| Patent application number | Description | Published |
|---|
| 20080206850 | Methods and compositions for DNA synthesis - In some embodiments, the present disclosure relates to new phosphoramidite compositions, that have Silyl-containing carbonate or thiocarbonate or ether as 5′-hydroxyl protecting groups useful of the synthesis of DNA, and in particular for the synthesis of long sequences of DNA (e.g., >50 mer). In some embodiments, there are provided methods for simultaneous oxidation of the internucleoside phosphate triester linkages and removal of the 5′-hydroxyl-protecting group, making this process a new 2-step DNA synthesis, that involves the use of peroxyanions in combination with fluoride anions. | 08-28-2008 |
| 20080206851 | Methods and compositions for RNA synthesis - In some embodiments, the present disclosure relates to new phosphoramidite compositions, that have Silyl-containing carbonate or thiocarbonate or ether as 5′-hydroxyl protecting groups useful fo the syntheis of RNA, and in particular for the synthesis of long sequences of RNA (e.g., >50 mer). In some embodiments, there are provided methods for simultaneous oxidation of the internucleoside phosphate triester linkages and removal of the 5′-hydroxyl-protecting group, making this process a new 2-step RNA synthesis, that involves the use of peroxyanions in combination with fluoride anions. | 08-28-2008 |
| 20080227964 | 2'-silyl containing thiocarbonate protecting groups for RNA synthesis - Nucleoside monomers, nucleic acids, e.g., oligonucleotides and polynucleotides, methods of making each, methods of deprotecting each, and the like are disclosed herein. Aspects of the invention include 2′ silyl containing thiocarbonate protecting groups. Corresponding compositions and methods are provided. | 09-18-2008 |
| 20090036660 | Methods and compositions for generating mixtures of nucleic acid molecules - In some embodiments, the present disclosure provides methods of making a mixture of nucleic acid molecules, the methods comprising the steps of: synthesizing on a substrate a population of nucleic acid molecules wherein each synthesized nucleic acid molecule comprises a substrate-attached proximal nucleic acid molecule, a distal nucleic acid molecule, and a cleavable linker linking the proximal nucleic acid molecule to the distal nucleic acid molecule, and harvesting distal nucleic acid molecules from the substrate by cleaving the cleavable linker under conditions that do not release the proximal nucleic acid molecule. Related compositions and kits are also provided. | 02-05-2009 |
| 20090209479 | THIOCARBON-PROTECTING GROUPS FOR RNA SYNTHESIS - Aspects of the invention include 2′ protected nucleoside monomers that are protected at the 2′ site with thiocarbon protecting groups. Thiocarbon protecting groups of interest include thiocarbonate, thionocarbonate, dithiocarbonate groups, as well as thionocarbamate protecting groups. Aspects of the invention further include nucleic acids that include the protecting groups of the invention, as well as methods of synthesizing nucleic acids using the protecting groups of the invention. | 08-20-2009 |
| 20100076183 | PROTECTED MONOMER AND METHOD OF FINAL DEPROTECTION FOR RNA SYNTHESIS - A nucleoside monomer that is protected by a thionocarbamate protecting group is provided, as well as a method for making a polynucleotide that uses the same. Also provided is a polynucleotide synthesis method that employs a diamine to deprotect a protected polynucleotide. | 03-25-2010 |
| 20100331532 | Use Of N-Alkyl Imidazole For Sulfurization Of Oligonucleotides With An Acetyl Disulfide - A method and compositions for sulfurizing at least one phosphite or thiophosphite linkage in an oligonucleotide. The addition of N-alkyl imidazole to the acetyldisulfide sulfurization solution enables the use of industrially preferred solvents or solvents that are derived from renewable resources. | 12-30-2010 |
| 20100331533 | Use Of Thioacetic Acid Derivatives In The Sulfurization Of Oligonucleotides With Phenylacetyl Disulfide - A method and compositions for sulfurizing at least one phosphite or thiophosphite linkage in an oligonucleotide. The methods employ a phenylacetyl disulfide reagent (known as PADS), phenylthioacetic acid (PTAA) in the presence or absence or N-alkyl imidazole in industrially preferred solvents or solvents that are derived from renewable resources. The use of PTAA eliminates the need to “age” the PADS solution prior to its use in sulfurization reactions. | 12-30-2010 |
