Applied Science

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• Resources Center
  • Applied Science
    • Immunotherapy
      • About Immunotherapy
      • About Viral Vectors
      • Pediatric Immunotherapy
      • Manufacturing Processes for Engineered T-Cell Therapy – CAR-T
      • Immunotherapy Research: Supporting Products
      • Immunotherapy Shows Renewed Promise for Cancer Therapies
      • Characterizing Viral Vectors: Analyzing rAAV Vector Homogeneity
      • Developing and Producing Viral Vectors: Powering Forward Momentum for the Future of Gene Therapy
    • Synthetic Biology
      • Synthetic Biology for Plasmid Assembly
    • Antibody Engineering
      • Hybridoma Antibody Engineering
      • Single B Cell Antibody Engineering
      • Products for Antibody Engineering
    • Process Development
      • Cell Therapy Process Development
    • Small-Molecule Drug Discovery and Development
    • Biologics_restructure
      • Quality Control in Biologic Cell Culture Applications
    • Cell Therapy: From Research to Commercialization
      • CAR-T Cells: Immuno-oncology Therapeutics
    • CRISPR for Immunotherapy
  • Cell Types
    • Blood Cells
      • Red Blood Cells
      • Leukocytes
      • Platelets
    • Endothelial Cells
    • Epithelial Cells
    • Fibroblasts
    • Neurons
    • Stem Cells
    • Tumor Cells
  • Disease Management
    • Diagnosis
    • Monitoring
    • Prevention
    • Prognosis
    • Screening
  • Biologics Drug Discovery and Development
    • Analytical Method Development and Testing
      • Analytical Method Development Products
    • Biologics Assay Development
      • Echo Liquid Handling for Biochemical Assays
      • Echo Liquid Handling for Cell-Based Assays
      • High-Throughput Screening (HTS)
      • Primary Screening
      • Assay Development Products
      • Secondary Screening
    • Introduction to Biologics
      • The Potential of Biologics – What Does the Future Hold?
      • The History of Biologics: Problems, Perseverance, and Potential
    • Target Discovery, Identification and Selection
      • Diamonds in the Rough: Identifying and Developing Biologics for Disease Research
      • Biomarker Discovery
      • Target Discovery Products
    • Biologics Drug Discovery
      • Compound Management
      • Drug Discovery Products
    • Preclinical Drug Development
      • Preclinical Drug Development Products
    • Flow Cytometry in Cell Therapy
    • Biologics Upstream Development
      • Products for Upstream Development
    • Biologics Downstream Development
      • Products for Downstream Development
    • cGMP Biologics Production
      • Products for Production
    • QA / QC Release Testing
      • Up to Par: The Necessity of Quality Assurance and Quality Control for Biologics Research
      • Biopharmaceutical Production and Quality Control
      • QA/QC Products
  • Disease Research
    • Allergies
    • Autoimmune Diseases
    • Cardiovascular Disease
    • Congenital Disorders
    • Dermatological Diseases
    • Environmental Diseases
    • Gastrointestinal Diseases & Disorders
    • Genetic
    • Immune-Mediated Inflammatory Diseases
    • Infectious Diseases
    • Leukemia and Lymphoma
      • B Cell Malignancies
      • Minimizing Waste in Flow Cytometry Workflows
      • T Cell Malignancies
      • Myeloid Malignancies
      • CD200 Expression in B-lineage Neoplasms
      • Importance of CD34 in Screening Tests for Hematolymphoid Neoplasms: ClearLLab LS Shows the Way
      • Utilization of the ClearLLab lymphoid screening tube for investigation of hematolymphoid neoplasias by flow cytometry
      • Demonstration of the Clinical Performance of the ClearLLab LS in a Multi-Center Study
      • Performance Testing of the ClearLLab LS (Lymphoid Screen)*
      • Standardized Compensation Setup for the ClearLLab 10C Application
      • ClearLLab Control Cells – a Process Control for ClearLLab 10C Application
      • Download the Immunophenotyping Reference Table for Hematopoietic Malignancies
      • ClearLLab 10-Color Panel Performance: Lot-to-Lot Reproducibility
      • ClearLLab 10C Panel Markers and how they are combined
      • Standardized reagents and guidelines for the immunophenotyping of hematologic neoplasms by flow cytometry
      • DURA Innovations Cost Benefit Calculator
      • Leukemia and lymphoma: an example of how flow cytometry aids diagnosis
      • Workflow Efficiency from Using Dry Reagents
      • Dry Versus Liquid Antibody Reagents
      • Meet the Experts
      • Standardized Results - Clinical Vignettes
      • Global Health
    • Diseases of the Microbiome
    • Oncology
      • Hematological Malignancies
      • Regulatory Status Conditions
  • Explore Your Industry
    • Chemicals and Materials
    • Clinical Lab
