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Resources for Scientific Discovery
DHVI Cores
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Message from DHVI Cores Scientific DirectorThe DHVI has assembled a group of state-of-the-art instruments, techniques and services to support basic and translational research initiatives in vaccine immunology, immune reconstitution, host-pathogen interactions, emerging infectious diseases and biodefense. These comprehensive Shared Resources or Cores are available to DHVI investigators and the overall Duke community. In 2017, DHVI Core laboratories supported over 120 individual Principal Investigators at Duke and collaborating non-profit research institutions. Services were provided at cost to these investigators totaling $1.3M in fiscal year 2017. Investigators used over 186 unique grants, contracts and sponsored research awards to support their research efforts that accessed DHVI Core facilities.
In addition to DHVI Core laboratories being a central repository of state-of-the-art instrumentation, we also see these facilities, and more specifically their Directors/Managers, as institutional thought leaders in their respective areas (e.g., crystallography, biocontainment, animal models, flow cytometry, immune monitoring etc.). The majority of our Core leaders have doctoral degrees in their respective fields and provide mentorship to the next generation of scientists through hands-on user training opportunities and consultative services.
All DHVI Core facilities are live in the CoreResearch@Duke system; a centrally supported, enterprise-wide, efficient, booking to billing web portal to support operation of all Duke University Shared Resources
(coreresearch.duke.edu). For more information about individual core services, procedures for scheduling instrument time, requesting services and current pricing please go to shared-resources.dhvi.duke.edu.
Gregory D. SempowskiProfessor in Medicine & Pathology
Scientific Director: Gregory D. Sempowski, PhD Professor, Medicine and PathologyDirector, Duke Regional Biocontainment [email protected]
DHVI, Administrative Manager Darlene McCain, MS, CFM 919.684.3349 [email protected]
Core metrics
186Uniuqe Sponsored
grants and contracts
8DHVI Shared Resource
Core Facilities
61Duke Departments/Divisions/Centers/Institutes supported
2,800Invoiced jobs
Fiscal Year 2017 (July 1, 2016 to June 30, 2017)
120Principal Investigators
supported
7,200Hours provided on specialized
instruments/equipment
Index01 Message from the Director02 Duke Human Vaccine Institute03 Duke Regional Biocontainment Laboratory07 Biomolecular Interation Analysis09 Macromolecular X-ray Crystallography11 Viral Genetic Analysis (Sequencing)
13 Accessioning Unit (Clinical Support)15 Flow Cytometry and Cell Sorting17 Immunology/Virology Quality Assurance19 Protein Production Facility21 Core Research @ Duke
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DHVI Translational Pipeline
Proof of Concept in Human Phase I Trial
Phase II - III in Human “Efficacy” Trial
Basic Science Research
Preclinical Research
Clinical Research
Clinical Research
Duke Human Vaccine Institute
The DHVI supports the development of vaccines and therapeutics through a commitment to Innovation, Collaboration and Excellence.
• Innovation through ingenuity and the pursuit of continuous improvement• Collaboration through embracing change and cultivating diversity to achieve synergy• Excellence through a commitment to respect, integrity and safety
Will develop vaccines and therapeutics against diseases of global importance while training the next generation of scientists
Our Values
Our Mission
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Duke Regional Biocontainment Laboratory
To support basic research to develop drugs, diagnostics, and vaccines for emerging and reemerging infections and biodefense.
Mission
About Us
Services
The Duke Regional Biocontainment Laboratory (RBL) was built with funding from NIH (NIAID UC6-AI058607) as part of a network of 12 regional and 2 national biocontainment laboratories. In 2007, the Duke RBL became the first of the regional labs to be commissioned for use.
The Duke RBL provides state-of-the-art biocontainment facilities for BSL2, BSL3, and Select Agent research and has a comprehensive safety and operations program to support work in these facilities.
The Duke RBL functions as a shared resource/core facility through its Immunology, Virology, and Microbiology units, which are available to Duke faculty and their collaborators as fee-for-service. These units can be utilized separately or all together to provide comprehensive study support.
