Patents by Inventor Frances H. Arnold
Frances H. Arnold has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7115403Abstract: This invention relates to the expression of improved polynucleotide and polypeptide sequences encoding for eukaryotic enzymes, particularly oxidase enzymes. The enzymes are advantageously produced in conventional or facile expression systems. Various methods for directed evolution of polynucleotide sequences can be used to obtain the improved sequences. The improved characteristics of the polypeptides or proteins generated in this manner include improved expression, enhanced activity toward one or more substrates, and increased thermal stability. In a particular embodiment, the invention relates to improved expression of the galactose oxidase gene and galactose oxidase enzymes. GAO mutants that are highly active and/or thermostable are disclosed.Type: GrantFiled: May 16, 2000Date of Patent: October 3, 2006Assignee: The California Institute of TechnologyInventors: Frances H. Arnold, Ioanna P. Petrounia, Lianhong Sun
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Patent number: 7098010Abstract: This invention relates to the expression of improved polynucleotide and polypeptide sequences encoding for eukaryotic enzymes, particularly oxidase enzymes. The enzymes are advantagoeusly produced in conventional or facile expression systems. Various methods for directed evolution of polynucleotide sequences can be used to obtain the improved sequences. The improved characteristics of the polypeptides or proteins generated in this manner include improved expression, enhanced activity toward one or more substrates, and increased thermal stability. In a particular embodiment, the invention relates to improved expression of the galactose oxidase gene and galactose oxidase enzymes. GAO mutants that are highly active and/or thermostable are disclosed.Type: GrantFiled: November 27, 2000Date of Patent: August 29, 2006Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Ioanna P. Petrounia, Lianhong Sun
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Patent number: 6902918Abstract: A method for detecting the presence of an oxygenated compound which is produced when a substrate is reacted with an oxygenase for the substrate. The method involves reacting a coupling enzyme with the oxygenated compound to form a polymeric oxygenated compound which is fluorescent or luminescent. Measurement of the fluorescence or luminescence of the polymeric oxygenated compound provides indirect detection of the oxygenated compound produced by reaction of the oxygenase with the substrate. The method is carried out in a whole cell environment wherein the cell is transformed to express both the oxygen a set being screened and the coupling enzyme. The method can be used to measure the activity of monooxygenases and dioxygenases on aromatic substrates. The method is amenable to large scale screening of enzyme mutants to isolate those with maximum oxygenase activity.Type: GrantFiled: February 9, 1999Date of Patent: June 7, 2005Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Hyun Joo, Zhanglin Lin
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Publication number: 20030228673Abstract: Glucose oxidase enzymes are provided, including novel variants of galactose oxidase enzymes. The polynucleotides that encode these novel variants can be expressed in recombinant host cell expression systems. The novel variant oxidase enzymes are capable of oxidizing compounds towards which wild-type galactose oxidase (e.g. D-galactose: oxygen 6-oxidoreductase, GAO; EC 1.1.3.9) has little or no activity. Preferred galactose oxidase variants are those which that have improved capability to oxidize secondary alcohols and/or D-glucose relative to the wild-type enzyme.Type: ApplicationFiled: February 27, 2003Publication date: December 11, 2003Applicant: CALIFORNIA INSTITUTE OF TECHNOLOGYInventors: Frances H. Arnold, Lian-Hong Sun, Ioanna P. Petrounia
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Publication number: 20030207345Abstract: A method for detecting the presence of an oxygenated compound which is produced when a substrate is reacted with an oxygenase for the substrate. The method involves reacting a coupling enzyme with the oxygenated compound to form a polymeric oxygenated compound which is fluorescent or luminescent. Measurement of the fluorescence or luminescence of the polymeric oxygenated compound provides indirect detection of the oxygenated compound produced by reaction of the oxygenase with the substrate. The method is carried out in a whole cell environment wherein the cell is transformed to express both the oxygenase being screened and the coupling enzyme. The method can be used to measure the activity of monooxygenases and dioxygenases on aromatic substrates. The method is amenable to large scale screening of enzyme mutants to isolate those with maximum oxygenase activity.Type: ApplicationFiled: June 2, 2003Publication date: November 6, 2003Applicant: California Institute of TechnologyInventors: Frances H. Arnold, Hyun Joo
