GE Healthcare

DNA Modification Enzymes, GE Healthcare

Compare Tool

Select up to 3 products

All Products

GE Healthcare DNA Modification Enzymes

1 - 6 of 6
Sort
View
Show
  • illustra Exonuclease I

    GE Healthcare

    Exonuclease I catalyzes the sequential removal of nucleotides from the 3' end of single-stranded DNA molecules. 3'?5' single-stranded exonuclease. Monomeric 54.5 kDa bacterial exonuclease I recombinantly expressed in E. coli . Inactivated by heating at 80°C for 15 minutes. Active in PCR…

  • illustra ExoProStar

    GE Healthcare

    Enzymatic PCR clean up technology with illustra Exonuclease I and Alkaline Phosphatase to remove unincorporated primers and dNTPs. For maximum flexibility comes in two separate tubes. Enzymes optimized to work together for high efficiency removal of unincorporated primers and nucleotides. …

  • Ready-To-Go T4 DNA Ligase

    GE Healthcare

  • illustra Shrimp Alkaline Phosphatase

    GE Healthcare

    Alkaline Phosphatase catalyzes the removal of 5'- and 3'-phosphate groups from DNA, RNA, nucleotides, and proteins. Bacterial alkaline phosphatase recombinantly expressed in E. coli . Active in PCR and restriction endonuclease buffers. Inactivated by heating at 75°C for 5 minutes. Bacterial…

  • illustra ExoProStar S

    GE Healthcare

    Enzymatic PCR clean up technology with Exonuclease I and Shrimp Alkaline Phosphatase to remove unincorporated primers and dNTPs. For maximum flexibility comes in two separate tubes. Enzymes optimized to work together for high efficiency removal of unincorporated primers and nucleotides Enzymes…

  • Ready-To-Go T4 DNA Ligase

    GE Healthcare

    Ready-To-Go T4 DNA Ligase For covalently-linking DNA fragments in as little as 30 min. Single-dose, ambient-temperature-stable reaction mixes. For covalently-linking DNA fragments in as little as 30 min.Single-dose, ambient-temperature-stable reaction mixes.Ready-To-Go T4 DNA Ligase Catalyzes…

Compare Tool

Select up to 3 products

Please Log In

Don't have an Account? Create one now.