    • Contract Research Organizations
    • Food and Beverage
    • Pharma/Biotech
    • Public-Private Partnerships
    • Hydraulics Heavy Machinery
    • Military
    • US National Institute of Health (NIH) Grants and Funding
      • Centrifuges for National Institute of Health Grant Recipients
      • Automated Liquid Handlers that Meet NIH Requirements
      • Flow Cytometers that Meet NIH Requirements
      • Particle Analyzers that Meet NIH Requirements
    • Academic and Government Research
  • Industry Standards
    • USP<643>
    • 21 CFR Part 11 - Data Integrity
      • 21 CFR Part 11 Related Products: Beckman Instruments for Data Integrity and Compliance
      • 21 CFR Part 11: Scope and Application
      • Centrifugation That Supports 21 CFR Part 11 Compliance
      • Global Equivalents and Related Regulations
      • Improve the Integrity of your Electronic Records
      • 21 CFR Part 11 - Terms and Acronyms
    • Maintaining Data Integrity: Understanding FDA ALCOA Guidance
    • European Pharmacopoeia EP 2.2.44
    • EU GMP Annex 1
    • EU GMP Annex 11
    • ICH Q2
    • ISO 21501
    • ISO Regulations
    • IVD-Regulation (IVDR)
      • IVDR compliant instruments*
      • IVDR compliant software*
      • IVDR compliant reagents
      • E-book
      • Future proofing your flow cytometry panel under IVDR
      • In-house IVD FCM panel or not: it depends
      • Building IVDR compliant panels for haematological disorders
      • Impact of the new EU IVD-Regulation on the daily life of the clinical Flow cytometry laboratory webinar
      • Laboratory Developed Test (LDT) vs IVD Validation Workflow
      • Meet the Expert — Maurizio Suppo, PhD
      • Potential Impacts of EU IVD-Regulation on the Clinical Flow Cytometry Lab
      • IVD-R Annex I Global Safety and Performances Requirements (GSPR). A New Set of Requirements for Clinical Laboratories Performing Laboratory Developed Tests
      • IVD-R: Key Considerations to Validate a Flow Cytometry Assay According to ISO 15189 Requirements
    • Regulatory Entities: Separation with Cooperation
      • International Guidelines
      • The World Health Organization
      • IVDR
    • USP 1046
    • USP 1047
    • USP
    • USP , and EP2.9.19
    • USP
    • ISO 11171 Standard
      • Understanding ISO 11171: The NIST Traceable Particle Counter Calibration Standard
      • The Evolution of ISO 11171
      • ISO 11171 Standard: Guideline and Application
      • Products Designed for ISO 11171 Compliance
    • ISO 14644: Airborne Particulate Cleanliness in Cleanrooms and Clean Zones
      • Particle Counters Designed to Support ISO 14644-1 and ISO 21501-4 Requirements
      • 2015 Published Standards for ISO 14644
      • ISO 14644-1 Classification of Air Cleanliness by Particle Concentration
      • ISO 21501-4: Light Scattering Airborne Particle Counter for Clean Spaces
      • Particle Counting: Terms and Formulas
    • USP <787>
      • USP <787>: Particulate Testing Solutions for Contamination Control
      • Light Obscuration: Optical Method for Particle Detection
      • USP <787>: Subvisible Particulate Matter in Therapeutic Protein Injections
      • USP <787>: Application and Scope
      • Cleanroom Requirements for Liquid Particle Testing
  • Methods
    • Cell Line Development for Biologics
    • Immunophenotyping
    • Particle Size Distribution
      • Basics
      • Evolution Laser Diffraction
      • Liquid Measurement
      • Measurement Principle
      • Principle Comparisons
      • Toner
      • Ultracentrifugal Sedimentation
  • Explore Resources For Your Sample Type
    • Biomolecules
      • Carbohydrates
      • Lipids
      • Nucleic Acids
      • Nucleic Acids - DNA
      • Nucleic Acids - RNA
      • Post Translational Modification
      • Proteins and Peptides
    • Body Fluids
      • Cerebrospinal Fluid
      • Lymph
      • Saliva
      • Sweat
      • Urine
    • Cell Organelles
      • Nucleus
      • Ribosomes
    • Extracellular Vesicles
      • Exosomes
      • Apoptotic Bodies
      • Ectosomes
      • Extracellular Vesicles Workflow
      • Getting Started with Extracellular Vesicles
      • Liposomes
      • Micelles
      • Microsomes
      • Overview
      • Polymer Coatings
    • Tissues
      • Bone Marrow
      • Blood
      • Cardiac Tissue
      • Connective Tissue
      • Epitheleal Tissue
      • Nervous Tissue
    • Nanoparticle Research
  • Technologies
    • Machine Learning Assisted Analysis for Cytometry Data
      • Application Programming Interface (API)
      • Snapshot of the Workflow for High Dimensional Data Analysis: from Start to Publication
      • Customer Interview: Jamie D. McNicol, Analytical Project Manager
      • Data Expectations
      • How Does the Cytobank Workflow Fit Your Research?
