylation in leukemia signaling pathways - The invention discloses nearly 480 novel phosphorylation sites identified in signal transduction proteins and pathways underlying human Leukemia, and provides phosphorylation site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: adaptor/scaffold proteins, acetyltransferases, actin binding proteins, adhesion proteins, apoptosis proteins, calcium-binding proteins, cell cycle regulation proteins, cell surface proteins, channel proteins, chaperone proteins, contractile proteins, cytokine proteins, cytoskeletal proteins, G protein regulators and GTPase activating proteins, guanine nucleotide exchange factors, helicase proteins, immunoglobulin superfamily proteins, inhibitor proteins, protein kinases, lipid kinases, ligases, lipid binding proteins, methytransferases, motor proteins, oxidoreductases, phosphotases, phosphodiesterases, phospholipases, proteases, receptor proteins, trascription factors, transferases, translation/transporter proteins, and ubiquitin conjugating system proteins. | 09-03-2009 |
20090258436 | Reagents for the Detection of Protein Phosphorylation in Signaling Pathways - The invention discloses novel phosphorylation sites identified in signal transduction proteins and pathways, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: adaptor/scaffold proteins, adhesion/extracellular matrix protein, apoptosis proteins, calcium binding proteins, cell cycle regulation proteins, chaperone proteins, chromatin, DNA binding/repair/replication proteins, cytoskeletal proteins, endoplasmic reticulum or golgi proteins, enzyme proteins, G/regulator proteins, inhibitor proteins, motor/contractile proteins, phosphatase, protease, Ser/Thr protein kinases, Protein kinase (Tyr)s, receptor/channel/cell surface proteins, RNA binding proteins, transcriptional regulators, tumor suppressor proteins, ubiquitan conjugating system proteins and proteins of unknown function. | 10-15-2009 |
20090263832 | Reagents for the Detection of Protein Phosphorylation in Leukemia Signaling Pathways - The invention discloses nearly 123 novel phosphorylation sites identified in signal transduction proteins and pathways underlying human Leukemia, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: protein kinases, adaptor/scaffold proteins, phosphatase/phospholipases, G proteins/GTPase activating proteins/guanine nucleotide exchange factors, cellular metabolism enzymes, DNA binding proteins, cytoskeletal proteins, cell cycle regulation proteins, proteases, RNA binding proteins, transcription proteins, translation initiation complex proteins, transferases, ubiquitin conjugating system proteins, vesicle proteins, actin binding proteins, apoptosis proteins, chemokine proteins, enzyme proteins extra cellular matrix proteins, helicases, hydrolases, immunoglobin superfamily proteins, inhibitor proteins, isomerases, ligases, lipid binding proteins, methyltransferases, motor proteins, receptor proteins, and chaperone proteins. | 10-22-2009 |
20090285796 | MUTANT JAK3 KINASE IN HUMAN LEUKEMIA - In accordance with the invention, a novel activating mutation (alanine 572 to valine) in JAK3 kinase has been discovered in human acute myelogenous leukemia (AML). The mutant JAK3 kinase was confirmed to drive the proliferation and survival of acute megakaryoblastic leukemia (AML-M7). The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant JAK3 kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the mutant polypeptides. The disclosed identification of this new mutant protein and enables new methods for determining the presence of mutant JAK3 kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the mutant proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 11-19-2009 |
20090305297 | Tyrosine phosphorylation sites - The invention discloses 397 novel phosphorylation sites identified in carcinoma and/or leukemia, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 12-10-2009 |
20090325312 | Reagens for the detection of protein acetylation signaling pathways - The invention discloses | 12-31-2009 |