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Publication number: 20030153042Abstract: This invention relates to the improved expression of evolved polynucleotide and polypeptide sequences encoding for eukaryotic enzymes, particularly peroxidase enzymes, in conventional or facile expression systems. Various methods for directed evolution of polynucleotide sequences can be used to obtain the improved sequences. The improved characteristics of the polypeptides or proteins generated in this maruer include improved folding, without formation of inclusion bodies, and retained functional activity. In a particular embodiment, the invention relates to improved expression of the horseradish peroxidase (HRP) gene and HRP enzymes. HRP mutants that are highly expressed, highly active, and/or thermostable, are disclosed.Type: ApplicationFiled: October 21, 2002Publication date: August 14, 2003Applicant: California Institute of TechnologyInventors: Frances H. Arnold, Zhanglin Lin
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Publication number: 20030100744Abstract: Nucleic acids encoding cytochrome P450 variants are provided. The cytochrome P450 variants of have a higher alkane-oxidation capability, alkene-oxidation capability, and/or a higher organic-solvent resistance than the corresponding wild-type or parent cytochrome P450 enzyme. A preferred wild-type cytochrome P450 is cytochrome P450 BM-3. Preferred cytochrome P450 variants include those having an improved capability to hydroxylate alkanes and epoxidate alkenes comprising less than 8 carbons, and have amino acid substitutions corresponding to V78A, H236Q, and E252G of cytochrome P450 BM-3. Preferred cytochrome P450 variants also include those having an improved hydroxylation activity in solutions comprising co-solvents such as DMSO and THF, and have amino acid substitutions corresponding to T235A, R471A, E494K, and S1024E of cytochrome P450 BM-3.Type: ApplicationFiled: July 22, 2002Publication date: May 29, 2003Applicant: California Institute of TechnologyInventors: Edgardo T. Farinas, Frances H. Arnold, Ulrich Schwaneberg, Anton Glieder
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Patent number: 6540895Abstract: The invention provides a microfabricated device for sorting cells based on a desired characteristic, for example, reporter-labeled cells can be sorted by the presence or level of reporter on the cells. The device includes a chip having a substrate into which is microfabricated at least one analysis unit. Each analysis unit includes a main channel, having a sample inlet channel, typically at one end, and a detection region along a portion of its length. Adjacent and downstream from the detection region, the main channel has a discrimination region or branch point leading to at least two branch channels. The analysis unit may further include additional inlet channels, detection points, branch points, and branch channels as desired. A stream containing cells is passed through the detection region, such that on average one cell occupies the detection region at a given time.Type: GrantFiled: May 21, 1999Date of Patent: April 1, 2003Assignee: California Institute of TechnologyInventors: Charles F. Spence, Anne Y. Fu, Stephen R. Quake, Frances H. Arnold
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Patent number: 6524837Abstract: Hydantoinase enzymes which are mutants of a previously isolated hydantoinase having the amino acid SEQ. ID. NO. 2. The mutants include amino acid substitutions at positions 95, 154, 180, 251 and/or 255 of the wild type hydantoinase (SEQ. ID. NO. 2). The mutant hydantoinases, like the parent hydantoinase, are used in the production of optically pure amino acids.Type: GrantFiled: February 3, 2000Date of Patent: February 25, 2003Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Oliver May, Karlheinz Drauz, Andreas Bommarius
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Publication number: 20030032059Abstract: The invention relates to improved methods for directed evolution of polymers, including directed evolution of nucleic acids and proteins. Specifically, the methods of the invention include analytical methods for identifying “crossover locations” in a polymer. Crossovers at these locations are less likely to disrupt desirable properties of the protein, such as stability or functionality. The invention further provides improved methods for directed evolution wherein the polymer is selectively recombined at the identified “crossover locations”. Crossover disruption profiles can be used to identify preferred crossover locations. Structural domains of a biopolymer can also be identified and analyzed, and domains can be organized into schema. Schema disruption profiles can be calculated, for example based on conformational energy or interatomic distances, and these can be used to identify preferred or candidate crossover locations.Type: ApplicationFiled: October 26, 2001Publication date: February 13, 2003Inventors: Zhen-Gang Wang, Christopher A. Voigt, Stephen L. Mayo, Frances H. Arnold
