t4 dna ligase reaction buffer  (Thermo Fisher)


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    Thermo Fisher t4 dna ligase reaction buffer
    T4 Dna Ligase Reaction Buffer, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 91/100, based on 3 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 dna ligase reaction buffer/product/Thermo Fisher
    Average 91 stars, based on 3 article reviews
    Price from $9.99 to $1999.99
    t4 dna ligase reaction buffer - by Bioz Stars, 2020-05
    91/100 stars

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    Article Title: Activation of the alpha-globin gene expression correlates with dramatic upregulation of nearby non-globin genes and changes in local and large-scale chromatin spatial structure
    Article Snippet: The nuclei were washed twice with 100 μl of 1× T4 DNA ligase reaction buffer (Thermo Scientific) and resuspended in 300 μl of 1× T4 DNA ligase reaction buffer, 75 U of T4 D NA ligase (Thermo Scientific) was added, and the DNA was ligated for 6 h at 16 °C with constant shaking (1400 rpm).

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    Thermo Fisher t4 dna ligase buffer
    Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard <t>T4</t> DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.
    T4 Dna Ligase Buffer, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 96/100, based on 18 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 dna ligase buffer/product/Thermo Fisher
    Average 96 stars, based on 18 article reviews
    Price from $9.99 to $1999.99
    t4 dna ligase buffer - by Bioz Stars, 2020-05
    96/100 stars
      Buy from Supplier

    94
    Thermo Fisher t4 dna ligation buffer
    Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard <t>T4</t> DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.
    T4 Dna Ligation Buffer, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 94/100, based on 18 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 dna ligation buffer/product/Thermo Fisher
    Average 94 stars, based on 18 article reviews
    Price from $9.99 to $1999.99
    t4 dna ligation buffer - by Bioz Stars, 2020-05
    94/100 stars
      Buy from Supplier

    99
    Thermo Fisher t4 dna ligase
    Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard <t>T4</t> DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.
    T4 Dna Ligase, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 99/100, based on 382 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 dna ligase/product/Thermo Fisher
    Average 99 stars, based on 382 article reviews
    Price from $9.99 to $1999.99
    t4 dna ligase - by Bioz Stars, 2020-05
    99/100 stars
      Buy from Supplier

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    Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard T4 DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.

    Journal: Nucleic Acids Research

    Article Title: SPlinted Ligation Adapter Tagging (SPLAT), a novel library preparation method for whole genome bisulphite sequencing

    doi: 10.1093/nar/gkw1110

    Figure Lengend Snippet: Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard T4 DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.

    Article Snippet: For the 3΄-end ligation; adapter ss1 (final conc 10 μM), T4 DNA ligase buffer (40 mM Tris–HCl pH 7.8,10 mM MgCl2 , 10 mM DTT, 0.5 mM ATP), PEG4000 (5% w/v) and 30 units T4 DNA ligase (Thermo Fisher Scientific) and nuclease free water was added to the sample on ice, in a total volume of 30 μl.

    Techniques: Bisulfite Sequencing, Methylation, Construct, Amplification, Polymerase Chain Reaction, Next-Generation Sequencing, Sequencing, DNA Methylation Assay, Random Hexamer Labeling, DNA Ligation, Modification, Ligation

    Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard T4 DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.

    Journal: Nucleic Acids Research

    Article Title: SPlinted Ligation Adapter Tagging (SPLAT), a novel library preparation method for whole genome bisulphite sequencing

    doi: 10.1093/nar/gkw1110

    Figure Lengend Snippet: Principles of library preparation methods for whole genome bisulphite sequencing. In the conventional workflow (MethylC-seq) methylated adapters are ligated to double stranded sheared DNA fragments. The constructs are then bisulphite converted prior to amplification with a uracil reading PCR polymerase. The Accel-NGS Methyl-Seq uses the proprietary Adaptase™ technology to attach a low complexity sequence tail to the 3΄-termini of pre-sheared and bisulphite-converted DNA, and an adapter sequence. After an extension step a second adapter is ligated and the libraries are PCR amplified. The TruSeq DNA Methylation method (formerly EpiGnome) uses random hexamer tagged oligonucleotides to simultaneously copy the bisulphite-converted strand and add a 5΄-terminal adaptor sequence. In a subsequent step, a 3΄-terminal adapter is tagged, also by using a random sequence oligonucleotide. In the SPLAT protocol adapters with a protruding random hexamer are annealed to the 3΄-termini of the single stranded DNA. The random hexamer acts as a ‘splint’ and the adapter sequence is ligated to the 3΄-termini of single stranded DNA using standard T4 DNA ligation. A modification of the last 3΄- residue of the random hexamer is required to prevent self-ligation of the adapter. In a second step, adapters with a 5΄-terminal random hexamer overhang is annealed to ligate the 5΄-termini of the single stranded DNA, also using T4 DNA ligase. Finally the SPLAT libraries are PCR amplified using a uracil reading polymerase.

    Article Snippet: For the 5΄-end ligation; ss2 (final conc 10 μM), T4 DNA ligation buffer, PEG4000 (5%, w/v) and 30 units T4 DNA ligase (Thermo Fisher Scientific) and nuclease free H2 O was added to the sample on ice, in a total volume of 20 μl.

    Techniques: Bisulfite Sequencing, Methylation, Construct, Amplification, Polymerase Chain Reaction, Next-Generation Sequencing, Sequencing, DNA Methylation Assay, Random Hexamer Labeling, DNA Ligation, Modification, Ligation