Home

izum Apple Hvala vam gap filling and ligation gozd Priznanje Stanovanje

Recent developments in ligase-mediated amplification and detection: Trends in Biotechnology
Recent developments in ligase-mediated amplification and detection: Trends in Biotechnology

XRCC4:DNA ligase IV can ligate incompatible DNA ends and can ligate across gaps | The EMBO Journal
XRCC4:DNA ligase IV can ligate incompatible DNA ends and can ligate across gaps | The EMBO Journal

Rolling Circle Amplification in Integrated Microsystems: An Uncut Gem toward Massively Multiplexed Pathogen Diagnostics and Genotyping | Accounts of Chemical Research
Rolling Circle Amplification in Integrated Microsystems: An Uncut Gem toward Massively Multiplexed Pathogen Diagnostics and Genotyping | Accounts of Chemical Research

End joining substrates and repair products. The 1-base-gapped substrate... | Download Scientific Diagram
End joining substrates and repair products. The 1-base-gapped substrate... | Download Scientific Diagram

Long patch gap-filling DNA synthesis associated with enhanced 3′–5′... | Download Scientific Diagram
Long patch gap-filling DNA synthesis associated with enhanced 3′–5′... | Download Scientific Diagram

DNA repair deficiency in neuropathogenesis: when all roads lead to mitochondria | Translational Neurodegeneration | Full Text
DNA repair deficiency in neuropathogenesis: when all roads lead to mitochondria | Translational Neurodegeneration | Full Text

Quantitative assessment of LASSO probe assembly and long-read multiplexed cloning | BMC Biotechnology | Full Text
Quantitative assessment of LASSO probe assembly and long-read multiplexed cloning | BMC Biotechnology | Full Text

Essential Factors for Incompatible DNA End Joining at Chromosomal DNA Double Strand Breaks In Vivo | PLOS ONE
Essential Factors for Incompatible DNA End Joining at Chromosomal DNA Double Strand Breaks In Vivo | PLOS ONE

Efficient in situ barcode sequencing using padlock probe-based BaristaSeq Xiaoyin Chen1, Yu-Chi Sun1, George M Church2, 3, Je Hy
Efficient in situ barcode sequencing using padlock probe-based BaristaSeq Xiaoyin Chen1, Yu-Chi Sun1, George M Church2, 3, Je Hy

Pol β gap filling, DNA ligation and substrate-product channeling during base excision repair opposite oxidized 5-methylcytosine modifications - ScienceDirect
Pol β gap filling, DNA ligation and substrate-product channeling during base excision repair opposite oxidized 5-methylcytosine modifications - ScienceDirect

Molecular Inversion Probes for targeted resequencing in non-model organisms | Scientific Reports
Molecular Inversion Probes for targeted resequencing in non-model organisms | Scientific Reports

Substrate specificity and mismatch discrimination in DNA ligases | NEB
Substrate specificity and mismatch discrimination in DNA ligases | NEB

Human DNA Ligase IV and the Ligase IV/XRCC4 Complex: Analysis of Nick Ligation Fidelity | Biochemistry
Human DNA Ligase IV and the Ligase IV/XRCC4 Complex: Analysis of Nick Ligation Fidelity | Biochemistry

Pol β gap filling, DNA ligation and substrate-product channeling during base excision repair opposite oxidized 5-methylcytosine modifications - ScienceDirect
Pol β gap filling, DNA ligation and substrate-product channeling during base excision repair opposite oxidized 5-methylcytosine modifications - ScienceDirect

PDF) Requirement for XRCC4 and DNA Ligase IV in Alignment-based Gap Filling for Nonhomologous DNA End Joining in Vitro1 | Steven Yannone - Academia.edu
PDF) Requirement for XRCC4 and DNA Ligase IV in Alignment-based Gap Filling for Nonhomologous DNA End Joining in Vitro1 | Steven Yannone - Academia.edu

Gap filling and accurate end joining of a DSB substrate bearing... | Download Scientific Diagram
Gap filling and accurate end joining of a DSB substrate bearing... | Download Scientific Diagram

3' Branch Ligation: A Novel Method to Ligate Non-Complementary DNA to Recessed or Internal 3'OH Ends in DNA or RNA | bioRxiv
3' Branch Ligation: A Novel Method to Ligate Non-Complementary DNA to Recessed or Internal 3'OH Ends in DNA or RNA | bioRxiv

Substrate specificity and mismatch discrimination in DNA ligases | NEB
Substrate specificity and mismatch discrimination in DNA ligases | NEB

Patching and Single-Strand Ligation in Nonhomologous DNA End Joining Despite Persistence of a Closely Opposed 3′-Phosphoglycolate-Terminated Strand Break
Patching and Single-Strand Ligation in Nonhomologous DNA End Joining Despite Persistence of a Closely Opposed 3′-Phosphoglycolate-Terminated Strand Break

Implication of DNA Polymerase λ in Alignment-based Gap Filling for Nonhomologous DNA End Joining in Human Nuclear Extracts - ScienceDirect
Implication of DNA Polymerase λ in Alignment-based Gap Filling for Nonhomologous DNA End Joining in Human Nuclear Extracts - ScienceDirect

Figure 4 | Processing of Damaged DNA Ends for Double-Strand Break Repair in Mammalian Cells
Figure 4 | Processing of Damaged DNA Ends for Double-Strand Break Repair in Mammalian Cells

Accurate and effective multidrug-resistant Mycobacterium tuberculosis detection method using gap-filling ligation coupled with high-resolution capillary electrophoresis-based single strand conformation polymorphism | Scientific Reports
Accurate and effective multidrug-resistant Mycobacterium tuberculosis detection method using gap-filling ligation coupled with high-resolution capillary electrophoresis-based single strand conformation polymorphism | Scientific Reports

Combination of gap-filling, dRP lyase and ligation steps. Schematic... | Download Scientific Diagram
Combination of gap-filling, dRP lyase and ligation steps. Schematic... | Download Scientific Diagram