Disclosed are compositions and methods for template-free nucleic acid synthesis.

Disclosed are compositions and methods for template-free nucleic acid synthesis.

This invention relates to the preparation of nucleic acid samples for analysis. The invention may be particularly useful for single stranded samples. Embodiments of the invention involve the attachment of double stranded or hairpin oligonucleotides using template independent polymerase enzymes in the preparation of nucleic acid sequencing libraries.

This invention relates to the preparation of nucleic acid samples for analysis. The invention may be particularly useful for single stranded samples. Embodiments of the invention involve the attachment of double stranded or hairpin oligonucleotides using template independent polymerase enzymes in the preparation of nucleic acid sequencing libraries.

The present invention is directed to novel methods and kits to be employed for preparing adapter-ligated amplicons or a sequencing library of a target DNA, respectively.

The present invention is directed to novel methods and kits to be employed for preparing adapter-ligated amplicons or a sequencing library of a target DNA, respectively.

The invention refers to a novel method of preparing strand-specific RNA-sequencing libraries that can be used to identify DNA coding and non-coding strands that are transcribed to RNA. Such strand-specific RNA-sequencing libraries are especially useful in discovering anti-sense RNA and non-coding RNA. Random primer oligonucleotides, covalently coupled to a moiety, which blocks ligation, are used for RT reaction or the subsequent generation of the second DNA strand so that only one strand of the generated double-stranded DNA is ligated to sequencing adapters at the 5′ nucleotide and sequenced by paired-end sequencing.

The invention refers to a novel method of preparing strand-specific RNA-sequencing libraries that can be used to identify DNA coding and non-coding strands that are transcribed to RNA. Such strand-specific RNA-sequencing libraries are especially useful in discovering anti-sense RNA and non-coding RNA. Random primer oligonucleotides, covalently coupled to a moiety, which blocks ligation, are used for RT reaction or the subsequent generation of the second DNA strand so that only one strand of the generated double-stranded DNA is ligated to sequencing adapters at the 5′ nucleotide and sequenced by paired-end sequencing.

De novo polynucleotide synthesis is performed with a substrate-bound polymerase. The polymerase is attached to a solid substrate such as a microelectrode array. The polymerase adds nucleotides to growing polynucleotides strands that are also attached to the solid substrate. Spatial control of polymerase activity is achieved by changing the rate of nucleotide polymerization at selected locations on the surface of the solid substrate. The rate of polymerization is changed by inhibiting or promoting activity of the polymerase. In some implementations, activation of electrodes in the microelectrode array changes the rate of nucleotide polymerization. Nucleotides are added to the growing polynucleotide strands at areas where the polymerase is active. By varying the locations where the substrate-bound polymerase is active and the species of nucleotide added, a population of polynucleotides with different, arbitrary sequences is synthesized on the surface of the solid substrate.

De novo polynucleotide synthesis is performed with a substrate-bound polymerase. The polymerase is attached to a solid substrate such as a microelectrode array. The polymerase adds nucleotides to growing polynucleotides strands that are also attached to the solid substrate. Spatial control of polymerase activity is achieved by changing the rate of nucleotide polymerization at selected locations on the surface of the solid substrate. The rate of polymerization is changed by inhibiting or promoting activity of the polymerase. In some implementations, activation of electrodes in the microelectrode array changes the rate of nucleotide polymerization. Nucleotides are added to the growing polynucleotide strands at areas where the polymerase is active. By varying the locations where the substrate-bound polymerase is active and the species of nucleotide added, a population of polynucleotides with different, arbitrary sequences is synthesized on the surface of the solid substrate.