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Transcript
Services Many types of libraries are sequenced at the core lab however not all are synthesized, please inquire. Library Types RNA-Seq DNA-Seq Small RNA-Seq Exome-Seq Metagenomics Sequencing RNA-Seq DNA-Seq Methyl-Seq ChIP-Seq Small RNA-Seq RAD-Seq, HiC Targeted Mate Pair-End Amplicon Metagenomics Running Modes Two running modes are available. Rapid mode is a shorter turn around time but has lower output. Run Mode The MPS sequencing staff and UVM bioinformatics scientists work closely with investigators to insure project success. We encourage all investigators to take advantage of a this consultation service Accessing Services All samples and consults are registered using the MPS core facility iLabs sample management system. Massively Parallel Sequencing Facility Next Generation Sequencing The MPS Core Facility at the University of Vermont Cancer Center handles both internal and external customers. Personal Service, Friendly Staff, and High Quality Services. Sample submission must be accompanied by a bioinformatics number issued by the molecular bioinformatics shared resource. Flow Cell Type Rapid Mode High Capacity TAT <14 days >14 days Reads/lane 135 million >170 million Cost Experimental Design Same High capacity uses an 8 lane flow cell and generally requires additional wait time to fill all lanes Pricing Pricing changes every year and has many options including self service for those who prepare there own libraries or full service. Please see our website or contact the facility by email for pricing information. Paired End (PE) or Single End (SR) SR 50, 100, 150 , 200, 250 bp PE2 x 50, 100,150, 200, 250 bp Email [email protected] [email protected] Contact Massively Parallel Sequencing Lab Advanced Genome Technologies Core University of Vermont Cancer Center Health Science Research Facility Rm 303 149 Beaumont Avenue Burlington, Vermont USA 05405 802-656-AGTC [2482] About The Core The University of Vermont’s Massively Paralleled Sequencing (MPS) core lab is a Vermont Cancer Center shared resource facility within the UVM College of Medicine and provides all services related to next generation sequencing using the Illumina HiSeq system to both internal and external customers Instrumentation The facility is equipped with the Illumina HiSeq 1500 System capable of generating 50 gb of DNA sequence per lane with read length from 50bp to 250bp either single or paired end. Illumina HiSeq Covaris AFA Details and Definitions of Next Generation Sequencing Flow Cell is the device where all sequencing reactions occur. The flow cell is composed of 2 or 8 “lanes” which are microfluidic channels. Sequencing takes place on synthetic genomic “clusters”. Image capture from a Flow Cell showing a “Cluster” Cluster represents a discrete clonal amplification of a single 400bp DNA fragment from the genome. Data Analysis and Storage All data is processed and stored by the UVM molecular bioinformatics shared resource facility. Data analysis is available as fee for service and is scheduled during the experimental design meeting. Genomic Track Exon Track Pile Up Fold Graph Single End vs Paired End Reads Each DNA fragment can be sequenced in one direction or both directions. Qualtiy Control Library and sample QC is performed using Qubit, Agilent Bioanalyzer, and qPCR. All libararies are prepared within a Class 100 HEPA PCR-free Clean Hood. Separate rooms separate PCR and non-PCR areas of the lab. PCR-Free workstation Bioanalyzer Fold Coverage Fold coverage represents the depth of coverage. Repetitive sequencing of the same region. Expressed as RPKM (Reads Per Kilobase per Million reads) or FPKM (Fragments Per Kilobase per Million reads).. Number of Reads The total number of reads per sample type is an important metric and describes the total number of clusters (fragments of the genome) regardless of the read length. KAPA qPCR- Libaray QC and FFPE pre-qualification Qubit fluorometer Read length (bp) X total # reads = total bp sequenced Alignment maps, Venn Diagrams, and Heat Maps Contact Massively Parallel Sequencing Lab Advanced Genome Technologies Core HSRF 303 149 Beaumont Avenue Burlington, Vermont USA 05405 802-656-AGTC [2482] [email protected] [email protected]