      • Learn from your peers
      • Advance Your Knowledge of Machine Learning-Assisted Analysis
      • Get the Cytobank Platform and Publish
      • Reproducible High Dimensional Data Analysis: Is Your Lab Ready?
      • Untapped Potential
    • Laser Diffraction for Particle Size Analysis
      • Mie and Fraunhofer Diffraction Theories
      • Measuring Small Particles
      • PIDS Technology
      • Sizing Pigment Particles with Laser Diffraction
      • Multimodal Samples with Laser Diffraction
    • Next Generation Sequencing
      • Workflow Questions Answered: Challenges with FFPE Tissue Samples
    • Dynamic Light Scatter
    • Dried Reagent Technology
      • Dry Versus Liquid Antibody Reagents
      • Benefits of Dry Reagents: DURAClone
      • Dried Reagents, Not Lyophilized
      • Workflow Efficiency from Using Dry Reagents
      • DURA Innovations Cost Benefit Calculator
    • Accessible Flow
    • Acoustic Sample Management
    • How the Vi-CELL BLU Analyzer supports You from Data to Insights
    • Fundamentals of Laboratory Automation
      • 7 Questions Before Buying a Liquid Handler
      • Adopting Automation in Your Laboratory
    • Centrifugation Technology
      • Biosafe Centrifugation
      • Continuous Flow Centrifugation
      • Density Gradient Centrifugation
      • Dynamic Rotor Inertia Check
      • Elutriation Centrifugation
      • Principles of Centrifugation
      • Ultra Harmonic Technology (UHT)
      • An Introduction to Ultracentrifugation
      • Dr Beckman
      • Dr Beckman Old
    • Cytobank Training
    • Flow Cytometry
      • History of Flow Cytometry
    • SPRI Beads
    • Accessible Flow Learning Center
      • European CytoFLEX Platform Meeting
      • Accessible Flow Cytometry Video Gallery
      • MultiFLEX applications in flow cytometry
    • Analytical Ultracentrifugation
      • Basics
      • Optical Systems Used for AUC
      • Analytical Ultracentrifugation Experiments
      • Analytical Ultracentrifugation Overview
      • The ups and downs (and ups) of a powerful research tool: the history of analytical ultracentrifugation (AUC)
      • Analytical Ultracentrifugation Publications
      • AAV
      • DGE-AUC Simply AUC
    • Flow Cytometry Basics
    • Flow Cytometry Data Reproducibility
      • Streamlined clinical trials: applying rigor in flow cytometry to facilitate therapeutic developments
    • Flow Cytometry Panel Design
      • Resolving Challenges in Flow Cytometry Panel Design
    • The Coulter Principle
      • Coulter Principle Short Course - Chapter 1
      • Coulter Principle Short Course - Chapter 2
  • Reading Material
    • Application Notes
      • 17-Marker, 18-Color Human Blood Phenotyping Made Easy with Flow Cytometry
      • 21 CFR Part 11 Data Integrity for On-line WFI Instruments
      • 8011+ Reporting Standards Feature and Synopsis
      • Accurate enumeration of phytoplankton using FCM
      • Accurately measures fine bubble size and particle count
      • Achieving Compliant Batch Release – Sterile Parenteral Quality Control
      • Air Particle Monitoring ISO 21501-4 Impact
      • An Analytical Revolution: Introducing the Next Generation Optima AUC
      • Analyzing Mussel/Mollusk Propagation using the Multisizer 4e Coulter Counter
      • Automated 3D Cell Culture and Screening by Imaging and Flow Cytometry
      • Automated Cell Transfection and Reporter Gene Assay
      • Automated Cord Blood Cell Viability and Concentration Measurements Using the Vi‑CELL XR
      • Automated Genomic Sample Prep Sample Quality Control
      • Automated salt-assisted liquid-liquid extraction
      • Automated Sample Preparation for the Monitoring of Pharmaceutical and Illicit Drugs by LC-MS/MS
      • Automated Solid Phase Extraction Based Determination of Cannabinoids
      • Automated Transfection Methods
      • Automated XTT Assay for Cell Viability Analysis
      • Automating a Linear Density Gradient for Purification of a Protein:Ligand Complex
      • Automating Biopharma Quality Control to Reduce Costs and Improve Data Integrity
      • Automating Bradford Assays
      • Automating Cell-Based Processes
      • Automating Cell Line Development
      • Automating NGS workflows A Comparison Between A Traditional Liquid Handler and Biomek NGeniuS
      • Automation of Illumina DNA Prep Kit on Biomek NGeniuS Next Generation Library Prep System
      • Avanti J-15 Centrifuge Improves Sample Protection Maximizes Sample Recovery
      • The New Avanti J-15 Centrifuge Time Saving Deceleration Profile Improves Workflow Efficiency
      • Avanti JXN Protein Purification Workflow
      • Avoid the Pitfalls When Automating Cell Viability Counting for Biopharmaceutical Quality Control
      • Beer, Evaluation of Final Product and Filtration Efficiency
