RNAi / miRNA Mimics and Inhibitor

  • Custom shRNA Over-Expressing Plasmid

    Custom shRNA Over-Expressing Plasmid

    TOOLS provide high quality, trusty, and high-efficiency custom shRNA over-expressing plasmids to fit your experiment. We offer ten different vectors to build your own custom shRNA over-expressing plasmid. Besides, we provide two type of products you can choose.

  • Positive Control shRNA Plasmid (GAPDH)

    Positive Control shRNA Plasmid (GAPDH)

    TOOLS provide high quality, trusty, and high-efficiency custom shRNA over-expressing plasmids to fit your experiment. We offer ten different vectors to build your own custom shRNA over-expressing plasmid. Besides, we provide two type of products you can choose.




  • Negative Control shRNA Plasmid

    Negative Control shRNA Plasmid

    TOOLS provide high quality, trusty, and high-efficiency custom shRNA over-expressing plasmids to fit your experiment. We offer ten different vectors to build your own custom shRNA over-expressing plasmid. Besides, we provide two type of products you can choose.





  • In vitro siRNA

    In vitro siRNA

    RNA interference (RNAi) is the best way to effectively knock down gene expression to study protein function in a wide range of cell types. Traditional RNAi methods for gene knockdown in mammalian cells involved the use of synthetic RNA duplexes consisting of two unmodified 21-mer oligonucleotides annealed together to form short/small interfering RNAs (siRNAs).

  • In vitro Chemically-Modified siRNA

    In vitro Chemically-Modified siRNA

    RNA interference (RNAi) is the best way to effectively knock down gene expression to study protein function in a wide range of cell types. Traditional RNAi methods for gene knockdown in mammalian cells involved the use of synthetic RNA duplexes consisting of two unmodified 21-mer oligonucleotides annealed together to form short/small interfering RNAs (siRNAs).



  • In vitro miRNA Mimics

    In vitro miRNA Mimics

    TOOLS miRNA mimics are small, double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity. TOOLS miRNA mimics are more specific than their predecessors due to inactivation of the star strand by proprietary chemical modifications.
     

  • In vitro miRNA negative control

    In vitro miRNA negative control

    TOOLS miRNA mimics are small, double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity. TOOLS miRNA mimics are more specific than their predecessors due to inactivation of the star strand by proprietary chemical modifications.

  • In vitro chemically-modified miRNA inhibitor

    In vitro chemically-modified miRNA inhibitor

    TOOLS miRNA mimics are small, double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity. TOOLS miRNA mimics are more specific than their predecessors due to inactivation of the star strand by proprietary chemical modifications.

  • In vitro chemically-modified miRNA inhibitor negative control

    In vitro chemically-modified miRNA inhibitor negative control

    TOOLS miRNA mimics are small, double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity. TOOLS miRNA mimics are more specific than their predecessors due to inactivation of the star strand by proprietary chemical modifications.

  • in vivo miRNA Mimics

    in vivo miRNA Mimics

    TOOLS miRNA mimics are small, double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity. TOOLS miRNA mimics are more specific than their predecessors due to inactivation of the star strand by proprietary chemical modifications.

  • in vivo Chemically-Modified siRNA
  • In vivo chemically-modified miRNA inhibitor

    In vivo chemically-modified miRNA inhibitor

    TOOLS miRNA mimics are small, double-stranded RNAs that mimic endogenous miRNAs and enable miRNA functional analysis by up-regulation of miRNA activity. TOOLS miRNA mimics are more specific than their predecessors due to inactivation of the star strand by proprietary chemical modifications.

  • Negative Control siRNA

    Negative Control siRNA

    RNA interference (RNAi) is the best way to effectively knock down gene expression to study protein function in a wide range of cell types. Traditional RNAi methods for gene knockdown in mammalian cells involved the use of synthetic RNA duplexes consisting of two unmodified 21-mer oligonucleotides annealed together to form short/small interfering RNAs (siRNAs).

  • FAM Negative Control siRNA

    FAM Negative Control siRNA

    RNA interference (RNAi) is the best way to effectively knock down gene expression to study protein function in a wide range of cell types. Traditional RNAi methods for gene knockdown in mammalian cells involved the use of synthetic RNA duplexes consisting of two unmodified 21-mer oligonucleotides annealed together to form short/small interfering RNAs (siRNAs).

  • In vivo miRNA mimics negative control

    In vivo miRNA mimics negative control

    TOOLS miRNA inhibitors are small, chemically modified single-stranded RNA molecules designed to specifically bind to and inhibit endogenous miRNA molecules and enable miRNA functional analysis by down-regulation of miRNA activity. TOOLS miRNA inhibitors are more potent than their predecessors.