Small Animal Models Support• Can accommodate ABSL2, ABSL3, and Select Agent small
animal models (mouse, rabbit, ferret) • Live animal imaging using the IVIS system • Aerosol exposure
Biocontainment Support• Hourly and monthly use of customizable BSL2/3 containment
suites, decontamination (vaporized hydrogen peroxide)
Safety/Operations Support• Training • Customized didactic and hands-on biosafety training for
BSL2/3 and Select Agent research
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Safety / Biopreparedness Training• DIDRT – Duke Infectious Disease Response Training Program (NIH
UH4-ES027072; PI: G. Sempowski)Vaccine/Therapeutic Development
• Duke DARPA Pandemic Prevention Platform Program (P3) (DoD-DARPA HR0011-17-2-0069; PI: G. Sempowski)
• CETR – Center of Excellence in Translational Research (Immunology & Influenza Virology Core; NIH U19-AI109784; Duke PI: G. Sempowski)
• VTEU – Vaccine Treatment and Evaluation Unit (Duke) (Immune Monitoring Core; NIH HHSN2722013000171; Duke PIs: E. Walter, G. Swamy, K. Weinhold, G. Sempowski)
Host Response & Immune Monitoring• DOD Center for Long Term Follow-up of the Late Effects of Acute Radiation Exposure in Primates (Project 3:
Immune Recovery; DoD W81XWH-15-1-0574; Duke PIs: B, Chen, G. Sempowski)• AC STI CRC – Atlantic Coast Sexually Transmitted Infections Cooperative Research Center (Host Response
Monitoring Core; NIH U19-AI113170; Duke PIs: G. Sempowski, H. Staats)• RadCCORE – Radiation Countermeasures Center of Research Excellence (Immune Monitoring Core; NIH U19-
AI067798; Duke PIs: N. Chao, D. Kirsch, B, Sullenger, B. Chen, G. Sempowski)Proficiency Testing & Quality Assurance
• EQAPOL – External Quality Assurance Program Oversight Laboratory (Luminex and Viral Diversity Programs; HHSN272201700061C; PI: T. Denny)
Duke RBL Research ProgramsIn addition to cost-recovery shared resource support, the Duke RBL receives direct funding through sponsored programs in the areas of:
Coordinator: Rose Asrican, [email protected]
The RBL Microbiology Unit is a collaborative research service component of the Duke Regional Biocontainment (housed in GHRB). The Unit maintains quality-controlled secure inventories of approved BSL2, BSL3, and Select Agent pathogens for RBL projects and collaborating investigators. RBL Microbiology focuses on minimum inhibitory concentration screening, colony forming unit assays, and bacterial and fungal challenge models in mice.
To submit a service request, go to CoreResearch@duke and select DHVI RBL: Microbiology (D-0045).
Microbiology
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The RBL Immunology Unit is a service component of the Duke Regional Biocontainment Laboratory (housed in GHRB). In addition to providing access to specialized instrumentation for real-time PCR and Luminex-based multiplex assays, this unit assists investigators with design and implementation of molecular, protein, and cellular assays to quantify immune reconstitution or immune responses in vitro and in vivo.
To submit a service request, go to CoreResearch@duke and select DHVI RBL: Immunology (D-0002).
