The irresistible pull of paramagnetic beads. An in-depth look at the benefits of reagents powered by SPRI technology

DNA Extraction from Tissue

DNAdvance

A high-throughput genomic DNA (gDNA) extraction reagent kit that enables purification of high-quality DNA from mammalian tissue samples.

Compatible with a variety of downstream analysis tools (e.g., PCR, qPCR, SNP genotyping and NGS)
Manual and automation-friendly chemistry
Process three 96-well plates in ~1 hour using automation

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Explore From Tissue Models Related Products Features Specifications Content and Resources Technical Documents

DNAdvance for Tissue Workflow

Genomics DNAdvance Workflow

Product Features

Overview
DNAdvance is a high throughput gDNA isolation reagent kit that enables the purification of high quality DNA from mammalian tissue samples.

Turnaround and Scale
Combining the DNAdvance kit with Biomek Workstations offers a high throughput and walk-away solution; 15 mins hands-on-time for 96 samples and 1 hr 46 mins for 96 well plate.

High Recovery of Nucleic Acids
DNAdvance consistently delivers superior recovery of nucleic acids. Isolate up to 40 ug of DNA from a variety of tissue types, e.g. brain, kidney, liver, lung, and tail.

Downstream Applications
DNA isolated with DNAdvance is compatible with a variety of downstream analysis tools such as PCR, qPCR, SNP genotyping, and sequencing.

Product Specifications

Application Uses	Genomic DNA
Format	Liquid
Starting Sample Material	Tissue
Automated Available	Yes
Item Specifications Referenced	A48706

Citations

Cain-Hom, C., Splinter, E., van Min, M., Simonis, M., van de Heijining, M., Martinez, M., . . . Warming, S. (2017, January 4). Efficient mapping of transgene integration sites and local structural changes in Cre transgenic mice using targeted locus amplification. Nucleic Acids Research, 45(8), e62. doi:10.1093/nar/gkw1329

Used to extract DNA from mouse tissue

Kleinstiver, B. P., Prew, M. S., Tsai, S. Q., Topkar, V., Nguyen, N. T., Zheng, Z., . . . Joung, J. K. (2015, July 23). Engineered CRISPR-Cas9 nucleases with altered PAM specificities. Nature, 523(7561), 481–485. doi:10.1038/nature14592

Used to extract DNA from U2OS.EGFP human cells

Disclaimer: Beckman Coulter makes no warranties of any kind whatsoever express or implied, with respect to this protocol, including but not limited to warranties of fitness for a particular purpose or merchantability or that the protocol is non-infringing. All warranties are expressly disclaimed. Your use of the method is solely at your own risk, without recourse to Beckman Coulter. Not intended or validated for use in the diagnosis of disease or other conditions. This protocol is for demonstration only, and is not validated by Beckman Coulter.

Content and Resources

DNA Extraction from Filamentous Fungi using GenFind V3 This protocol provides two other methods for lysis that are more automation friendly and we show that they produce results that are very similar to the industry standard of bead beating.

DNA extraction from Oragene® Dx OGD-600 Saliva collection tubes using DNAdvance Saliva contains buccal epithelial cells and white blood cells that provide rich genetic data. Due to the easy access and non-invasive character, saliva is an alternative to blood collection. Here we present a high-quality DNA extraction method from saliva using DNAdvance.

Simultaneous DNA and RNA Extraction from Tissue without Splitting Lysate In this protocol we developed a protocol using Beckman Coulter reagents to isolate both DNA and RNA from the same fresh/frozen sample. The method utilizes size selection to separate DNA and RNA

Simultaneous DNA & RNA Extraction from Cultured Cells without Splitting Lysate We developed a protocol using Beckman Coulter reagents to isolate both DNA and RNA from the same cultured cell sample. The method utilizes a proprietary buffer to selectively bind RNA and DNA

Isolation and Separation of DNA and RNA from a Single Tissue or Cell Culture Sample We are currently developing a product using proprietary bead based technology that selectively binds DNA to the beads to effectively separate DNA and RNA independently. This allows for the extraction of all nucleic acids from one experimental setup

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