      • Biomek Automated Genomic Sample Prep Accelerates Research
      • Biomek Automated NGS Solutions Accelerate Genomic Research
      • Biomek i-Series Automated AmpliSeq for Illumina® Library Prep Kit
      • Biomek i-Series Automated Beckman Coulter Agencourt RNAdvance Blood Kit
      • Biomek i-Series Automated Beckman Coulter Agencourt RNAdvance Cell
      • Biomek i-Series Automated Beckman Coulter Agencourt SPRIselect for DNA Size Selection
      • Biomek i-Series Automated Beckman Coulter AMPure XP PCR Purification System
      • Biomek i-Series Automated IDT® xGen Hybridization Capture of DNA libraries on Biomek i7 Hybrid Genomics Workstation
      • Biomek i-Series Automated Illumina® Nextera XT DNA Library Prep Kit
      • Biomek i-Series Automated Illumina TruSeq DNA PCR-Free Library Prep Kit
      • Biomek i-Series Automated Illumina TruSeq® Nano DNA Library Prep Kit
      • Biomek i-Series Automated Illumina TruSeq® Stranded mRNA Sample Preparation Kit Protocol
      • Biomek i-Series Automated Illumina TruSeq® Stranded Total RNA Sample Preparation Kit Protocol
      • Biomek i–Series Automated Illumina® TruSight Tumor 170 32 Sample Method
      • Biomek i-Series Automated KAPA HyperPrep and HyperPlus Workflows
      • Biomek i-Series Automated New England Biolabs NEBNext® Ultra IITM DNA Library Prep Kit
      • Biomek i-Series Automated SurePlex PCR and VeriSeq PGS Library Prep for Illumina®
      • Biomek i-Series Automation of the Beckman Coulter Agencourt DNAdvance Genomic DNA isolation Kit
      • Biomek i-Series Automation of the Beckman Coulter GenFind V3 Blood and Serum DNA Isolation Kit
      • Biomek i-Series Automation of the Apostle MiniMax™ High Efficiency cfDNA Isolation Kit
      • Preparation and purification of carbon nanotubes using an ultracentrifuge and automatic dispensing apparatus, and analysis using an analytical centrifuge system
      • Cell Counting Performance of Vi–Cell BLU Cell Viability Analyzer
      • Cell Culture Monitoring with the Vi-CELL MetaFLEX
      • Viability Assessment of Cell Cultures Using the CytoFLEX
      • Cell Line Development – Data Handling
      • Cell Line Development – Limiting Dilution
      • Cell Line Development – Selection and Enrichment
      • Cellular Analysis using the Coulter Principle
      • cfDNA Extraction Efficiency Affects NGS Data
      • Changes to GMP Force Cleanroom Re-Classifications
      • Characterizing Insulin as a Biopharmaceutical Using Analytical Ultracentrifugation
      • Classifying a Small Cleanroom using the MET ONE HHPC 6+
      • Clean Cabinet Air Particle Evaluation
      • Cleanroom Routine Environmental Monitoring – FDA Guidance on 21 CFR Part 11 Data Integrity
      • Comparing Data Quality & Optical Resolution of the Next Generation Optima AUC to the Proven ProteomeLab on a Model Protein System
      • Conducting the ISO 14644-3 Cleanroom Recovery Test with the MET ONE 3400+
      • Considerations of Cell Counting Analysis when using Different Types of Cells
      • Consistent Cell Maintenance and Plating through Automation
      • Control Standards and Method Recommendations for the LS 13 320 XR
      • Counting Efficiency: MET ONE Air Particle Counters and Compliance to ISO-21501
      • Critical Particle Size Distribution for Cement using Laser Diffraction
      • Use Machine Learning Algorithms to Explore the Potential of Your High Dimensional Flow Cytometry Data Example of a 20–color Panel on CytoFLEX LX
      • Detecting and counting bacteria with the CytoFLEX research flow cytometer: II-Characterization of a variety of gram-positive bacteria
      • Detecting Moisture in Hydraulic Fluid, Oil and Fuels
      • Detection of Coarse Particles in Silica Causing Cracks in Semiconductor Encapsulants
      • Detection of foreign matter in plating solution using Multisizer4e
      • Determination of Size and Concentration of Particles in Oils
      • Efficient kit-free nucleic acid isolation uses a combination of precipitation and centrifugation separation methods
      • dsDNA Quantification with the Echo 525 Liquid Handler for Miniaturized Reaction Volumes, Reduced Sample Input, and Cost Savings
      • Compensation Setup For High Content DURAClone Reagents
      • Echo System-Enhanced SMART-Seq v2 for RNA Sequencing
      • Effective Miniaturization of Illumina Nextera XT Library Prep for Multiplexed Whole Genome Sequencing and Microbiome Applications
      • Efficient Factorial Optimization of Transfection Conditions
      • Enhancing Vaccine Development and Production
      • Enumeration And Size Distribution Of Yeast Cells In The Brewing Industry
      • European Pharmacopoeia EP 2.2.44 and Total Organic Carbon
      • Evaluation of Instrument to Instrument Performance of the Vi-CELL BLU Cell Viability Analyzer