Commercial Luminex assays (Magnetic or Non-magnetic)• Full service from sample to data (plasma, serum, cell supernatant, tissue
homogenate, cerebrospinal fluid, lavage fluid, etc.)• Assay read only (BioPlex 200, FlexMap 3D, MagPix)• BSL2, BSL3, and Select Agents
Sample Preparation• Plasma, serum, or PBMC prep from whole blood• Tissue specimen prep/homogenization• Nucleic acid extraction• Bead-based cell separation
ELISA• Commercial kit• Custom antigen-specific endpoint ELISAs
Real-time Thermocycler useQuantitative signal joint T Cell Receptor Excision Circle (sjTREC) analysis (mouse, human, NHP)TCRB sequencing (human)
Services
Manager: Andrew Macintyre, PhD [email protected]
• Luminex bead readers (BioPlex200, FlexMap 3D, MagPix)• CFX96 real-time PCR detection system• BioTek microplate washers• BioTek Synergy H1 multi-mode microplate reader• QIAcube sample prep systems
Instrumentation
Regional Biocontainment Laboratory
Immunology
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Virology
The RBL Virology Unit is a service component of the Duke Regional Biocontainment Laboratory (housed in GHRB). The Virology Unit was created to provide world-class quality-controlled support for virus research requiring up to and including enhanced biosafety level 3 containment. In addition to a comprehensive portfolio of influenza assays and services, the RBL Virology Unit has expertise in work with alphaviruses, flaviviruses, poxviruses, rotavirus and vesicular stomatitis virus.
To submit a service request, go to CoreResearch@duke and select DHVI RBL: Virology (D-0031).
Manager: Charles McGee, [email protected]
Quality-controlled virus stock propagation• BSL2, BSL3 and Select Agent• Tissue culture propagation• Chicken egg propagation
Viral load quantification• Plaque/focus forming unit assays• Tissue culture infectious dose 50% assays• Hemagglutination units assay
Virus serology assays• Hemagglutination inhibition assay• MicroNeutralization assay• Plaque reduction neutralization test
In vivo challenge models including sample procurement and processing from infected animals • Human influenza in ferrets• Mouse-adapted influenza in mice• Rabbitpox in rabbits
Development of project-specific virology support assays• Track record working with flaviviruses, human cytomegalovirus, influenza viruses, human rotavirus,
poxviruses, and vesicular stomatitis virus
Services
Director: Gregory D. Sempowski, PhDAssoc. Dir., Safety & Operations: T. Scott Alderman, MSAsst. Dir., Programs & Development: Heather E. Lynch, PhD
CONTACT INFO
Learn more here
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Biomolecular Interation Analysis
The DHVI Biomolecular Interaction Analysis (BIA) Core Facility offers state-of-the-art Surface Plasmon Resonance (SPR) and Biolayer Interferometry (BLI) instruments, expertise, training, and support for label-free, real-time analysis of biomolecular interactions to basic and clinical researchers within the Duke Community.
Director: S. Munir Alam, PhD Munir Alam is a Professor of Medicine and Pathology at Duke University and the Founding Director of the DHVI BIA Core Facility. Dr. Alam is a principal investigator at DHVI and a recognized expert in biochemical and biophysical analyses of receptor-ligand interactions, including TCR-ligand and antibody-antigen binding, and HIV Envelope protein antigenicity characterization. He is Director of Protein Analytics at both the DHVI and its GMP facility, a Co-Investigator in the Duke CHAVI-ID program, and was the Proteomics Director for the Duke CHAVI program.
Manager: Brian Watts, PhD Brian Watts is the BIA Core Facility Manager and has extensive experience in assay development and biophysical characterization of molecular interactions by SPR, ITC, DSC, NMR, AFM, and FPLC.
Mission
Leadership / Experience
Binding Specificity and Screening• Yes/No Binding• Ranking of Binding Response
Thermodynamics Epitope Mapping
Kinetics and Affinity• Direct Binding Kinetics• Steady State Affinity• In-solution Affinity• Avidity Assessment
Active Concentration• Surface Competition• Solution Inhibition
Conformation Changes
Services
Technology / InstrumentsSurface Plasmon ResonanceIn a typical SPR experiment, a soluble analyte is injected over a ligand-immobilized sensor chip. Interaction between the biomolecular species results in surface site population and an increase in SPR response. Upon injection completion, the bound analyte dissociates from the surface, reducing the SPR response. The surface can be regenerated to remove any residual analyte in preparation for the next injection. The kinetics (ka, kd) and affinity (Kd) of the interaction and/or the active analyte concentration can be calculated.