20100009463 | Reagents for the detection of protein phosphorylation in signaling pathways - The invention discloses novel phosphorylation sites identified in signal transduction proteins and pathways, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: adaptor/scaffold proteins, adhesion/extracellular matrix protein, apoptosis proteins, calcium binding proteins, cell cycle regulation proteins, chaperone proteins, chromatin, DNA binding/repair/replication proteins, cytoskeletal proteins, endoplasmic reticulum or golgi proteins, enzyme proteins, G/regulator proteins, inhibitor proteins, motor/contractile proteins, phosphatase, protease, Ser/Thr protein kinases, protein kinase (Tyr)s, receptor/channel/cell surface proteins, RNA binding proteins, transcriptional regulators, tumor suppressor proteins, ubiquitan conjugating system proteins and proteins of unknown function. | 01-14-2010 |
20100092992 | LYSINE ACETYLATION SITES - The invention discloses 322 novel acetylation sites identified in various cancers, peptides (including AQUA peptides) comprising a acetylation site of the invention, antibodies specifically bind to a novel acetylation site of the invention, and diagnostic and therapeutic uses of the above. | 04-15-2010 |
20100093000 | Tyrosine phosphorylation sites - The invention discloses novel phosphorylation sites identified in carcinoma and/or leukemia, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 04-15-2010 |
20100093008 | PHOSPHO-SPECIFIC ANTIBODIES TO FLT3 (TYR969) AND USES THEREOF - The invention discloses a newly discovered Flt3 phosphorylation site, tyrosine 969 (Tyr969) in the intracellular domain, and provides reagents, including polyclonal and monoclonal antibodies, that selectively bind to Flt3 when phosphorylated at this site. Also provided are assays utilizing this reagent, including methods for determining the phosphorylation of Flt3 in a biological sample, selecting a patient suitable for Flt3 inhibitor therapy, profiling Flt3 activation in a test tissue, and identifying a compound that modulates phosphorylation of Flt3 in a test tissue, by using a detectable reagent, such as the disclosed antibody, that binds to Flt3 only when phosphorylated at Tyr969. The sample or test tissue may be taken from a subject suspected of having cancer, such as acute myelogenous leukemia (AML). | 04-15-2010 |
20100120055 | TYROSINE PHOSPHORYLATION SITES - The invention discloses 318 novel phosphorylation sites identified in carcinoma, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 05-13-2010 |
20100143918 | TRANSLOCATION AND MUTANT ROS KINASE IN HUMAN NON-SMALL CELL LUNG CARCINOMA - In accordance with the invention, a novel gene translocation, (4p15, 6q22), in human non-small cell lung carcinoma (NSCLC) that results in fusion proteins combining part of Sodium-dependent Phosphate Transporter Isoform NaPi-3b protein (SLC34A2) with Proto-oncogene Tyrosine Protein Kinase ROS Precursor (ROS) kinase has now been identified. The SLC34A2-ROS fusion proteins are anticipated to drive the proliferation and survival of cancer cells, and particularly drive the proliferation and survival of a subgroup of NSCLC tumor cells. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ROS kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of the new fusion protein enables new methods for determining the presence of these mutant ROS kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 06-10-2010 |
20100151483 | REAGENTS FOR THE DETECTION OF PROTEIN PHOSPHORYLATION IN SIGNALING PATHWAYS - The invention discloses novel phosphorylation sites identified in signal transduction proteins and pathways, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: adaptor/scaffold proteins, adhesion/extracellular matrix protein, apoptosis proteins, calcium binding proteins, cell cycle regulation proteins, chaperone proteins, chromatin, DNA binding/repair/replication proteins, cytoskeletal proteins, endoplasmic reticulum or golgi proteins, enzyme proteins, G/regulator proteins, inhibitor proteins, motor/contractile proteins, phosphatase, protease, Ser/Thr protein kinases, protein kinase (Tyr)s, receptor/channel/cell surface proteins, RNA binding proteins, transcriptional regulators, tumor suppressor proteins, ubiquitan conjugating system proteins and proteins of unknown function. | 06-17-2010 |
20100159477 | Reagents for the detection of protein phosphorylation in signaling pathways - The invention discloses novel phosphorylation sites identified in signal transduction proteins and pathways, and provides phosphorylation-site specific antibodies and heavy-isotope labeled peptides (AQUA peptides) for the selective detection and quantification of these phosphorylated sites/proteins, as well as methods of using the reagents for such purpose. Among the phosphorylation sites identified are sites occurring in the following protein types: adaptor/scaffold proteins, adhesion/extracellular matrix protein, apoptosis proteins, calcium binding proteins, cell cycle regulation proteins, chaperone proteins, chromatin, DNA binding/repair/replication proteins, cytoskeletal proteins, endoplasmic reticulum or golgi proteins, enzyme proteins, G/regulator proteins, inhibitor proteins, motor/contractile proteins, phosphatase, protease, Ser/Thr protein kinases, Protein kinase (Tyr)s, receptor/channel/cell suface proteins, RNA binding proteins, transcriptional regulators, tumor suppressor proteins, ubiquitan conjugating system proteins and proteins of unknown function. | 06-24-2010 |
