The invention relates to the use of polyphosphate containing species in a method of nucleic acid synthesis, to methods of nucleic acid synthesis, and to the use of kits comprising said polyphosphate containing species. The invention also relates to the use of polyphosphate containing species for the capping of 3′-terminal hydroxyl moieties using terminal transferases.

The invention relates to the use of polyphosphate containing species in a method of nucleic acid synthesis, to methods of nucleic acid synthesis, and to the use of kits comprising said polyphosphate containing species. The invention also relates to the use of polyphosphate containing species for the capping of 3′-terminal hydroxyl moieties using terminal transferases.

Provided herein, among other things, is a conjugate comprising a polymerase and a nucleoside triphosphate, where the polymerase and the nucleoside triphosphate are covalently linked via a linker that comprises a cleavable linkage. A set of such conjugates, where the conjugates correspond to G, A, T (or U) and C is also provided. Methods for synthesizing a nucleic acid of a defined sequence are also provided. The conjugates can also be used for sequencing applications.

Provided herein, among other things, is a conjugate comprising a polymerase and a nucleoside triphosphate, where the polymerase and the nucleoside triphosphate are covalently linked via a linker that comprises a cleavable linkage. A set of such conjugates, where the conjugates correspond to G, A, T (or U) and C is also provided. Methods for synthesizing a nucleic acid of a defined sequence are also provided. The conjugates can also be used for sequencing applications.

An inventive method for amplifying at least one RNA which is contained in a sample includes reverse transcribing the at least one RNA using a first primer, adding a dideoxy nucleotide which is modified in the 3′-position with a first partner of a pair of azide and alkyne molecules by action of a template independent polymerase to attach a single 3′-azide- or 3′-alkyne-modified dideoxy nucleotide at the 3′-end of the obtained cDNA, adding an adapter molecule which comprises a polynucleotide sequence and at its 5′-end a second partner of such pair of azide and alkyne molecules and ligating the adapter to the 3′-modified cDNA under formation of a triazole linkage, adding a second primer which is complementary to at least a part of the adapter molecule and which contains at its 3′-end a nucleotide which is complementary to the dideoxy nucleotide at the 3′-end of the cDNA to effect hybridization and binding of the second primer overlapping the triazole linkage, adding a third primer and amplifying the full length cDNA. Variations of this method are also disclosed. Uses of such method especially for preparing a full length RNA library and for sequencing of a plurality of RNAs contained in a sample, as well as reagent kits for performing such methods are also disclosed and included in the invention.

An inventive method for amplifying at least one RNA which is contained in a sample includes reverse transcribing the at least one RNA using a first primer, adding a dideoxy nucleotide which is modified in the 3′-position with a first partner of a pair of azide and alkyne molecules by action of a template independent polymerase to attach a single 3′-azide- or 3′-alkyne-modified dideoxy nucleotide at the 3′-end of the obtained cDNA, adding an adapter molecule which comprises a polynucleotide sequence and at its 5′-end a second partner of such pair of azide and alkyne molecules and ligating the adapter to the 3′-modified cDNA under formation of a triazole linkage, adding a second primer which is complementary to at least a part of the adapter molecule and which contains at its 3′-end a nucleotide which is complementary to the dideoxy nucleotide at the 3′-end of the cDNA to effect hybridization and binding of the second primer overlapping the triazole linkage, adding a third primer and amplifying the full length cDNA. Variations of this method are also disclosed. Uses of such method especially for preparing a full length RNA library and for sequencing of a plurality of RNAs contained in a sample, as well as reagent kits for performing such methods are also disclosed and included in the invention.

The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using renewable initiators coupled to a solid support. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template.

The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using renewable initiators coupled to a solid support. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template.

Disclosed herein include methods and compositions for selectively amplifying and/or extending nucleic acid target molecules in a sample. The methods and compositions can, for example, reduce the amplification and/or extension of undesirable nucleic acid species in the sample, and/or allow selective removal of undesirable nucleic acid species in the sample.

Disclosed herein include methods and compositions for selectively amplifying and/or extending nucleic acid target molecules in a sample. The methods and compositions can, for example, reduce the amplification and/or extension of undesirable nucleic acid species in the sample, and/or allow selective removal of undesirable nucleic acid species in the sample.