Biacore systems are low sample consumption (< 25 µg) and compatible with a wide-range of biomolecules
• Proteins, peptides, DNA/RNA, small molecules, carbohydrates, lipid membranes, micelles, liposomes, polymers, whole viruses, and whole cells
• Crude cell culture lysates or clinical sera/bodily fluidsBiomolecules can be functionalized on sensor chips via:
• Covalent coupling• High-affinity capture (with any affinity tag)• Hydrophobic adsorption
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DHVI BIA Core Facility Platforms
Biacore 3000• Standard platform• Simultaneously detects
4 interactions• 10 RU sensitivity
Biacore T200/S200• LMW screening• Simultaneously detects 4 interactions• 1 RU Sensitivity• T200 available for independent use
Biacore 4000• High-throughput analysis of clinically-derived or infectious samples• Supports 96- and 384-well plate racks• Simultaneously detects 12 interactions
ForteBio Octet-RED96• Biolayer Interferometry (BLI)• Ligand-coated biosensors in 96-well plate• Crude sample compatibility• Simultaneously detects 8 interactions
Sample Submission – Full-Service, All platforms• All experimentation, optimization, and analysis will be performed by Core Staff
Independent Use – Self-Service, T200 only• Complete training in the independent operation of the Biacore T200• Available 24/7/365 through CoreResearch@Duke
Consultation• Assistance in experimental design and analysis/
interpretation of data• Contact Brian Watts to schedule an initial
consultation and to discuss sample submission goals and/or training
Reservations / Service Requests
CONTACT INFO
Learn more here
To submit a service request, go to CoreResearch@duke and select DHVI: BIA Core (D-0029).
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Macromolecular X-ray Crystallography
The DHVI Macromolecular X-ray Crystallography Core offers services in determining and publishing macromolecular crystal structures. We provide everything from protein expression through crystallization and structure determination. Facility staff can assist with any and all steps in the process as needed. We welcome inquiries from investigators associated with Duke as well as those associated with other research facilities.
Director: Nathan Nicely, PhD Nathan Nicely, Ph.D., is an Assistant Professor of Medicine with the Duke Human Vaccine Institute and Director of the Duke University X-ray Crystallography Core Facility. He has experience in diverse topics including immunology, enzymology, pathogenic metabolism, and oncology.
Protein productionCrystallization trialsAutomated imaging of
crystallization experimentsX-ray diffraction and data collectionExpert staff support
Mission
Leadership / Experience
Services
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Protein kinase A catalytic subunit threaded with Aspergillus fumigatus
HIV antibody DH522.2
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CONTACT INFO
To submit a service request, go to CoreResearch@duke and select DHVI: X Ray Crystallography (D-0033).Reservations / Service Requests
Learn more here
Crystallization experiment setups• Phoenix robot dispenses 96-well screens all at once• Oryx4 robot dispenses proteins and protein-
reagent mixtures• Drop volumes of 100-500 nL• Handles seeds
Minstrel HT UV• Every drop dual imaged in white and UV light• Fully automated operation with a manual mode• Inspection schedule of choice
Rigaku MicroMax-007• Micro focus rotating anode x-ray generator• VariMax HR (high resolution) optics • RAXIS IV++ image plate detector• Inverse phi axis for easy crystal mounting• X-stream 2000 cryogenic system• Plexiglass enclosure
Technology / Instruments
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Viral Genetic Analysis Core (Sequencing)
The Duke Human Vaccine Institute Viral Genetic Analysis Core facility provides sequencing (NGS and Sanger) and genomic technologies to serve the needs of the Duke Human Vaccine Institute, Duke Center for AIDS Research, Duke University and external collaborators.
Director: Todd Bradley, PhDDr. Bradley is a Medical Instructor in the Department of Medicine and became facility director in 2016. Dr. Bradley has over 10 years of experience in developing next-generation sequencing strategies to investigate mechanisms of cell biology and immune cell responses.
Manager: Bhavna Hora, PhDDr. Hora is a researcher and a core manager with over 17 years of experience in molecular biology, immunology, and virology. Dr. Hora has been managing the sequencing core for the past two years and has over 12 years of experience in HIV sequencing, SGA, Q-PCR, mutagenesis etc.