20100209427 | LYSINE ACETYLATION SITES - The invention discloses 1302 novel acetylation sites peptides (including AQUA peptides) comprising an acetylation site of the invention, antibodies specifically bind to a novel acetylation site of the invention, and diagnostic and therapeutic uses of the above. The acetylation sites identified provide important information regarding metabolism in energy signaling pathways. | 08-19-2010 |
20100221737 | Translocation and Mutant ROS Kinase in Human Non-Small Cell Lung Carcinoma - In accordance with the invention, a novel gene translocation, (5q32, 6q22), in human non-small cell lung carcinoma (NSCLC) that results in a fusion proteins combining part of CD74 with Proto-oncogene Tyrosine Protein Kinase ROS Precursor (ROS) kinase has now been identified. The CD74-ROS fusion protein is anticipated to drive the proliferation and survival of a subgroup of NSCLC tumors. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ROS kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of the new fusion protein enables new methods for determining the presence of these mutant ROS kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 09-02-2010 |
20100240034 | Gene defects and mutant ALK kinase in human solid tumors - In accordance with the invention, novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ALK kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein enables new methods for determining the presence of these mutant ALK kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 09-23-2010 |
20100266580 | TRANSLOCATION AND MUTANT TNK1 KINASE IN HUMAN LYMPHOMA - In accordance with the invention, a novel gene translocation in human Hodgkin's lymphoma (HL) that results in a fusion protein combining part of C17ORF61 with Thirty-eight-negative kinase 1 (Tnk1) kinase has now been identified. The TNK1-C17ORF61 fusion protein, which retains TNK1 tyrosine kinase activity, was confirmed to drive the proliferation and survival of Hodgkin's lymphoma (HL) cell line, L-540. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant TNK1 kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein and truncated kinase enables new methods for determining the presence of these mutant TNK1 kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 10-21-2010 |
20100304382 | Gene Defects and Mutant ALK Kinase in Human Solid Tumors - In accordance with the invention, novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ALK kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein enables new methods for determining the presence of these mutant ALK kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 12-02-2010 |
20110021546 | Gene Defects And Mutant ALK Kinase In Human Solid Tumors - In accordance with the invention, novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ALK kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein enables new methods for determining the presence of these mutant ALK kinase polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 01-27-2011 |
20110045603 | Serine, Threonine, and Tyrosine Phosphorylation Sites - The invention discloses 990 novel phosphorylation sites identified in carcinoma and leukemia, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 02-24-2011 |
20110104820 | Tyrosine, Serine, And Threonine Phosphorylation Sites - The invention discloses 94 novel phosphorylation sites identified in carcinoma and leukemia, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies that specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 05-05-2011 |
20110143368 | Tyrosine phosphorylation sites - The invention discloses 142 novel phosphorylation sites identified in carcinoma, peptides (including AQUA peptides) comprising a phosphorylation site of the invention, antibodies specifically bind to a novel phosphorylation site of the invention, and diagnostic and therapeutic uses of the above. | 06-16-2011 |
