Patent application number | Description | Published |
20080268520 | COMPOSITIONS AND METHODS FOR RECOMBINATIONAL CLONING OF NUCLEIC ACID MOLECULES - The present invention relates generally to compositions and methods for enhancing recombinational cloning of nucleic acid molecules. In particular, the invention relates to compositions comprising one or more ribosomal proteins and one or more additional protein components required for recombinational cloning. More particularly, the invention relates to such compositions wherein the ribosomal proteins are one or more | 10-30-2008 |
20090068652 | Method for identifying the sequence of one or more variant nucleotides in a nucleic acid molecule - The invention relates to methods for identifying the sequence of one or more variant nucleotides in a nucleic acid molecule. The method involves cleaving a double-stranded nucleic acid molecule containing a mismatch with a mismatch-specific endonuclease which cleaves on the 3′ side of the mismatch, and preserving the integrity of the variant nucleotide by ligating a double-stranded linker with a 3′-overhang to said variant nucleotide. Because the variant nucleotide is immediately adjacent to the linker, PCR and/or sequence-by-synthesis analysis can be readily carried out. | 03-12-2009 |
20090068659 | Method for identifying the sequence of one or more variant nucleotides in a nucleic acid molecule - The invention relates to methods for identifying the sequence of one or more variant nucleotides in nucleic acid molecules. The method involves cleaving a double-stranded nucleic acid molecule containing a mismatch with a mismatch-specific endonuclease which cleaves on the 3′ side of the mismatch, and preserving the integrity of the variant nucleotide by ligating a Double-Stranded Linker with a degenerate 3′-overhang to said variant nucleotide. Because the variant nucleotide is immediately adjacent to the linker, PCR and/or sequence-by-synthesis analysis can be readily carried out. | 03-12-2009 |
20090275100 | COMPOSITIONS AND METHODS FOR ENHANCED SENSITIVITY AND SPECIFICITY OF NUCLEIC ACID SYNTHESIS - The present invention relates to nucleic acid inhibitors, compositions and method for enhancing synthesis of nucleic acid molecules. In a preferred aspect, the invention relates to inhibition or control of nucleic acid synthesis, sequencing or amplification. Specifically, the present invention discloses nucleic acids having affinity for polypeptides with polymerase activity for use in such synthesis, amplification or sequencing reactions. The nucleic acid inhibitors are capable of inhibiting nonspecific nucleic acid synthesis under certain conditions (e.g., at ambient temperatures). Thus, in a preferred aspect, the invention relates to “hot start” synthesis of nucleic acid molecules. Accordingly, the invention prevents, reduces or substantially reduces nonspecific nucleic acid synthesis. The invention also relates to kits for synthesizing, amplifying, reverse transcribing or sequencing nucleic acid molecules comprising one or more of the nucleic acid inhibitors or compositions of the invention. The invention also relates to using the inhibitors of the invention to prevent viral replication or treat viral infections in a subject. Thus, the invention relates to therapeutic methods and pharmaceutical compositions using the inhibitors of the invention. The invention thus may be used for in vivo and in vitro inhibition of nucleic acid synthesis and/or inhibition of polymerase activity. | 11-05-2009 |
20100015683 | THERMOSTABLE REVERSE TRANSCRIPTASES AND USES THEREOF - The present invention is in the fields of molecular and cellular biology. The invention is generally related to reverse transcriptase enzymes and methods for the reverse transcription of nucleic acid molecules, especially messenger RNA molecules. Specifically, the invention relates to reverse transcriptase enzymes which have been mutated or modified to increase thermostability, decrease terminal deoxynucleotidyl transferase activity, and/or increase fidelity, and to methods of producing, amplifying or sequencing nucleic acid molecules (particularly cDNA molecules) using these reverse transcriptase enzymes or compositions. The invention also relates to nucleic acid molecules produced by these methods and to the use of such nucleic acid molecules to produce desired polypeptides. The invention also concerns kits comprising such enzymes or compositions. | 01-21-2010 |
20100190175 | METHODS OF RANDOM MUTAGENESIS AND METHODS OF MODIFYING NUCLEIC ACIDS USING TRANSLESION DNA POLYMERASES - The invention is related generally to methods of amplifying or synthesizing or producing nucleic acid molecules using Translesion DNA polymerases. In particular, the invention relates to methods of introducing a random mutation into a nucleic acid and encoded polypeptide using Translesion DNA polymerases. The invention also relates to methods of introducing a modified nucleotide into a nucleic acid using Translesion DNA polymerases. The invention also relates to mutagenized and modified nucleic acid molecules and proteins produced by these methods, and to fragments or derivatives thereof. The invention also relates to vectors and host cells comprising mutagenized nucleic acid molecules, fragments, or derivatives. The invention also relates to the use of mutagenized nucleic acid molecules to produce desired polypeptides and uses of modified nucleic acid molecules to analyze samples. The invention also relates to kits or compositions or compounds for use in the invention or for carrying out the invention. | 07-29-2010 |
