• RTS 9000 E. coli HY Kit

RTS 9000 E. coli HY Kit

  • Biotechrabbit
  • BR1400301
  • Na skladě
  • 129 740,00Kč
  • 127 245,00Kč

- OR -
Tento výrobek má minimální množství 1

Dopravné a balné

Transportní podmínky                                  cena se připočítává k položkám v objednávce

mražené na suchém ledu (dry ice)                   890 Kč bez DPH na zásilky v celkové ceně do 45 000 Kč bez DPH, nad tuto hodnotu je dopravné a balné zdarma


Features

  • Unique CECF technology to ensure high yields
  • Expression of toxic proteins that cannot be produced in vivo
  • Express multiple proteins in parallel
  • Incorporate labeled methionine into synthesized proteins

Applications

  • Large scale, cell-free expression of up to 50 mg protein
  • Catalog #

    Size

    Package Content

    BR1400301

    1 rxn of 10 ml

    Reagents for coupled transcription/translation reactions


  • One RTS 9000 reaction produces ten times more total protein yield (up to 50 mg) than an RTS 500 reaction. This higher total yield is achieved by increasing the reaction volume by a factor of ten, while the productivity per milliliter of lysate in the RTS 500 E. coli HY and RTS 9000 E. coli HY reactions is similar.

    The RTS 9000 Reaction Device is composed of a reaction compartment and a feeding compartment. The 10 ml reaction compartment, where the coupled transcription/translation reaction takes place, is separated from the 100 ml feeding compartment by a semipermeable membrane (cut-off 10 kDa). The plasmid that contains the gene of interest serves as a template for the transcription. An optimized, biochemically enhanced High-Yield (HY) E. coli lysate contains tRNAs, ribosomes, enzymes, factors, and other necessary components required for highly efficient translation. The feeding compartment continuously supplies ions, energy substrates, nucleotides, and amino acids through the semipermeable membrane. Simultaneously, by-products that may inhibit the reaction are diluted through the same membrane into the feeding compartment. This continuous exchange of substrates and by-products across the two semipermeable membranes (CECF technology) allows protein synthesis to continue for up to 24 hours.