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    New England Biolabs t4 rnl2 reaction buffer
    Scheme of the splinted-ligation method in bRNA construction. In this method, a 2΄-5΄ linked ribo-guanosine (G)-nucleoside in an RNA strand containing the 5΄-segment and 2΄-arm (precursor 1) is transformed into a branchpoint nucleotide by ligation to an RNA strand representing the 3΄-arm (precursor 2). To do so, the two precursors are hybridized partially to a complementary RNA bridge. In this way, the 5΄-phosphate of precursor 2 is brought close to the free 3΄-hydroxyl of the 2΄-5΄ linked nucleoside of precursor 1. The two oligonucleotides are then joined by T4 RNA Ligase 2. Red, blue, and pink symbols ‘w’ represent RNA; the black line represents DNA. The 2΄-5΄ linked ribo-G-nucleoside in precursor 1 at nucleotide (nt) position 37 is highlighted. Nucleic acids downstream of a 2΄-5΄ linkage are plotted vertically in linear and branched oligonucleotides.
    T4 Rnl2 Reaction Buffer, supplied by New England Biolabs, used in various techniques. Bioz Stars score: 99/100, based on 3 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 rnl2 reaction buffer/product/New England Biolabs
    Average 99 stars, based on 3 article reviews
    Price from $9.99 to $1999.99
    t4 rnl2 reaction buffer - by Bioz Stars, 2020-07
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    99
    Thermo Fisher t4 rnl2 reaction buffer
    Scheme of the splinted-ligation method in bRNA construction. In this method, a 2΄-5΄ linked ribo-guanosine (G)-nucleoside in an RNA strand containing the 5΄-segment and 2΄-arm (precursor 1) is transformed into a branchpoint nucleotide by ligation to an RNA strand representing the 3΄-arm (precursor 2). To do so, the two precursors are hybridized partially to a complementary RNA bridge. In this way, the 5΄-phosphate of precursor 2 is brought close to the free 3΄-hydroxyl of the 2΄-5΄ linked nucleoside of precursor 1. The two oligonucleotides are then joined by T4 RNA Ligase 2. Red, blue, and pink symbols ‘w’ represent RNA; the black line represents DNA. The 2΄-5΄ linked ribo-G-nucleoside in precursor 1 at nucleotide (nt) position 37 is highlighted. Nucleic acids downstream of a 2΄-5΄ linkage are plotted vertically in linear and branched oligonucleotides.
    T4 Rnl2 Reaction Buffer, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 99/100, based on 18 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 rnl2 reaction buffer/product/Thermo Fisher
    Average 99 stars, based on 18 article reviews
    Price from $9.99 to $1999.99
    t4 rnl2 reaction buffer - by Bioz Stars, 2020-07
    99/100 stars
      Buy from Supplier

    99
    New England Biolabs t4 rna ligase 2 reaction solution
    Graphical Visualization of the 3′ RACE-Seq Approach, Related to Figure 2 (A) Graphical representation of 3′ RACE-seq library preparation and the oligonucleotides used. First, the 3′ adaptor RA3_15N was joined to the 3′ end of RNA by enzymatic ligation. The adaptor has: (i) 5′ rApp modification for efficient and specific ligation by the truncated <t>T4</t> RNA ligase 2, (ii) delimiter sequence to be used in bioinformatics analyses to exclude RT and PCR artifacts (CTGAC, highlighted in violet), (iii) unique 15N barcode for individual transcript barcoding (highlighted in green), (iv) anchor sequence to pair with the reverse transcription primer (underlined) and (v) dideoxyC on the 3′ end to prevent concatamer formation. The RNA ligated to the adaptor sequence was purified from excess adaptor and reverse transcription was performed with the RT primer, which is compatible with Illumina sequencing and has: (i) sequences to base-pair with the adaptor (underlined), (ii) 6-nucleotide barcode for sample barcoding (highlighted in red), (iii) sequences that base pair with the universal outer primer for nested PCR (blue). Libraries were generated by nested PCR with 2 outer forward primers (F1 and F2) and a single universal reverse primer (uni rev). PCR amplicons of first and second PCRs were purified from excess primers on AmPure beads (Agencourt) before beginning the next step. (B) Flowchart of the bioinformatics approach to 3′ RACE-seq data analysis. The procedure starts at the top. Datasets are shown in rectangles. Software used is depicted in hexagons.
    T4 Rna Ligase 2 Reaction Solution, supplied by New England Biolabs, used in various techniques. Bioz Stars score: 99/100, based on 5 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/t4 rna ligase 2 reaction solution/product/New England Biolabs
    Average 99 stars, based on 5 article reviews
    Price from $9.99 to $1999.99
    t4 rna ligase 2 reaction solution - by Bioz Stars, 2020-07
    99/100 stars
      Buy from Supplier

    Image Search Results


    Scheme of the splinted-ligation method in bRNA construction. In this method, a 2΄-5΄ linked ribo-guanosine (G)-nucleoside in an RNA strand containing the 5΄-segment and 2΄-arm (precursor 1) is transformed into a branchpoint nucleotide by ligation to an RNA strand representing the 3΄-arm (precursor 2). To do so, the two precursors are hybridized partially to a complementary RNA bridge. In this way, the 5΄-phosphate of precursor 2 is brought close to the free 3΄-hydroxyl of the 2΄-5΄ linked nucleoside of precursor 1. The two oligonucleotides are then joined by T4 RNA Ligase 2. Red, blue, and pink symbols ‘w’ represent RNA; the black line represents DNA. The 2΄-5΄ linked ribo-G-nucleoside in precursor 1 at nucleotide (nt) position 37 is highlighted. Nucleic acids downstream of a 2΄-5΄ linkage are plotted vertically in linear and branched oligonucleotides.