Next-Gen Sequencing• High throughput RNA/ DNA sequencing, library prep, NGS runs and data analysis
10X Genomics• The Chromium Single Cell 3’ Solution provides high-throughput, single cell expression measurements that enable
discovery of gene expression dynamics and molecular profiling of individual cell typesSample and library QC
• Quantification and quality control of samples and libraries Single Genome Amplification
• Isolation and analysis of sequences for single nucleotide polymorphisms within the HIV-1 genomeSanger Sequencing
• Sequence up to twenty-four 96-well plates with reads of up to 1000 base pairs per samplePCR Purification
• Utilizing an innovative paramagnetic beads technology for high-throughput purifications of PCR ampliconsSite Directed Mutagenesis
• Single, multiple base, deletion mutants in a plasmidDrug Resistance Mutations
• Population sequencing of viral samples to determine the DRMs in the sampleSequence Analysis of Viral StocksCo-Receptor usage Assay
• Determine coreceptor usage of a virus sample in NP2 cells by measuring p24
Mission
Leadership / Experience
Services
Single Cell GenomicsThe Chromium Single Cell 3’ Solution provides high-throughput, single cell expression measurements that enable discovery of gene expression dynamics and molecular profiling of individual cell types.
Technology / Instruments
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Sample/ Library Quantification and Analysis Sanger Sequencing
StepOne Plus (qPCR)
ABI 3730XL DNATapestation 2000Qubit Biomek FXp Laboratory Automation workstation
Reservations / Service Requests
[email protected]@duke.edu919.668.1964
CONTACT INFO
Next-generation (NGS) Sequencing on IlluminaWe offer services on Illumina MiSeq and NextSeq 500. Because of their similar chemistry, same library preparations can be used across these instruments, allowing us to tailor to researchers’ sequencing needs according to turn around time (few hours to three-day run) read length (75 bp single-end reads to 300 bp paired-end reads) and throughput (300 Mb/run to 500 Gb/run). MiSeq NextSeq
The DHVI VGA Core offers 3 ways to utilize our facility to accomplish your research objectives:Sample submission
• Researchers provide DNA/RNA or PCR amplicons and service is performed by Core staff (Sanger DNA sequencing, PCR amplicon purification and Illumina next-generation DNA/RNA sequencing, HIV co-receptor, subtype and drug resistance analysis)
Intermediate use• For Illumina next-generation DNA/RNA sequencing submit prepared libraries and Core staff can QC,
optimize and provide appropriate sequencing kits and generate raw dataIndependent use
• Researchers can reserve and operate the instruments independently and provide all of the required reagents for Illumina Miseq, Illumina NextSeq, real-time qPCR, TapeStation, or Qubit fluorometer. Complete training in the independent operation of the Illumina and QC platforms is required
First step• Contact Core personnel for consultation and a quote for your desired service. We will guide you
through the process to achieve your research goal as fast and cost-effectively as possibleSecond step
• To submit a service request, go to CoreResearch@duke and select DHVI: Viral Genetic Analysis Facility (D-0030).
Learn more here12
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Accessioning Unit (Clinical Support)
This Core provides support for human and large animal studies that fall within DHVI’s mission of performing research against infectious diseases that impact global health. The team provides support for developing protocols, recruiting participants of all ages and also for processing, storage, and retrieval of specimens obtained for these studies.
Director: Tony Moody, MDTony Moody, MD is an Associate Professor in the Department of Pediatrics, Division of Infectious Diseases and Assistant Professor of Immunology at Duke University Medical Center. Dr. Moody is the Director of the Laboratory of B cell Immunotechnology at the Duke Human Vaccine Institute (DHVI) as well as the DHVI Chief Medical Officer. Specimen Processing Manager: Thad Gurley, MSThad Gurley is the specimen processing manager of the Clinical Support Core and has 11 years of sample processing and storage experience with DHVI.
Clinical Recruitment Manager: Amanda Stemke MPH, CCRP Amanda Stemke has served as manager of the Clinical Support Core for over 2 years and has 10 years of clinical research experience with DHVI.
