Maxima™ H minus first strand cDNA synthesis kits
Lieferant: Thermo Fisher Scientific
Maxima™ H Minus First Strand cDNA Synthesis Kit is a complete system for highly efficient synthesis of first strand cDNA. The kit uses the Maxima™ H Minus Reverse Transcriptase (RT), which is an advanced enzyme derived by in vitro evolution of M-MuLV RT. The enzyme features the highest thermostability among the derivatives of M-MuLV RT and lacks RNase H activity. The Maxima™ H Minus First Strand cDNA Synthesis Kit allows synthesis of long cDNAs up to 20 kb at elevated temperatures (up to 65 °C), superseding other systems' abilities to produce full-length cDNA. Due to increased synthesis rates the reaction can be completed in 30 minutes.
- Integrated genomic DNA removal step
- Increased reaction temperatures: The first strand of cDNA can be synthesised within the 42 to 65 °C temperature range
- High yields of full-length first strand cDNA with RNA templates up to 20 kb
- Flexible priming: Oligo(dT)18, random hexamer, or gene-specific primers
Maxima™ H Minus First Strand cDNA Synthesis Kit with dsDNase provides a dramatically simplified workflow that combines genomic DNA elimination and cDNA synthesis into one-tube procedure. The kit contains a novel double-strand specific DNase (dsDNase) engineered to remove contaminating genomic DNA from RNA preps in 2 minutes without damage to quality or quantity of RNA. Highly specific dsDNase activity towards double-stranded DNA ensures that single-stranded DNA (such as cDNA and primers) is not cleaved and dsDNase treated RNA can be directly added to reverse transcription.
Lieferumfang: Maxima™ H Minus First Strand cDNA Synthesis Kit contains Maxima™ H Minus Enzyme Mix, Oligo(dT)18 and Random hexamer primers, 5X RT Buffer, dNTP Mix, and nuclease-free water. Maxima™ H Minus First Strand cDNA Synthesis Kit with dsDNase, in addition to the above listed components, contains dsDNase and 10X dsDNase Buffer.
Learn more
About VWR
Avantor is a vertically integrated, global supplier of discovery-to-delivery solutions for...