      • Exosome-Depleted FBS Using Beckman Coulter Centrifugation: The cost-effective, Consistent choice
      • Flexible ELISA automation with the Biomek i5 Workstation
      • Friction Reduction System High Performance
      • Fully-Automated Cellular Analysis by Flow Cytometry
      • Fully Automated Determination of Benzodiazepines
      • Fully Automated Determination of Cannabinoids
      • Fully Automated Removal Cartridges
      • Fully Automated Sample Preparation
      • Get Control in GMP Environments
      • Getting Started with Kaluza: Parameters
      • g-Max: Added Capabilities to Beckman Coulter's versatile Ultracentrifuge Line
      • Grading of nanocellulose using a centrifuge
      • A method of grading nanoparticles using ultracentrifugation in order to determine the accurate particle diameter
      • Grading of pigment ink and measurement of particle diameter using ultracentrifugation / dynamic light scattering
      • HIAC Industrial – Our overview solution for fluid power testing for all applications
      • A complete workflow for high-throughput isolation of DNA and RNA from FFPE samples using Formapure XL Total on the KingFisher™ Sample Purification System: an application for robust and scalable cancer research and biomarker discovery
      • High-Throughput qPCR and RT-qPCR Workflows
      • A Highly Consistent BCA Assay on Biomek i-Series
      • A Highly Consistent Bradford Assay on Biomek i-Series
      • A Highly Consistent Lowry Method on Biomek i-Series
      • Highly Reproducible Automated Proteomics Sample Preparation on Biomek i-Series
      • Cell Line Development – Hit Picking
      • How to Use Violet Laser Side Scatter Detect Nanoparticle
      • How Violet Side Scatter Enables Nanoparticle Detection
      • HRLD Recommended Volume Setting
      • Automating the Cell Line Development Workflow
      • ICH Q2 – the Challenge of Measuring Total Organic Carbon in Modern Pharmaceutical Water Systems
      • ICH Q2 – The Challenge of Measuring Total Organic Carbon in Modern Pharmaceutical Water Systems
      • Illumina Nextera Flex for Enrichment on the Biomek i7 Hybrid Genomics Workstation
      • Illumina TruSight Oncology 500 Automated on the Biomek NXᴾ Span-8 Genomics Workstation
      • Importance of TOC measurement in WFI in light of European Pharmacopoeia change
      • Temperature dependence of hydrodynamic radius of an intrinsically disordered protein measured in the Optima AUC analytical ultracentrifuge.
      • Isolation of cell-free DNA (cfDNA) from plasma using Apostle MiniMax™ High Efficiency cfDNA Isolation kit— comparison of fully automated, semi-automated and manual workflow processing
      • Issues with Testing Jet Fuels for Contamination
      • Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
      • Linearity of BSA Using Absorbance & Interference Optics
      • Long Life Lasers
      • LS 13 320 XR: Sample Preparation - How to measure success
      • Particle Size Analysis Simple, Effective and Precise
      • Beckman’s LS 13 320 XR Vs. Malvern Mastersizer
      • Using Machine Learning Algorithms to Provide Deep Insights into Cellular Subset Composition
      • Flow Cytometric Analysis of auto-fluorescent cells found in the marine demosponge Clathria prolifera
      • Matching Cell Counts between Vi–CELL XR and Vi–CELL BLU
      • Recommended cleaning procedure for the exterior surface of the MET ONE 3400+
      • MET ONE Sensor Verification
      • Metal colloid purification and concentration using ultracentrifugation
      • Separation and purification of metal nanorods using density gradient centrifugation
      • Method for Determining Cell Type Parameter Adjustment to Match Legacy Vi CELL XR
      • High-throughput Miniaturization of Cytochrome P450 Time-dependent Inhibition Screening Using the Echo 525 Liquid Handler
      • Miniaturization and Rapid Processing of TXTL Reactions Using Acoustic Liquid Handling
      • Miniaturized Enzymatic Assays with Glycerol
      • Miniaturized and High-Throughput Metabolic Stability Assay Enabled by the Echo Liquid Handler
      • Miniaturized Multi-Piece DNA Assembly Using the Echo 525 Liquid Handler
      • Miniaturized Sequencing Workflows for Microbiome and Metagenomic Studies
      • Minimal Sample to Sample Carry Over with the HIAC 8011+
      • Minimizing process variability in the manufacturing of bottled drinking water
      • Modern Trends in Non‐Viable Particle Monitoring during Aseptic Processing
      • Modular DNA Assembly of PIK3CA Using Acoustic Liquid Transfer in Nanoliter Volumes
      • Multi-Wavelength Analytical Ultracentrifugation of Human Serum Albumin complexed with Porphyrin
      • Nanoliter Scale DNA Assembly Utilizing the NEBuilder HiFi Cloning Kit with the Echo 525 Liquid Handler