Mission
Leadership / Experience
ServicesSample Processing and StorageProcessing Training and ConsultationData AnalysisProtocol Support and Development
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For Protocol Support • (e.g., protocol development, interaction with participants to obtain information or specimens)
Please contact Amanda Stemke, MPH and/or the facility director (Tony Moody, MD) to discuss project details.
For Specimen Processing • (e.g., processing and storage of materials obtained from participants in a clinical study) Please contact
Thad Gurley, MS and/or the facility director (Tony Moody, MD) to discuss project details.For researchers who wish to access both service pipelines
• Please contact Amanda Stemke, MPH and/or the facility director (Tony Moody, MD) to discuss project details.
To submit a service request, go to CoreResearch@duke and select DHVI: Clinical Support (D-0034).
Reservations / Service Requests
CONTACT [email protected] [email protected] 919.684.6043
DHVI Specimen Processing/StorageProcessing: Provide isolation of sera, plasma, and PBMCs from human whole blood samplesStorage: Provide -80°C storage for sera and plasma and -200°C storage for PBMC samples (24/7/365 monitored)
All processing and storage is completed under established SOPs that are overseen by the Quality Assurance for Duke Vaccine Immunogenicity Program (QADVIP).
Technology / Instruments
Learn more here14
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Flow Cytometry and Cell Sorting
The DHVI Flow Cytometry Facility serves the flow cytometric needs of the Duke Human Vaccine Institute and researchers throughout the Duke Community. DHVI Flow offers support over the full range of a flow cytometry experiment, from instrument training, to panel design, to data analysis, and presentation.
Director: Derek W. Cain, PhD, CCyDr. Cain obtained a PhD in Immunology from Duke University, and completed his postdoctoral work in Dr. John Cidlowski’s laboratory at the National Institute of Environmental Health Sciences (NIEHS). He joined the Duke Human Vaccine Institute in 2016. Dr. Cain’s research interests include characterizing T Follicular Helper cells following vaccination or after HIV infection.
Mission
Flow cytometric analysis• Independent use, 24/7
Flow cytometric sorting• Operator-assisted
Consultation• Experiment design, analysis, and presentation
Instrument training for independent use
FlowJo® Site LicenseFluorofinder® Partnership
• Build an antibody panel using the configuration of our cytometers
• Access our panel repository through Fluorofinder® Groups feature
Leadership / Experience
Services
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CONTACT INFO
Instrument Reservations • Can be made on our online calendar through CoreResearch@Duke
Training Requests • Can be made through our website (see “Contact Info” below)
Consultation• Email us for assistance with experiment design, analysis, and/or presentation ([email protected])
Reservations / Service Requests
BD LSRFortessa (F01)• Independent use, 24/7 analyzer• 2 Lasers (488, 640 nm)• 2 scatter parameters, 8 fluorescent parameters
BD LSRII (L01 and L02)• Independent Use, 24/7 analyzers• 4 Lasers (405, 488, 532, 639 nm)• 2 scatter parameters, 18 fluorescent parameters• High throughput sampler
Technology / Instruments
BD FACS Aria II (A01 and A02)• Operator-assisted sorters• 4 Lasers (405, 488, 532, 639 nm)• 2 scatter parameters, 18 fluorescent parameters• 4-way sorting, plate sorting, index sorting• BSL2, 2+, 3 (Duke RBL)
BD Influx (N01)• Operator-assisted sorter• 5 Lasers (355, 405, 488, 532, 639 nm)• 2 scatter parameters, 23 fluorescent parameters• 6-way sorting, plate sorting, index sorting
To submit a service request, go to CoreResearch@duke and select DHVI: Flow Cytometry Facility (D-0059).
Learn more here16
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Immunology/Virology Quality Assurance
To provide laboratory procedures and assays for HIV and Non-HIV clinical studies and trials under Good Lab Practices (GLP). These activities include non-human primate SIV viral load, HIV-1 RNA viral load, PBMC processing from leukopaks, HIV-1 WB, sterility, mycoplasma and endotoxin testing, flow cytometry acquisition and Elutriation cell separation.