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Publication number: 20020051998Abstract: The present invention relates to engineering new biosynthetic pathways into microorganisms, in particular biosynthetic carotenoid pathways. New and improved catalytic functions of metabolic pathways are created by, for example, site-specific mutation or gene shuffling techniques, to provide for efficient biosynthesis of carotenoids. By applying the described directed evolution techniques, almost any carotenoid could be produced, in a host cell, from one or a few sets of genes. In addition, the described techniques are useful for creating gene or protein libraries for new and uncharacterized carotenoids.Type: ApplicationFiled: December 8, 2000Publication date: May 2, 2002Applicant: CALIFORNIA INSTITUTE OF TECHNOLOGYInventors: Claudia Schmidt-Dannert, Frances H. Arnold
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Publication number: 20020045175Abstract: The invention relates to improved methods for directed evolution of polymers, including directed evolution of nucleic acids and proteins. Specifically, the methods of the invention include analytical methods for identifying “crossover locations” in a polymer. Crossovers at these locations are less likely to disrupt desirable properties of the protein, such as stability or functionality. The invention further provides improved methods for directed evolution wherein the polymer is selectively recombined at the identified “crossover locations”. Crossover disruption profiles can be used to identify preferred crossover locations. Structural domains of a biopolymer can also be identified and analyzed, and domains can be organized into schema. Schema disruption profiles can be calculated, for example based on conformational energy or interatomic distances, and these can be used to identify preferred or candidate crossover locations.Type: ApplicationFiled: May 23, 2001Publication date: April 18, 2002Inventors: Zhen-Gang Wang, Christopher A. Voigt, Stephen L. Mayo, Frances H. Arnold
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Patent number: 6361988Abstract: A method for in vitro mutagenesis and recombination of polynucleotide sequences based on polymerase-catalyzed extension of primer oligonucleotides is disclosed. The method involves priming template polynucleotide(s) with random-sequences or defined-sequence primers to generate a pool of short DNA fragments with a low level of point mutations. The DNA fragments are subjected to denaturization followed by annealing and further enzyme-catalyzed DNA polymerization. This procedure is repeated a sufficient number of times to produce full-length genes which comprise mutants of the original template polynucleotides. These genes can be further amplified by the polymerase chain reaction and cloned into a vector for expression of the encoded proteins.Type: GrantFiled: April 4, 2000Date of Patent: March 26, 2002Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Zhixin Shao, Huimin Zhao, Lorraine J. Giver
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Publication number: 20020005354Abstract: The invention provides a microfabricated device for sorting cells based on a desired characteristic, for example, reporter-labeled cells can be sorted by the presence or level of reporter on the cells. The device includes a chip having a substrate into which is microfabricated at least one analysis unit. Each analysis unit includes a main channel, having a sample inlet channel, typically at one end, and a detection region along a portion of its length. Adjacent and downstream from the detection region, the main channel has a discrimination region or branch point leading to at least two branch channels. The analysis unit may further include additional inlet channels, detection points, branch points, and branch channels as desired. A stream containing cells is passed through the detection region, such that on average one cell occupies the detection region at a given time.Type: ApplicationFiled: August 13, 2001Publication date: January 17, 2002Applicant: California Institute of TechnologyInventors: Charles F. Spence, Anne Y. Fu, Stephen R. Quake, Frances H. Arnold
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Publication number: 20010055786Abstract: The present invention relates to screening methods for oxidation enzymes, particularly mono- and dioxygenases. According to the methods of the invention, a product of an oxidation reaction is converted into a phenol or a catechol, which is easily detected by a Gibbs assay. This conversion allows for a sensitive and efficient assay. Both high-throughput liquid-phase and solid-phase methods using these principles are provided. Also described are method for detecting phenolic ether-products and sulfhydryl products from oxidation reactions, also using a Gibbs assay.Type: ApplicationFiled: April 5, 2001Publication date: December 27, 2001Applicant: CALIFORNIA INSTITUTE OF TECHNOLOGYInventors: Frances H. Arnold, John Joern, Takeshi Sakamoto, Ulrich Schwaneberg