      • Particle diameter measurement of a nanoparticle composite - Using density gradient ultracentrifugation and dynamic light scattering
      • Identification of Circulating Myeloid Cell Populations in NLRP3 Null Mice
      • What to do now that ACFTD is discontinued
      • Optimizing the HIAC 8011+ Particle Counter for Analyzing Viscous Fluids
      • Optimizing the Multisizer 4e Coutler Counter for use with Small Apertures
      • Optimizing Workflow Efficiency of Cleanroom Routine Environmental Monitoring
      • Particle Counting in Mining Applications
      • Particle testing in cleanroom high-pressure gas lines to ISO 14644 made easy with the MET ONE 3400 gas calibrations
      • PCR Reaction Setup and AMPure XP Application
      • PCR Reaction Setup Application
      • Pharma Manufacturing Environmental Monitoring
      • Pharma Manufacturing Paperless Monitoring
      • Analysis of plant genome sizes using flow cytometry: a case study demonstrating dynamic range and measurement linearity
      • Precision measurement of adipocyte size with Multisizer4e
      • Principles of Continuous Flow Centrifugation
      • Flow Cytometric Approach to Probiotic Cell Counting and Analysis
      • Background Subtraction
      • Calibrating the QbD1200 TOC Analyzer
      • Detection Limit
      • Inorganic Carbon Removal
      • JP SDBS Validation
      • Method Overview
      • Overload Recovery
      • QbD1200 Preparing Reagent Solution
      • USP System Suitability
      • Quality Control Electronic Records for 21 CFR part 11 Compliance
      • Using the Coulter Principle to Quantify Particles in an Electrolytic Solution for Copper Acid Plating
      • A Rapid Flow Cytometry Data Analysis Workflow Using Machine Learning- Assisted Analysis to Facilitate Identifying Treatment- Induced Changes
      • Reducing Errors Associated with NGS Library Preparation
      • Root Cause Investigations for Pharmaceutical Water Systems
      • Scalable Plasmid Purification using CosMCPrep
      • Full Automation of the SISCAPA® Workflow using a Biomek NXP Laboratory Automation Workstation
      • Solid Phase Extraction
      • Specification Comparison of Vi–CELL XR and Vi–CELL BLU
      • Specifying Non-Viable Particle Monitoring for Aseptic Processing
      • A Standardized, Automated Approach For Exosome Isolation And Characterization Using Beckman Coulter Instrumentation
      • Streamlined Synthetic Biology with Acoustic Liquid Handling
      • Switching from Oil Testing to Water and back using the HIAC 8011+ and HIAC PODS+
      • Advanced analysis of human T cell subsets on the CytoFLEX flow cytometer using a 13 color tube-based DURAClone dry reagent
      • Using k-Factor to Compare Rotor Efficiency
      • Validation of On-line Total Organic Carbon Analysers for Release Testing Using ICH Q2
      • Vaporized Hydrogen Peroxide Decontamination of Vi–CELL BLU Instrument
      • Vesicle Flow Cytometry with the CytoFLEX
      • Vi CELL BLU FAST Mode Option
      • Vi-CELL BLU Regulatory Compliance - 21 CFR Part 11
      • A workflow for medium-throughput isolation of cfDNA from plasma samples using Apostle MiniMax™ on the KingFisher™ Technology
      • Adaptive Laboratory Evolution of Pseudomonas putida in the RoboLector
      • Aerobic cultivation of high-oxygen-demanding microorganisms in the BioLector XT microbioreactor
      • Anaerobic cultivation processes of probiotic bacteria in the BioLector XT microbioreactor
      • Assay Assembly for Miniaturized Quantitative PCR in a 384-well Format Using the Echo Liquid Handler
      • Automated Research Flow Cytometry Workflow Using DURA Innovations Dry Reagent Technology with the *Biomek i7 Automated Workstation and *CytoFLEX LX Flow Cytometer
      • Automating antibody titration using a CytoFLEX LX analyzer Integrated with a Biomek i7 Multichannel workstation and Cytobank streamlined data analysis
      • Automated IDT Alt-R CRISPR/Cas9 Ribonucleoprotein Lipofection Using the Biomek i7 Hybrid Automated Workstation
      • Automation of protein A ELISA Assays using Biomek i7 hybrid workstation
      • Monitoring E. coli Cultures with the BioLector and Multisizer 4e Instruments
      • Monitoring Yeast Cultures with the BioLector and Multisizer 4e instruments
      • Biomek i7 Hybrid Automated KAPA mRNA HyperPrep Workflow
      • Biomek i-Series Automated Promega Wizard MagneSil Tfx™ Plasmid Purification System
      • Cultivation of suspended plant cells in the BioLector®
      • How to use R to rewrite FCS files with different number of channels
      • Determination of cell death in the BioLector Microbioreactor
      • DO-controlled fed-batch cultivation in the RoboLector®
