June 15, 2021
The Sequencing and Genomic Technologies Core Facility has purchased an Oxford Nanopore GridION sequencer and will start offering Oxford Nanopore sequencing services in the coming months.
January 8, 2021
The Sequencing and Genomic Technologies Core now offers single-cell multi-omics assays on the Tapestri Platform. This innovative platform analyzes genotype and phenotype simultaneously from the same single cells, which lets you reveal clonal heterogeneity and target comprehensive biomarkers.
November 16, 2020
COVID-19: The COVID-19 pandemic is generating various supply chain issues for lab consumables, such as tips, 96-well plates and more recently, Illumina sequencing reagents (NovaSeq S-Prime flow cells, in particular). As a consequence, the turnaround time for some of our sequencing services may be impacted. We are doing our best to secure necessary supplies, and we thank you for your patience during these difficult times.
Reminder, the lab is located at
Duke Center for Genomic and Computational Biology
701 W. Main Street
Durham NC 27701
Next-Generation Sequencing Solutions
Illumina, Oxford Nanopore, Single Cell Targeted sequencing and Various NGS Library preparation
The Sequencing and Genomic Technologies Shared Resource is a basic research oriented core facility affiliated with the Duke Cancer Institute (DCI). This Shared Resource has a track record more than a decade-long of providing constantly updated, state-of-the-art genomic services. The Sequencing and Genomic Technologies Shared Resource offers the full range of genomic technologies, making it much simpler for researchers to find the right service for their needs.
Director Nicolas Devos is available for project consultations.
For all publications that include data generated in the Sequencing and Genomic Technologies Shared Resource, we kindly request that you acknowledge this support:
We thank the Duke University School of Medicine for the use of the Sequencing and Genomic Technologies Shared Resource, which provided _________ service.
Average Time in Queue
|Client-Submitted Libraries||Core-Created Libraries|
|MiSeq||2 weeks||3-4 weeks|
|NextSeq||10 days||3-4 weeks|
|NovaSeq 6000 full flow cells||10 days||3-4 weeks|
|Novaseq 6000 by the lane||Dependent on how quickly a flow cell can be filled||Dependent on how quickly a flow cell can be filled|