20110287445 | Mutant ROS Expression In Human Cancer - The invention provides the identification of the presence of mutant ROS protein in human cancer. In some embodiments, the mutant ROS are FIG-ROS fusion proteins comprising part of the FIG protein fused to the kinase domain of the ROS kinase. In some embodiments, the mutant ROS is the overexpression of wild-type ROS in cancerous tissues (or tissues suspected of being cancerous) where, in normal tissue of that same tissue type, ROS is not expressed or is expressed at lower levels. The mutant ROS proteins of the invention are anticipated to drive the proliferation and survival of a subgroup of human cancers, particularly in cancers of the liver (including bile duct), pancreas, kidney, and testes. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ROS polypeptides (e.g., a FIG-ROS(S) fusion polypeptide), probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The identification of the mutant ROS polypeptides enables new methods for determining the presence of these mutant ROS polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides, which are also provided by the invention. | 11-24-2011 |
20120093837 | COMPOSITIONS AND METHODS FOR DETECTING EGFR IN CANCER - The invention discloses binding agents to the E746-A750 deletion and the L858R point mutations in the epidermal growth factor receptor (EGFR) molecule, and methods for use thereof, including methods for the diagnosis and treatment of cancer. | 04-19-2012 |
20120171696 | Gene Defects And Mutant ALK Kinase In Human Solid Tumors - In accordance with the invention, novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ALK kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein enables methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides. | 07-05-2012 |
20120208824 | ROS Kinase in Lung Cancer - The invention provides the identification of the presence of polypeptides with ROS kinase activity in mammalian lung cancer. In some embodiments, the polypeptide with ROS kinase activity is the result of a fusion between a ROS-encoding polynucleotide and a polynucleotide encoding a second (non-ROS) polypeptide. Three different fusion partners of ROS are described, namely proteins encoded by the FIG gene, the SLC34A2 gene, and the CD74 gene. The invention enables new methods for determining the presence of a polypeptide with ROS kinase activity in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer (e.g., an lung cancer). | 08-16-2012 |
20120288872 | GENE DEFECTS AND MUTANT ALK KINASE IN HUMAN SOLID TUMORS - Novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant polypeptides, probes for detecting it, isolated mutant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The invention also provides methods for determining the presence of these mutant polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides. | 11-15-2012 |
20130209452 | GENE DEFECTS AND MUTANT ALK KINASE IN HUMAN SOLID TUMORS - Novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have been identified herein in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant ALK kinase polypeptides, probes for detecting it, isolated mutant polypeptides, recombinant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The disclosed identification of this new fusion protein enables methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides. | 08-15-2013 |
20140134640 | Gene Defects And Mutant ALK Kinase In Human Solid Tumors - Novel gene deletions and translocations involving chromosome 2 resulting in fusion proteins combining part of Anaplastic Lymphoma Kinase (ALK) kinase with part of a secondary protein have now been identified in human solid tumors, e.g. non-small cell lung carcinoma (NSCLC). Secondary proteins include Echinoderm Microtubule-Associated Protein-Like 4 (EML-4) and TRK-Fusion Gene (TFG). The EML4-ALK fusion protein, which retains ALK tyrosine kinase activity, was confirmed to drive the proliferation and survival of NSCLC characterized by this mutation. The invention therefore provides, in part, isolated polynucleotides and vectors encoding the disclosed mutant polypeptides, probes for detecting it, isolated mutant polypeptides, and reagents for detecting the fusion and truncated polypeptides. The invention also provides methods for determining the presence of these mutant polypeptides in a biological sample, methods for screening for compounds that inhibit the proteins, and methods for inhibiting the progression of a cancer characterized by the mutant polynucleotides or polypeptides. | 05-15-2014 |