      • Screening of yeast-based nutrients for E. coli-based recombinant protein production using the RoboLector Platform
      • E. coli fed-batch cultivation using the BioLector® Pro
      • Echo System-Enhanced SMART-Seq v4 for RNA Sequencing
      • Filling MicroClime Environmental Lids
      • Fully Automated Peptide Desalting for Liquid Chromatography–Tandem Mass Spectrometry Analysis Using Beckman Coulter Biomek i7 Hybrid Workstation
      • Getting Started with Kaluza: Data Scaling and Compensation Adjustment
      • A Simple Guide to Selecting the Right Handheld Particle Counter for Monitoring Controlled Environments
      • High throughput cultivation of the cellulolytic fungus Trichoderma reesei in the BioLector®
      • High-throughput IgG quantitation platform for clone screening during drug discovery and development
      • High-throughput Miniaturization of Cytochrome P450 Time-dependent Inhibition Screening Using the Echo 525 Liquid Handler
      • Host Cell Residual DNA Testing in Reduced Volume qPCR Reactions Using Acoustic Liquid Handling
      • Improved data quality of plate-based IgG quantification using Spark®’s enhanced optics
      • Increased throughput for IgG quantification using Valita Titer 384-well plates
      • Linearity of the Vi-CELL BLU Cell Counter and Analyzer
      • Media optimization in the RoboLector platform for enhanced protein production using C. glutamicum
      • MET ONE 3400+ LDAP & Active Directory connection Guide
      • Migration of Panels Designed on the CytoFLEX S Flow Cytometer to CytoFLEX SRT Cell Sorter
      • Miniaturization of an Epigenetic AlphaLISA Assay with the Echo Liquid Handler and the BMG LABTECH PHERAstar FS
      • Miniaturization of Cytochrome P450 Time-dependent Inhibition Screening Using the Echo 555 Liquid Handler
      • Miniaturized 16S rRNA Amplicon Sequencing with the Echo 525 Liquid Handler for Metagenomic and Microbiome Studies
      • Miniaturized Enzo Life Sciences HDAC1 Fluor de Lys Assays Using an Echo Liquid Handler Integrated in an Access Laboratory Workstation
      • Miniaturized EPIgeneous HTRF Assays Using the Echo Liquid Handler
      • Miniaturized Gene Expression in as Little as 250 nL
      • Miniaturized Genotyping Reactions Using the Echo Liquid Handler
      • Mixed Mode Sorting on the CytoFLEX SRT
      • Mode of operation of optical sensors for dissolved oxygen and pH value
      • Nanoliter Scale High-Throughput Protein Crystallography Screening with the Echo Liquid Handler
      • Nanoscale Sorting with the CytoFLEX SRT Cell Sorter
      • Low-pH profiling in µL-scale to optimize protein production in H. polymorpha using the BioLector
      • Optimized NGS Library Preparation with Acoustic Liquid Handling
      • Phototrophic cultivation of Chlorella vulgaris in the BioLector XT microbioreactor
      • Plate Deposition Speed Comparison of Astrios and CytoFLEX SRT Cell Sorters
      • Preparation of Mouse Plasma Microsamples for LC-MS/MS Analysis Using the Echo Liquid Handler
      • Protocols for use of SuperNova v428 conjugated antibodies in a variety of flow cytometry applications
      • Purifying viral vector with VTi 90 rotor and CsCl DGUC
      • Rapid Measurement of IgG Using Fluorescence Polarization
      • Increased throughput for IgG quantification using Valita Titer 384-well plates
      • Robust and High-Throughput SARS-CoV-2 Viral RNA Detection, Research, and Sequencing Using RNAdvance Viral and the OT-2 Platform
      • Screening yeast extract to improve biomass production in acetic acid bacteria starter culture
      • Single Cell Sorting with CytoFLEX SRT Cell Sorter
      • Sorting Rare E-SLAM Hematopoietic Stem Cells Using CytoFLEX SRT and Subsequent Culture
      • SWOFF The unrecognized yet indispensable sibling of FMO
      • The scattered light signal: Calibration of biomass
      • Utilization of the MicroClime Environmental Lid to Reduce Edge Effects in a Cell-based Proliferation Assay
      • Vertical Rotor Case Study with Adenovirus
      • Viral Vector Purification with Ultracentrifugation
      • Whole Genome Sequencing of Microbial Communities for Scaling Microbiome and Metagenomic Studies Using the Echo 525 Liquid Handler and CosmosID
      • Comparative Analysis of Cell-Free DNA Extraction Efficiency from Plasma
    • Brochures, Flyers and Data Sheets
      • Access Single Robot System for Synthetic Biology Workflows
      • Automated Solutions for Cell Line Development
      • Automated Solutions for ELISA
      • HIAC 8011+ Liquid Particle Counting Systems
      • HIAC 9703+ Sub-Visible Particulate Testing
      • LS 13 320 XR - Laser Diffraction Particle Size Analyzer
      • Download the Valita Titer Assay Brochure
    • Case Studies
      • Adenoviral Vectors Preparation
      • Algae Biofuel Production