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Publication number: 20010051855Abstract: The invention relates to improved methods for directed evolution of polymers, including directed evolution of nucleic acids and proteins. Specifically, the methods of the invention include analytical methods for identifying “structurally tolerant” residues of a polymer. Mutations of these, structurally tolerant residues are less likely to adversely affect desirable properties of a polymer sequence. The invention further provides improved methods for directed evolution wherein the structurally tolerant residues of a polymer are selectively mutated. Computer systems for implementing analytical methods of the invention are also provided.Type: ApplicationFiled: February 16, 2001Publication date: December 13, 2001Applicant: California Institute of TechnologyInventors: Zhen-Gang Wang, Christopher A. Voigt, Stephen L. Mayo, Frances H. Arnold
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Patent number: 6177263Abstract: A method for in vitro mutagenesis and recombination of polynucleotide sequences based on polymerase-catalyzed extension of primer oligonucleotides is disclosed. The method involves priming template polynucleotide(s) with random-sequences or defined-sequence primers to generate a pool of short DNA fragments with a low level of point mutations. The DNA fragments are subjected to denaturization followed by annealing and further enzyme-catalyzed DNA polymerization. This procedure is repeated a sufficient number of times to produce full-length genes which comprise mutants of the original template polynucleotides. These genes can be further amplified by the polymerase chain reaction and cloned into a vector for expression of the encoded proteins.Type: GrantFiled: July 14, 1999Date of Patent: January 23, 2001Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Zhixin Shao, Joseph A. Affholter, Huimin Zhao, Lorraine J. Giver
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Patent number: 6153410Abstract: A method for in vitro mutagenesis and recombination of polynucleotide sequences based on polymerase-catalyzed extension of primer oligonucleotides is disclosed. The method involves priming template polynucleotide(s) with random-sequences or defined-sequence primers to generate a pool of short DNA fragments with a low level of point mutations. The DNA fragments are subjected to denaturization followed by annealing and further enzyme-catalyzed DNA polymerization. This procedure is repeated a sufficient number of times to produce full-length genes which comprise mutants of the original template polynucleotides. These genes can be further amplified by the polymerase chain reaction and cloned into a vector for expression of the encoded proteins.Type: GrantFiled: August 4, 1997Date of Patent: November 28, 2000Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Zhixin Shao, Joseph A. Affholter, Huimin H Zhao, Lorraine J. Giver
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Patent number: 6063637Abstract: Sensors (20, 50, 70) for use in detecting the presence of sugars and other analytes (target molecules). The sensor is composed of a metal complex that binds to the target molecule and releases a proton or includes an exchangable ligand which is exchanged for the target molecule during the binding interaction between the metal complex and the target molecule. The result of the binding interaction is the release of a proton, hydroxide ion or ligand species generated during the ligand exchange. Measurement of the release of proton, hydroxide ion or other ligand species from the sensor (20, 50, 70) provides an indirect indication of target molecule concentration. The metal complexes may be attached to support structures (10, 12) to provide both anchoring and positioning of the metal ions to increase selectivity of sugar/metal complex interactions. Detection systems in which pH is used as an indication of proton or hydroxide release are disclosed, as are detection systems in which Cl.sup.- release is used.Type: GrantFiled: July 7, 1997Date of Patent: May 16, 2000Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Zhibin Guan, Chao-Tsen Chen, Guohua Chen
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Patent number: 5945325Abstract: A method for isolating and identifying modified para-nitrobenzyl esterases which exhibit improved thermal stability relative to naturally occurring para-nitrobenzyl esterase. The method involves preparing a library of modified para-nitrobenzyl esterase nucleic acid segments (genes) which have nucleotide sequences that differ from the nucleic acid segment which encodes for naturally occurring para-nitrobenzyl esterase. The library of modified para-nitrobenzyl nucleic acid segments is expressed to provide a plurality of modified enzymes. The clones expressing modified enzymes are then screened to identify which enzymes retain esterase activity after heat treatment at elevated temperature. Specific modified para-nitrobenzyl esterases are disclosed which have improved thermal stability and/or ester hydrolysis activity in aqueous or aqueous-organic media relative to the thermal stability and/or ester hydrolysis activity of unmodified naturally occurring para-nitrobenzyl esterase.Type: GrantFiled: April 20, 1998Date of Patent: August 31, 1999Assignee: California Institute of TechnologyInventors: Frances H. Arnold, Lorraine J. Giver