Mission
SIV Viral Load• Validated for EDTA rhesus plasma and requires 600 μL of sample. The lower limit of detection
for this SIV assay is 250 copies/mLHIV-1 RNA Viral Load
• HIV-1 RNA viral load is quantified using the Roche COBAS AmpliPrep/COBAS Taqman 48 system. It is a real-time PCR assay with a quantifiable range of 20 - 10,000,000 RNA copies/mL (HIV)
HIV EIA Ab• HIV serology testing is determined qualitatively using the BioRad HIV-1, 2 + O EIA platform
HIV-1 Western Blot (WB)• WB confirmatory assay is performed using a Bio-Rad clinical diagnostics kit. HIV acute disease
staging (Fiebig staging based on results from both HIV-1 Ab and WB) Leukopak Processing
• PBMCs are obtained, under GLP, through density gradient centrifugation and are assessed for viability and cell number, aliquoted, cryopreserved, and stored in vapor phase LN2 freezers. The approximate final PBMC cell yield of one Leukopak is 4.0 x109 cells
Sterility Testing for Bacteria/Fungi • This qualitative test involves direct inoculation of
the test sample into two different types of media: Tryptic Soy Broth (TSB), also commonly referred to as Soybean-Casein digest, and Fluid Thioglycollate Media (FTM). Inoculated media is monitored for microorganism growth
Leadership / Experience
Services
Director: Thomas Denny MSc, MPhilMr. Denny is a Professor of Medicine in the Duke School of Medicine and Chief Operating Officer (COO) of the Duke Human Vaccine Institute (DHVI). He is also the Director and PI of the DHVI Immunology/Virology Quality Assurance Center (IVQAC), a CAP accredited / CLIA-approved, GCLP- compliant unit with ISO accreditations.
Manager: Ambrosia Garcia, MSAmbrosia Garcia serves as the IVQAC Core Facility Manager for the last 7 years and has extensive experience in molecular assay development and implementation.
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Elutriation• Counterflow centrifugation procedure for separation
of cell populations on a large scale. Separation is based on cell size, shape, and density to serve the analytic needs of investigators
Sterility Testing for Mycoplasma • This qualitative test utilizes the MycoAlert® test kit to detect the presence of Mycoplasma
Sterility testing for Endotoxin • Testing is done using the Limulus Ameobocyte Lysate (LAL) Pyrogent® plus single test vial gel clot
assay. This qualitative assay has a sensitivity of 0.125 EU/mL
QIAsymphony SP Avanti J-26XP SP BD FACSCanto COBAs AmpliPrep/TaqMan 48
Technology / Instruments
Sample Submission• Full-service, all platforms• All experimentation, optimization, and analysis will be performed by Core Staff
Independent Use• Self-Service, Becton Dickinson FACSCanto only • Complete training in the independent operation available through CoreResearch@Duke
Consultation• Assistance in experimental design, analysis and interpretation of data• Contact Ambrosia Garcia to schedule an initial consultation and to discuss sample submission goals and/
or training
Reservations / Service Requests
CONTACT [email protected] Learn more here
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To submit a service request, go to CoreResearch@duke and select DHVI: IVQA Center (D-0049).
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Protein Production Facility
The Protein Production Facility (PPF) was established with a grant awarded by the Bill & Melinda Gates Foundation with the mission of providing high-quality, research-grade recombinant proteins and antibodies to the members of the Collaboration for Aids Vaccine Discovery (CAVD). In July 2017, the PPF opened its doors as a DHVI Shared Resource Facility that is open to all Duke University researchers.
Mission
Leadership / Experience Director: James Peacock, PhDJames obtained his PhD in Biology and Immnology from the University of North Carolina at Charlotte and has over five years of experience managing the production of antibodies and HIV-1 envelope proteins. He has extensive experience in SOP and batch record development and ensures that the PPF maintains compliance with the Quality Management Agreement which has been established with Duke’s Quality Assurance Unit.
