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F.R. Salemme
Patents
  • P1
    System and Method of Automatically Generating Chemical Compounds with Desired Properties.
    US Patent No. 5,463,564 [10.31.95]
  • P2
    System and Method of Automatically Generating Chemical Compounds with Desired Properties.
    US Patent No. 5,574,656 [11.12.96]
  • P3
    System, Method and Computer Program Product For At Least Partially Automatically Generating Chemical Compounds Having Desired Properties.
    US Patent No. 5,684,711 [11.04.97]
  • P4
    System, Method and Computer Program Product For At Least Partially Automatically Generating Chemical Compounds with Desired Properties from a List of Potential Chemical Compounds to Synthesize.
    US Patent No. 5,901,069 [05.04.99]
  • P5
    Microplate Thermal Shift Assay for Ligand Development and Multi-Variable Protein Chemistry Optimization.
    US Patent No. 6,020,141 [02.01.00]
  • P6
    Microplate Thermal Shift Assay Apparatus for Ligand Development and Multi-Variable Protein Chemistry Optimization.
    US Patent No. 6,036,920 [03.14.00]
  • P7
    Microplate Thermal Shift Assay Apparatus for Ligand Development and Multi-Variable Protein Chemistry Optimization.
    US Patent No. 6,214,293 [04.10.01]
  • P8
    Method For Determining Conditions That Stabilize Proteins.
    US Patent No. 6,232,085 [05.15.01]
  • P9
    Method For Determining Conditions That Facilitate Protein Crystallization.
    US Patent No. 6,268,158 [07.31.01]
  • P10
    Method For Sensing and Processing Fluorescence Data for Multiple Samples.
    US Patent No. 6,268,218 [7.31.01]
  • P11
    Microplate Thermal Shift Assay for Ligand Development and Multi-Variable Protein Chemistry Optimization.
    US Patent No. 6,291,191 [09.18.01]
  • P12
    Method For Identifying Conditions That Facilitate Recombinant Protein Folding.
    US Patent No. 6,291,192 [09.18.01]
  • P13
    Method, System, and Computer Program Product for Representing Similarity/Dissimilarity Between Chemical Compounds.
    US Patent No. 6,295,514 [09.25.01]
  • P14
    Method For Identifying Lead Compounds.
    US Patent No. 6,303,322 [01.16.01]
  • P15
    Method of Generating Chemical Compounds Having Desired Properties.
    US Patent No. 6,421,612 [07.16.02]
  • P16
    Systems and Methods for Integrating Heaters with Microtiter Plates.
    US Patent No. 6,423,948 [07.23.02]
  • P17
    System, Method, and Computer Program Product for Representing Proximity Data in a Multi-Dimensional Space.
    US Patent No. 6,453,246 [09.17.02]
  • P18
    Microplate Thermal Shift Assay For Ligand Development using 5'(4"Dimethylamino-Phenyl)-2-(4'-Phenyl) Oxazole Derivative Fluorescent Dyes.
    US Patent No. 6,569,631 [05.27.03]
  • P19
    Method, System and Computer Program Product for Non-Linear Mapping of Multi-Dimensional Data.
    US Patent No. 6,571,227 [05.27.03]
  • P20
    Method and Computer Program Product for Designing Combinatorial Arrays.
    US Patent No. 6,671,627 [12.30.03]
  • P21
    Method, System, and Computer Program Product for Encoding and Building Products of a Virtual Combinatorial Library.
    US Patent No. 6,678,619 [01.13.04]
  • P22
    Method, System, and Computer Program Product for Determining Properties of Combinatorial Library Products from Features of Library Building Blocks.
    US Patent No. 6,834,239 [12.21.04]
  • P23
    Microplate Thermal Shift Assay Apparatus for Ligand Development and Multi-variable Protein Chemistry Optimization.
    US Patent No. 6,849,458 [02.01.05]
  • P24
    Microtiter Plate with Integral Heater
    US Patent No. 6,940,055 [09.06.05]
  • P25
    System, Method and Computer Program Product for Representing Object Relationships in Multi-Dimensional Space.
    US Patent No. 7,039,621 [05.02.06]
  • P26
    Method, System and Computer Program for Analyzing Combinatorial Libraries.
    US Patent No. 7,054,757 [05.30.06]
  • P27
    Method, System, and Computer Program Product for Non-linear Mapping of Multi-Dimensional Data.
    US Patent No. 7,117,187 [10.03.06]
  • P28
    High Throughput Method for Functionally Classifying Proteins Identified using a Genomics Approach.
    US Patent No. 7,122,321 [10.17.06]
  • P29
    Method, System and Computer Program Product for Representing Object Relationships in a Multi-Dimensional Space.
    US Patent No. 7,139,739 [11.21.06]
  • P30
    Method, System and Computer Program for Displaying Chemical Data.
    US Patent No. 7,188,055 [03.06.07]
  • P31
    System, Method and Computer Program Product for Fast and Efficient Searching of Large Chemical Libraries.
    US Patent No. 7,416,524 [08.26.08]
  • P32
    Compositions And Methods For Producing Flavored Seasonings That Contain Reduced Quantities Of Common Salt.
    US Patent No. 7,452,563 [11.18.08]
  • P33
    Compositions And Methods For Producing A Salty Taste In Foods Or Beverages.
    US Patent No. 7,455,872 [11.25.08]
  • P34
    Use of a TRPM5 Inhibitor to Regulate Insulin and GLP-1 Release.
    US Patent No. 8,193,168 [06.05.12]
  • P35
    Methods for Using Rebaudioside C as a Flavor Enhancer
    US Patent No. 8,524,785 [09.03.13]
  • P36
    Rebaudioside C and its Stereoisomers as Natural Product Sweetness Enhancers
    US Patent No. 8,609,069 [12.17.13]
  • P37
    Methods for Rebaudioside C as a flavor Enhancer.
    US Patent No. 8,691,879 [04.08.14]
  • P38
    High-throughput operant sensory discrimination apparatus and method.
    US Patent No. 8,820,265 [09.02.14]
  • P39
    Streptavidin Macromolecular Adaptor and Complexes Therof.
    US Patent No. 8,993,714 [03.31.15]
  • P40
    Node Polypeptides for Nanostructure Assembly.
    US Patent No. 9,102,526 [08.11.15]
  • P41
    Method of Protein Nanostructure Fabrication.
    US Patent No. 9,285,363 [03.15.16]
  • P42
    High Throughput Operant Sensory Discrimination Apparatus and Method.
    US Patent No. 10,052,058 [08.21.18]
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