[RP1400] ExcelRT™ Reverse Transcription Kit II, 100 RXN
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ExcelRT™ Reverse Transcription Kit II is a complete, efficient and convenient kit to synthesize high quality first strand cDNA. This kit contains ExcelRT™ Reverse Transcriptase, which is able to synthesize the first strand cDNA at 37~50°C. The ExcelRT™ Reverse Transcriptase is a recombinant Moloney Murine Leukemia Virus (M-MLV) reverse transcriptase, which is designed to reduce RNase H activity and create better thermal stability. This kit also contains RNAok™ RNase Inhibitor, which is active against RNase A, RNase B, and RNase C. This product is supplied with optimized RT Buffer and Oligo (dT)/Random Primer Mix for highly efficient synthesis of short chain cDNA suitable for real-time PCR.
Detail
Description
ExcelRT™ Reverse Transcription Kit II is a complete, efficient and convenient kit to synthesize high quality first strand cDNA. This kit contains ExcelRT™ Reverse Transcriptase, which is able to synthesize the first strand cDNA at 37~50°C. The ExcelRT™ Reverse Transcriptase is a recombinant Moloney Murine Leukemia Virus (M-MLV) reverse transcriptase, which is designed to reduce RNase H activity and create better thermal stability. This kit also contains RNAok™ RNase Inhibitor, which is active against RNase A, RNase B, and RNase C. This product is supplied with optimized RT Buffer and Oligo (dT)/Random Primer Mix for highly efficient synthesis of short chain cDNA suitable for real-time PCR.
Features
Contains all components for reverse transcription
High yield
Thermostable, up to 50°C
Reduced RNase H ribonuclease activity
Suitable for real-time PCR
Application
Generation of first strand cDNA from total RNA or mRNA.
Suitable for generating cDNA from RNA with strong secondary structure which can be reduced at temperature up to 50°C.
Storage
-20°C for 24 months
Other Products
16S V1-V3 Library Preparation Kit for Illumina
Product Info
Document
Product Info
Overview
Protocol optimized for DNA isolated from a diversity of samples including stool, soil, water, saliva, plant, urine, skin, and more
Simple and quick workflow: library could be prepared in less than 5 hours
Component of Norgen’s metagenomics workflow
A single NGS run can be prepared with up to 384 unique dual-index libraries
The 16S V1-V3 Library Preparation Kit for Illumina consists of the reagents and components required for library preparation of the 16S V1-V3 amplicon libraries to be used for next-generation sequencing on Illumina platforms. All molecular reagents including primers, enzyme mixes, indexes, and buffers are provided. Instructions for PCR clean up with the AMPure XP Magnetic Beads (supplied by customer) are also included for rapid purification of nucleic acid products generated at two steps of the workflow. The library prep workflow could be used for purified DNA inputs from different sources including stool, soil, water, saliva, plant, urine, skin swab, vaginal swab, cheek swab, nasal swab, plasma/serum, tongue swab, gum swab, and others.
The 16S V1-V3 Library Preparation Kit for Illumina has a streamlined procedure that reduces the handling time such that the library prep procedure can be completed in approximately 4 hours (see diagram below). Input DNA is first subjected to targeted PCR to amplify the V1-V3 region of the DNA encoding 16S rRNA. The post-PCR reaction is then cleaned up using AMPure XP beads. Dual index primers are then added using a limited-cycle PCR. The indexed amplicons flanked by 5′ and 3′ barcoded adaptors are then cleaned using AMPure XP beads. The libraries are then ready for quantification, pooling and sequencing.
Storage Conditions and Product Stability Norgen’s 16S V1-V3 Library Prep Kit for Illumina is shipped as one kit box (for the 24 prep kit) or two sub-component kits (for the 96 prep kit). All kits should be stored at -20°C upon arrival.
All kit components should remain stable for at least 1 year when stored at the specified storage conditions.
Blank lateral flow strips are the perfect companion during the development and feasibility testing of a lateral flow device. IN THE BEGINNING, the capture and test line reagents can be spotted onto the nitrocellulose portion of the blank strips at different concentrations, volumes and buffer conditions. This enables the user to determine the optimal conditions for subsequent spraying and enables the user to verify the test and controls will respond according to expectations before scaling up the process.
These blank strips are compatible with all of our colloidal gold products AND:
Lateral flow cassettes: C02022
Streptavidin CdSe/ZnS Quantum Dots For Lateral Flow: AU2043
Streptavidin Europium Chelate Microspheres For Lateral Flow: AU2050
Streptavidin Colloidal Gold For Lateral Flow: AU2017
Twenty 4.5X60mm strips of each combination of nitrocellulose (4X), wicking material (2X), and sample pad (3X) A total of 480 strips are provided 100 cassettes 125mL of buffer
ArcticZymes RNA to DNA Ligase (ArcticZymes R2D Ligase™) is the first ligase on the market that is able to ligate DNA to 5’-phosphorylated ends of RNA in the presence of a DNA template positioning the joinable ends. With its unique substrate specificity, ArcticZymes R2D Ligase allows the development of new technologies in molecular biology research, diagnostics, and manufacturing.
Key Features:
Novel substrate specificity
RNA to DNA ligation
High purity
Detergent free
Efficient ligation of DNA to 5’-phosphorylated ends of RNA in the presence of a DNA template positioning the ligatable ends of DNA and RNA
ATP dependent dsDNA ligase
Utilizes Mg2+ or Mn2+
Suggested Applications:
RNA capturing
In vitro transcription
NGS library prep
Transcriptome amplification
miRNA detection/analysis
RNA splint ligation
Document
ArcticZymes RNA to DNA Ligase (ArcticZymes R2D Ligase™) is the first ligase on the market that is able to ligate DNA to 5’-phosphorylated ends of RNA in the presence of a DNA template positioning the joinable ends. With its unique substrate specificity, ArcticZymes R2D Ligase allows the development of new technologies in molecular biology research, diagnostics, and manufacturing.