Manager: Cynthia Nagle, PhDCynthia Nagle has over two years of experience as a Program Manager at DHVI and as the Program Manager for the Protein Production Facility. Cynthia interfaces with researchers and the PPF lab team to evaluate the costs and timelines for completing specific protein production requests and then works with Kathy to manages the production schedule in the lab to ensure timely delivery of products.
Manager: Kathy Yarborough, MSKathy Yarborough has six years of experience in the DHVI expressing proteins and antibodies by transient transfection. She is responsible for the workflow of projects in the PPF as well as quality control of all proteins and antibodies; SDS-PAGE, Western blots and testing for endotoxin.
The mission of the DHVI PPF is to provide high-quality proteins and antibodies for in vitro assays for basic research and clinical study immune monitoring and to facilitate immunogen discovery.
The production of all proteins and antibodies is governed by a Quality Management plan with oversight by the Quality Assurance for Duke Vaccine Immunogenicity Program (QADVIP), Duke’s Quality Assurance Unit. All proteins and antibodies are produced following Standard Operating Procedures (SOPs) and using Good Documentation Practices.
Following production, proteins and antibodies undergo a quality control panel and are visualized by SDS-PAGE under reduced and non-reduced conditions and tested for sterility, Mycoplasma and endotoxin.
ServicesProtein Production (1L and 4L transfections in 293 cells or CHO cells)Antibody/Fab Production (1L and 4L transfections in 293 cells)FPLC/SECEndotoxin Testing (individual samples) Consulting for antibody and HIV-1 Env sequence modifications/design
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CONTACT [email protected]@duke.edu919.613.6149
CO2 Incubators and Biosafety Cabinets for Project Segregation
Technology / Instruments
• Protein expression and available nickel, lectin, protein A, G or M, and Kappa select purification methods• Recombinant Viral Envelope Proteins, SOSIP trimers and Fc Receptors• Recombinant Immunoglobulin (Ab or Fab)• Endotoxin testing• FPLC/SEC
AKTA pure with Fraction Collector
QC Equipment Endotoxin Assay SOPs and Quality Management Plan
To submit a service request, go to CoreResearch@Duke and select DHVI: Protein Production Facility (D-0078).
Reservations / Service Requests
Learn more here
Work Flow for Protein Production
Transiently transfect 293
Supernatants harvested and clarified
QC release testing performed prior to delivery
Eluted protein is buffer exchanged into PBS, filtered and aliquots made
Plasmids with the insert produced
and purified
Incubated shaking 4 days in
8% CO2 at 37°C.
Purification Protein aliquots stored - 80°C until shipped
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An enterprise wide, centrally supported, core booking to billing and bio-specimen management system to support the research efforts of Duke’s shared resources and bio-bank repositories.
There is a System Guide within the application that provides links to how-to and cheat sheet documents within Support@Duke.
AccessThe CoreResearch@Duke web site is coreresearch.duke.edu
• You must have a valid Duke NetID account and password• Chrome, Internet Explorer, and Safari are the ONLY web browsers that are supported by
CoreResearch@Duke at this time• Mozilla FireFox and Microsoft Edge are NOT supported web browsers• While other browsers may allow you to login to the application, certain screens will not
display properly
Learn more here
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"The DHVI Shared Resources and Cores bring together world-class people and innovative technology to accelerate our development of vaccines and therapeutics in a collaborative environment.
These Units support research excellence in an ever-changing landscape of naturally occuring and deliberate public health threats."
Barton F. Haynes, MD DHVI Director
The Duke RBL is located in the Global Health Research Building (GHRB)
DHVI Core Facilities are located on the Duke Medical Center Campus (MSRB2, GSRB2, LSRC and GHRB)
DHVI Core Administrative Offices are located in
Global Health Research Building (GHRB) 909 S. LaSalle Street
DUMC Box 103020, Durham, NC 27710
shared-resources.dhvi.duke.edu
Cores and Shared Resources