Corporate Banner
Satellite Banner
Genomics
Scientific Community
 
Become a Member | Sign in
Home>Products>This Product
  Products


Diffinity RapidTip2 for PCR Purification with Polymerase Removal

Product Image
Product Description

Diffinity RapidTip2 for PCR Purification with Polymerase Removal

•    One Minute PCR purification
•    Effectively removes dNTPs, primers, primer-dimers, and DNA polymerase
•    High purity and yield
•    Use in downstream applications such as restriction digest, T-A cloning, and pre-Sanger sequencing reactions
•    Purifies a 50ul post-PCR sample

The new Diffinity RapidTip2 functional pipette tip contains proprietary Diffinity technology that enables fast, effective purification of PCR samples in one minute, in one step using just our RapidTip2 tip and a pipettor!

In just one simple mixing step, the RapidTip2 binds the impurities in a PCR reaction while leaving just the purified amplicon in solution.  DNA polymerase is removed to undetectable levels along with up to 90% of dNTPs, primers, and primers-dimers which bind to the technology inside of the tip.

The RapidTip2 is different than the original RapidTip for PCR purification (Pre-Sanger Sequencing) in that it's optimized for a 50ul PCR sample volume and has been tested to additionally remove standard, hot start, and proofreading DNA polymerases.

The RapidTip2 is easy to use and environmentally friendly, too.  Everything you need to purify your PCR sample is contained in the tip - no additional reagents, consumables, or energy consuming capital equipment is needed.  When you're done with your purification, just toss the tip in regular lab trash.

Product Diffinity RapidTip2 for PCR Purification with Polymerase Removal
Company Diffinity Genomics
Price Request a quote
More Information View company product page
Catalog Number Unspecified
Quantity Unspecified
Company Logo

Diffinity Genomics
150 Lucius Gordon Drive West Henrietta, NY 14586

Tel: +1 877.362.1812
Fax: 585-272-8145
Email: RHodownes@diffinitygenomics.com



Scientific News
RNAi Screening Trends
Understand current trends and learn which application areas are expected to gain in popularity over the next few years.
The Genetic Roots of Adolescent Scoliosis
Scientists at the RIKEN Center for Integrative Medical Sciences in collaboration with Keio University in Japan have discovered a gene that is linked to susceptibility of Scoliosis.
A Gene-Sequence Swap Using CRISPR to Cure Haemophilia
For the first time chromosomal defects responsible for hemophilia have been corrected in patient-specific iPSCs using CRISPR-Cas9 nucleases
New Tool Uses 'Drug Spillover' to Match Cancer Patients with Treatments
Researchers have developed a new tool that improves the ability to match drugs to disease: the Kinase Addiction Ranker (KAR) predicts what genetics are truly driving the cancer in any population of cells and chooses the best "kinase inhibitor" to silence these dangerous genetic causes of disease.
Understanding the Molecular Origin of Epigenetic Markers
Researchers at IRB Barcelona discover the molecular mechanism that determines how epigenetic markers influence gene expression.
New Tech Enables Epigenomic Analysis with a Mere 100 Cells
A new technology that will dramatically enhance investigations of epigenomes, the machinery that turns on and off genes and a very prominent field of study in diseases such as stem cell differentiation, inflammation and cancer has been developed by researchers at Virginia Tech.
Access Denied: Leukemia Thwarted by Cutting Off Link to Environmental Support
A new study reveals a protein’s critical – and previously unknown -- role in the development and progression of acute myeloid leukemia (AML), a fast-growing and extremely difficult-to-treat blood cancer.
New Weapon in the Fight Against Blood Cancer
This strategy, which uses patients’ own immune cells, genetically engineered to target tumors, has shown significant success against multiple myeloma, a cancer of the plasma cells that is largely incurable.
Toxin from Salmonid Fish has Potential to Treat Cancer
Researchers from the University of Freiburg decode molecular mechanism of fish pathogen.
Study Finds Non-Genetic Cancer Mechanism
Cancer can be caused solely by protein imbalances within cells, a study of ovarian cancer has found.

Skyscraper Banner

Skyscraper Banner
Go to LabTube
Go to eposters
 
Access to the latest scientific news
Exclusive articles
Upload and share your posters on ePosters
Latest presentations and webinars
View a library of 1,800+ scientific and medical posters
2,400+ scientific and medical posters
A library of 2,500+ scientific videos on LabTube
3,700+ scientific videos
Close
Premium CrownJOIN TECHNOLOGY NETWORKS PREMIUM FREE!