Abstract: The present invention describes methods of identifying stimulants for the biogenic production of methane in hydrocarbon-bearing formations. Methods involve the use of microbial nucleic acid sequence information for the determination of gene products that are enzymes in a variety of pathways involved in the conversion of hydrocarbons to methane. Enzymes and stimulants identified by invention methods can be used in processes for enhancing biogenic methane production, for example, by addition to coal seams and coalbed methane wells.
Type:
Application
Filed:
July 6, 2011
Publication date:
November 17, 2011
Applicant:
Synthetic Genomics, Inc.
Inventors:
Gerardo Vicente Toledo, Toby Howard Richardson, Ulrich Stingl, Eric J. Mathur, J. Craig Venter
Abstract: Methods and apparatus are disclosed herein for encoding human readable text conveying a non-genetic message into nucleic acid sequences with a substantially reduced probability of biological impact and decoding such text from nucleic acid sequences. In one embodiment, each symbol of a symbol set of human readable symbols uniquely maps to a respective codon identifier. Mapping may ensure that each symbol will not map to a codon identifier that generates an amino acid residue which has a single-letter abbreviation that is the equivalent to the respective symbol. Synthetic nucleic acid sequences comprising such human readable text, and recombinant or synthetic cells comprising such sequences are provided, as well as methods of identifying cells, organisms, or samples containing such sequences.
Type:
Application
Filed:
October 29, 2010
Publication date:
November 3, 2011
Applicant:
Synthetic Genomics, Inc.
Inventors:
Clyde A. Hutchison, Michael G. Montague, Hamilton O. Smith
Abstract: Genes and strains of recombinant microorganisms are provided that are engineered to produce fatty alcohols and fatty alcohol derivatives. The organisms can include one, two, three or more transgenes that direct the biosynthesis of one or more fatty alcohols or derivatives. Methods of producing fatty alcohols using transgenic microorganisms are also provided.
Abstract: The present invention describes methods of identifying stimulants for the biogenic production of methane in hydrocarbon-bearing formations. Methods involve the use of microbial nucleic acid sequence information for the determination of gene products that are enzymes in a variety of pathways involved in the conversion of hydrocarbons to methane. Enzymes and stimulants identified by invention methods can be used in processes for enhancing biogenic methane production, for example, by addition to coal seams and coalbed methane wells.
Type:
Grant
Filed:
May 12, 2009
Date of Patent:
July 12, 2011
Assignee:
Synthetic Genomics, Inc.
Inventors:
Gerardo Vicente Toledo, Toby Howard Richardson, Ulrich Stingl, Eric J. Mathur, J. Craig Venter
Abstract: Compositions and methods are disclosed herein for cloning a synthetic or a semi-synthetic donor genome in a heterologous host cell. In one embodiment, the donor genome can be further modified within a host cell. Modified or unmodified genomes can be further isolated from the host cell and transferred to a recipient cell. Methods disclosed herein can be used to alter donor genomes from intractable donor cells in more tractable host cells.
Type:
Application
Filed:
May 19, 2010
Publication date:
March 3, 2011
Applicant:
Synthetic Genomics, Inc.
Inventors:
Gwynedd A. Benders, John I. Glass, Clyde A. Hutchison, Carole Lartigue, Sanjay Vashee, Mikkel A. Algire, Hamilton O. Smith, Charles E. Merryman, Vladimir N. Noskov, Ray-Yuan Chuang, Daniel G. Gibson, J. Craig Venter
Abstract: The present invention provides novel genes encoding Class II acyl-ACP thioesterases and variants thereof that are active on C8, C10, C12, C14, C16, and C18 acyl-ACP substrates. The thioesterases can be introduced into transgenic organisms, including microorganisms and photosynthetic organisms, for producing fatty acids and fatty acid products.
Abstract: The present invention provides compositions and methods for treating, inhibiting or preventing the developing of a plant pathogenic disease. The compositions comprise volatile organic compounds effective to inhibit the growth of, or kill pathogenic microbes, including Ganoderma boninense. Invention compositions are especially useful in preventing and treating basal stem rot in the oil palm, and can be applied in the vicinity of the plant or used to sterilize the plant growth medium prior to or concurrent with plant growth therein.
Abstract: The present invention relates, e.g., to an in vitro method, using isolated protein reagents, for joining two double-stranded (ds) DNA molecules of interest, wherein the distal region of the first DNA molecule and the proximal region of the second DNA molecule share a region of sequence identity, comprising (a) chewing back the DNA molecules with an enzyme having an exonuclease activity, to yield single-stranded overhanging portions of each DNA molecule which contain a sufficient length of the region of sequence identity to hybridize specifically to each other; (b) specifically annealing the single-stranded overhangs; and (c) repairing single-stranded gaps in the annealed DNA molecules and sealing the nicks thus formed (ligating the nicked DNA molecules). The region of sequence identity generally comprises at least 20 non-palindromic nucleotides (nt), e.g., at least about 40 non-palindromic nt.
Abstract: The present invention relates, e.g., to in vitro method, using isolated protein reagents, for joining two double stranded (ds) DNA molecules of interest, wherein the distal region of the first DNA molecule and the proximal region of the second DNA molecule share a region of sequence identity, comprising contacting the two DNA molecules in a reaction mixture with (a) a non-processive 5? exonculease; (b) a single stranded DNA binding protein (SSB) which accelerates nucleic acid annealing; (c) a non strand-displacing DNA polymerase; and (d) a ligase, under conditions effective to join the two DNA molecules to form an intact double stranded DNA molecule, in which a single copy of the region of sequence identity is retained. The method allows the joining of a number of DNA fragments, in a predetermined order and orientation, without the use of restriction enzymes.
Type:
Grant
Filed:
August 11, 2006
Date of Patent:
May 25, 2010
Assignee:
Synthetic Genomics, Inc.
Inventors:
Lei Young, Hamilton O. Smith, Daniel Glenn Gibson
Abstract: A method is provided for synthesis of error-minimized nucleic acid molecules. Oligonucleotides intended to have fragments of a desired, full-length nucleotide sequence, and optionally containing other desired nucleotides, such as nucleotides for binding the oligonucleotides to a substrate, are obtained. Oligonucleotides for both strands of the desired, full-length sequence may be obtained. The oligonucleotides are amplified and assembled into a first set of molecules intended to have the desired, full-length nucleotide sequence. The first set of molecules is denatured and annealed to form a second set of molecules intended to have the desired, full-length nucleotide sequence. The second set of molecules is cut into smaller segments, for example, by mixing the molecules with endonucleases that form blunt cuts in the second set of molecules where there are sequence errors, as well as randomly along the molecules.
Abstract: A method to assemble any desired nucleic acid molecule by combining cassettes in vitro to form assemblies which are further combined in vivo, or by assembling large numbers of DNA fragments by recombination in a yeast culture to obtain desired DNA molecules of substantial size is described.
Type:
Application
Filed:
October 7, 2008
Publication date:
November 5, 2009
Applicant:
Synthetic Genomics, Inc.
Inventors:
Daniel G. Gibson, Lei Young, John I. Glass, Gwynedd A. Benders, J. Craig Venter, Clyde A. Hutchison, III, Hamilton O. Smith