20110008770 | COMPOSITIONS AND METHODS FOR REVERSE TRANSCRIPTION OF NUCLEIC ACID MOLECULES - The present invention is generally related to compositions and methods for the reverse transcription of nucleic acid molecules, especially messenger RNA molecules. Specifically, the invention relates to compositions comprising mixtures of polypeptides having reverse transcriptase (RT) activity, and to methods of producing, amplifying or sequencing nucleic acid molecules (particularly cDNA molecules) using these compositions or polypeptides, particularly at temperatures above about 55° C. The invention also relates to nucleic acid molecules produced by these methods, to vectors and host cells comprising these nucleic acid molecules, and to the use of such nucleic acid molecules to produce desired polypeptides. The invention also relates to methods for producing Rous Sarcoma Virus (RSV) and Avian Myeloblastosis Virus (AMV) RTs or other Avian Sarcoma-Leukosis Virus (ASLV) RTs (α and/or β subunits thereof), to isolated nucleic acid molecules encoding such RSV RT, AMV RT or other ASLV RT subunits, to vectors and host cells comprising these isolated nucleic acid molecules and to RSV RT, AMV RT and other ASLV RT subunits produced by these methods. The invention further relates to nucleic acid molecules encoding recombinant heterodimeric RT holoenzymes, particularly heterodimeric RSV RTs, AMV RTs or other ASLV RTs (which may be αβ RTs, ββ RTs, or α RTs), vectors (particularly baculovirus vectors) and host cells (particularly insect and yeast cells) comprising these nucleic acid molecules, methods for producing these heterodimeric RTs and heterodimeric RTs produced by these methods. The invention also relates to kits comprising the compositions, polypeptides, or RSV RTs, AMV RTs or other ASLV RTs of the invention. | 01-13-2011 |
20110081704 | THERMOSTABLE REVERSE TRANSCRIPTASES AND USES THEREOF - The present invention is in the fields of molecular and cellular biology. The invention is generally related to reverse transcriptase enzymes and methods for the reverse transcription of nucleic acid molecules, especially messenger RNA molecules. Specifically, the invention relates to reverse transcriptase enzymes which have been mutated or modified to increase thermostability, decrease terminal deoxynucleotidyl transferase activity, and/or increase fidelity, and to methods of producing, amplifying or sequencing nucleic acid molecules (particularly cDNA molecules) using these reverse transcriptase enzymes or compositions. The invention also relates to nucleic acid molecules produced by these methods and to the use of such nucleic acid molecules to produce desired polypeptides. The invention also concerns kits comprising such enzymes or compositions. | 04-07-2011 |
20110160289 | COMPOSITIONS AND METHODS FOR ENHANCED SENSITIVITY AND SPECIFICITY OF NUCLEIC ACID SYNTHESIS - The present invention relates to nucleic acid inhibitors, compositions and method for enhancing synthesis of nucleic acid molecules. In a preferred aspect, the invention relates to inhibition or control of nucleic acid synthesis, sequencing or amplification. Specifically, the present invention discloses nucleic acids having affinity for polypeptides with polymerase activity for use in such synthesis, amplification or sequencing reactions. The nucleic acid inhibitors are capable of inhibiting nonspecific nucleic acid synthesis under certain conditions (e.g., at ambient temperatures). Thus, in a preferred aspect, the invention relates to “hot start” synthesis of nucleic acid molecules. Accordingly, the invention prevents, reduces or substantially reduces nonspecific nucleic acid synthesis. The invention also relates to kits for synthesizing, amplifying, reverse transcribing or sequencing nucleic acid molecules comprising one or more of the nucleic acid inhibitors or compositions of the invention. The invention also relates to using the inhibitors of the invention to prevent viral replication or treat viral infections in a subject. Thus, the invention relates to therapeutic methods and pharmaceutical compositions using the inhibitors of the invention. The invention thus may be used for in vivo and in vitro inhibition of nucleic acid synthesis and/or inhibition of polymerase activity. | 06-30-2011 |
20120021464 | THERMOSTABLE REVERSE TRANSCRIPTASES AND USES THEREOF - The present invention is in the fields of molecular and cellular biology. The invention is generally related to reverse transcriptase enzymes and methods for the reverse transcription of nucleic acid molecules, especially messenger RNA molecules. Specifically, the invention relates to reverse transcriptase enzymes which have been mutated or modified to increase thermostability, decrease terminal deoxynucleotidyl transferase activity, and/or increase fidelity, and to methods of producing, amplifying or sequencing nucleic acid molecules (particularly cDNA molecules) using these reverse transcriptase enzymes or compositions. The invention also relates to nucleic acid molecules produced by these methods and to the use of such nucleic acid molecules to produce desired polypeptides. The invention also concerns kits comprising such enzymes or compositions. | 01-26-2012 |
20140363854 | THERMOSTABLE REVERSE TRANSCRIPTASES AND USES THEREOF - The present invention is in the fields of molecular and cellular biology. The invention is generally related to reverse transcriptase enzymes and methods for the reverse transcription of nucleic acid molecules, especially messenger RNA molecules. Specifically, the invention relates to reverse transcriptase enzymes which have been mutated or modified to increase thermostability, decrease terminal deoxynucleotidyl transferase activity, and/or increase fidelity, and to methods of producing, amplifying or sequencing nucleic acid molecules (particularly cDNA molecules) using these reverse transcriptase enzymes or compositions. The invention also relates to nucleic acid molecules produced by these methods and to the use of such nucleic acid molecules to produce desired polypeptides. The invention also concerns kits comprising such enzymes or compositions. | 12-11-2014 |