Accelerate to discover

Back to filter

Related topics

Four-week individual caging of male ICR mice alters body composition without change in body mass

MEDIKORS

May 25, 2020

Could individual caging affect the physical composition of outbred mice? To investigate this, dual X-ray absorptiometry...

Detect structural variants at 1% allele fraction: Dive deeper into heterogeneous cancer samples

BioNano Genomics

May 22, 2020

To get a complete picture of highly rearranged cancer genomes in heterogeneous samples, use Bionano genome imaging...

The qNano Gold: Obtain the most detailed Information for each individual nanoparticle

IZON

May 20, 2020

The qNano Gold measures particles using the Tunable Resistive Pulse Sensing (TRPS) principle. TRPS is the most powerful...

Insulin receptor substrate 1 is a substrate of the Pim protein kinases

Spectral Instruments Imaging

May 18, 2020

The goal of these studies was to identify Pim substrate(s) that could help define the pathway regulated by these...

May 29, 2020

Webinar recording: Isolating ultra-high molecular weight (UHMW) DNA for genome analysis

BioNano Genomics

May 12, 2020

Watch the webinar from Bionano Genomics and learn the tips and tricks for isolating high quality UHMW DNA - right from...

Implementation of Micro CT in CAD/CAM dentistry for image processing and soft computing

Bruker Biospin

May 4, 2020

Present radiology devices are playing an important role in clinical dentistry but their area of application islimited...

Panel design principles to investigate COVID-19 immune response with the Cytek Aurora

Cytek Biosciences

Apr 27, 2020

Learn about the Cytek Aurora and panel design tools available to help you design high quality full spectrum cytometry...

May 29, 2020

ONI Nanoimager: Viral super-resolution microscopy inside your biosafety chamber

ONI

Apr 22, 2020

Discover unique signatures that distinguish viruses,  visualise virus budding events with certainty, understand how...

Show all topics (10)

Target large genomic regions with 10x genomics using SageHLS

Apr 16, 2018

The Sage Science team collaborated with Hanlee Ji’s lab at Stanford University to develop new approach, known as HLS-CATCH, allows users to apply long-range genomics to their gene or genomic region of interest, characterizing and phasing not only single nucleotide variants but also large structural variants including deletions, inversions, and translocations.

Scientific paper
Application

Related technologies: Targeted DNA/protein size collection

Get more info

Regina Fillerová

Field application specialist

Regina

Fillerová

+420 731 127 718

Send Message

Brand profile

Sage Science

Preparative electrophoresis systems for targeted size selection of biomolecules.

Related products

Targeted Size Selection for Next-Gen Sequencing (90bp – 1.5kb)

show detail

Targeted Size Selection for Next-Gen Sequencing (90bp – 50kb)

show detail

Pulsed-field Power for Gel Boxes

show detail

We supply and support Life-Science Technologies in the territory of Central and Eastern Europe.

Czech Republic

Slovakia

Hungary

Poland

Croatia

Slovenia

Serbia

Romania

Bulgaria

Latvia

Lithuania

Estonia

Russia

Ukraine

Belarus

Turkey