    Journal: Nucleic Acids Research

    Article Title: Arm-specific cleavage and mutation during reverse transcription of 2΄,5΄-branched RNA by Moloney murine leukemia virus reverse transcriptase

    doi: 10.1093/nar/gkx073

    Figure Lengend Snippet: Scheme of the splinted-ligation method in bRNA construction. In this method, a 2΄-5΄ linked ribo-guanosine (G)-nucleoside in an RNA strand containing the 5΄-segment and 2΄-arm (precursor 1) is transformed into a branchpoint nucleotide by ligation to an RNA strand representing the 3΄-arm (precursor 2). To do so, the two precursors are hybridized partially to a complementary RNA bridge. In this way, the 5΄-phosphate of precursor 2 is brought close to the free 3΄-hydroxyl of the 2΄-5΄ linked nucleoside of precursor 1. The two oligonucleotides are then joined by T4 RNA Ligase 2. Red, blue, and pink symbols ‘w’ represent RNA; the black line represents DNA. The 2΄-5΄ linked ribo-G-nucleoside in precursor 1 at nucleotide (nt) position 37 is highlighted. Nucleic acids downstream of a 2΄-5΄ linkage are plotted vertically in linear and branched oligonucleotides.

    Article Snippet: The ligation reaction was performed in 20 μl containing 1× T4 Rnl2 reaction buffer (NEB), 12.5% (w/v) polyethylene glycol (PEG) 8000 or PEG 4000 and 5 units of T4 RNA Ligase 2 (NEB).

    Techniques: Ligation, Transformation Assay

    Graphical Visualization of the 3′ RACE-Seq Approach, Related to Figure 2 (A) Graphical representation of 3′ RACE-seq library preparation and the oligonucleotides used. First, the 3′ adaptor RA3_15N was joined to the 3′ end of RNA by enzymatic ligation. The adaptor has: (i) 5′ rApp modification for efficient and specific ligation by the truncated T4 RNA ligase 2, (ii) delimiter sequence to be used in bioinformatics analyses to exclude RT and PCR artifacts (CTGAC, highlighted in violet), (iii) unique 15N barcode for individual transcript barcoding (highlighted in green), (iv) anchor sequence to pair with the reverse transcription primer (underlined) and (v) dideoxyC on the 3′ end to prevent concatamer formation. The RNA ligated to the adaptor sequence was purified from excess adaptor and reverse transcription was performed with the RT primer, which is compatible with Illumina sequencing and has: (i) sequences to base-pair with the adaptor (underlined), (ii) 6-nucleotide barcode for sample barcoding (highlighted in red), (iii) sequences that base pair with the universal outer primer for nested PCR (blue). Libraries were generated by nested PCR with 2 outer forward primers (F1 and F2) and a single universal reverse primer (uni rev). PCR amplicons of first and second PCRs were purified from excess primers on AmPure beads (Agencourt) before beginning the next step. (B) Flowchart of the bioinformatics approach to 3′ RACE-seq data analysis. The procedure starts at the top. Datasets are shown in rectangles. Software used is depicted in hexagons.

    Journal: Cell

    Article Title: Uridylation by TUT4/7 Restricts Retrotransposition of Human LINE-1s

    doi: 10.1016/j.cell.2018.07.022

    Figure Lengend Snippet: Graphical Visualization of the 3′ RACE-Seq Approach, Related to Figure 2 (A) Graphical representation of 3′ RACE-seq library preparation and the oligonucleotides used. First, the 3′ adaptor RA3_15N was joined to the 3′ end of RNA by enzymatic ligation. The adaptor has: (i) 5′ rApp modification for efficient and specific ligation by the truncated T4 RNA ligase 2, (ii) delimiter sequence to be used in bioinformatics analyses to exclude RT and PCR artifacts (CTGAC, highlighted in violet), (iii) unique 15N barcode for individual transcript barcoding (highlighted in green), (iv) anchor sequence to pair with the reverse transcription primer (underlined) and (v) dideoxyC on the 3′ end to prevent concatamer formation. The RNA ligated to the adaptor sequence was purified from excess adaptor and reverse transcription was performed with the RT primer, which is compatible with Illumina sequencing and has: (i) sequences to base-pair with the adaptor (underlined), (ii) 6-nucleotide barcode for sample barcoding (highlighted in red), (iii) sequences that base pair with the universal outer primer for nested PCR (blue). Libraries were generated by nested PCR with 2 outer forward primers (F1 and F2) and a single universal reverse primer (uni rev). PCR amplicons of first and second PCRs were purified from excess primers on AmPure beads (Agencourt) before beginning the next step. (B) Flowchart of the bioinformatics approach to 3′ RACE-seq data analysis. The procedure starts at the top. Datasets are shown in rectangles. Software used is depicted in hexagons.

    Article Snippet: The reactions were carried out in 20 μL with 1x T4 RNA ligase 2 truncated buffer (NEB) supplemented with PEG-8000 at 10% final concentration, 0.25 U/μl RiboLock inhibitor (Thermo Fisher Scientific), 3 pmol of the 5′ FAM-labeled 44-mer oligonucleotide RNA44 (Future Synthesis) and 300 U T4 RNA ligase 2 truncated (NEB) for 18h at 18°C.

    Techniques: Ligation, Modification, Sequencing, Polymerase Chain Reaction, Purification, Nested PCR, Generated, Software