      • Antibody and Media Development
      • Autophagy
      • B Cell Research
      • Basic Research on Reproductive Biology
      • Cardiovascular Disease Research
      • Cell Marker Analysis
      • Choosing a Tabletop Centrifuge
      • Collagen Disease Treatment
      • Contribute To Society By FCM
      • Controlling Immune Response
      • Creating Therapeutic Agents
      • DNA Extraction from FFPE Tissue
      • English Safety Seminar
      • Equipment Management
      • Exosome Purification Separation
      • Fast, Cost-Effective and High-Throughput Solutions for DNA Assembly
      • Future of Fishing Immune Research
      • Hematopoietic Tumor Cells
      • High-throughput next-generation DNA sequencing of SARS-CoV-2 enabled by the Echo 525 Liquid Handler
      • iPS Cell Research
      • Leveraging acoustic and tip-based liquid handling to increase throughput of SARS-CoV-2 genome sequencing
      • Membrane Protein Purification X Ray Crystallography
      • Organelles Simple Fractionation
      • Particle Interaction
      • Quality evaluation of gene therapy vector
      • Retinal Cell Regeneration
      • Sedimentary Geology
      • Severe Liver Disease Treatment
      • Tierra Biosciences reveals major molecular discovery
      • Treating Cirrhosis
      • University Equipment Management
      • University of Texas Medical Branch UTMB Workflow Comparison Study with the AQUIOS CL Flow Cytometer
      • Fundamentals of Ultracentrifugal Virus Purification
    • Catalogs
    • eBooks
      • Flow Cytometry: First Principles, Second Edition
    • Flyers
      • 10 Things to Consider When Exploring Automation for ELISA
      • Cell Line Development
      • Cell-Based Assays
      • Continuous Cell Culture
      • Virus concentration from aqueous solutions by ultracentrifugation
    • Interviews
      • Background and Current Status of the Introduction of Flow Cytometers
      • Central Diagnosis in the Treatment of Childhood Leukemia 1
      • Central Diagnosis in the Treatment of Childhood Leukemia 2
      • Contribution of Cytobank to 1-cell analysis of the cancer microenvironment
      • Development of technology for social implementation of synthetic biology
      • Dr Yabui UCF Lecture_old
      • Flow Cytometry Testing in Hospital Laboratories
      • Fundamentals of Ultracentrifugal Virus Purification
      • The MET ONE 3400+ Automates Routine Environmental Monitoring for GMP Cleanroom Compliance
      • Tumor Suppressor Gene p53 research and DNA Cleanup Process
      • Fundamentals of Ultracentrifugal Virus Purification
      • Dr Yabui UCF Lecture
    • Posters
      • AMP 2019: Correlation Between Mutations Found in FFPE Tumor Tissue and Paired cfDNA Samples
      • Applications of Ultracentrifugation in Purification and Characterization of Biomolecules
      • Automating Genomic DNA Extraction from Whole Blood and Serum with GenFind V3 on the Biomek i7 Hybrid Genomic Workstation
      • ABRF 2019: Automated Genomic DNA Extraction from Large Volume Whole Blood
      • Automated library preparation for the MCI Advantage Cancer Panel at Miami Cancer Institute utilizing the Beckman Coulter Biomek i5 Span-8 NGS Workstation
      • Automating Cell Line Development for Biologics
      • Cellular Challenges: Taking an Aim at Cancer
      • Cell-Line Engineering
      • Characterizing the Light-Scatter Sensitivity of the CytoFLEX Flow Cytometer
      • ASHG 2019: Comparison between Mutation Profiles of Paired Whole Blood and cfDNA Samples
      • ASHG 2019: Correlation Between Mutations Found in FFPE Tumor Tissue and Paired cfDNA Samples
      • AACR 2019: Isolation and Separation of DNA and RNA from a Single Tissue or Cell Culture Sample
      • Mastering Cell Counting
      • AACR 2019: Correlation between Mutations Found in FFPE Tumor Tissue and Paired cfDNA Samples
      • Preparing a CytoFLEX for Nanoscale Flow Cytometry
      • A Prototype CytoFLEX for High-Sensitivity, Multiparametric Nanoparticle Analysis
      • AGBT 2019: A Scalable and Automatable Method for the Extraction of cfDNA
      • ABRF 2019: Simultaneous DNA and RNA Extraction from Formalin-Fixed Paraffin Embedded (FFPE) Tissue
      • A Complete Automation and Reagent Workflow for Analysis of cfDNA: from Plasma to Variants
      • Quantification of AAV Capsid Loading Fractions: A Comparative Study
      • Using Standardized Dry Antibody Panels for Flow Cytometry in Response to SARS-CoV2 Infection
    • Product Instructions
      • AQUIOS CL Safety Features for Handling Potentially Biohazardous Sample Material
      • Sealing Foil F-RSXT-10
      • BioLector XT Microbioreactor
      • Using the BioLector XT Microbioreactor Gassing Lid
    • Experimental Protocols
    • Whitepapers
      • Centrifugation is a complete workflow solution for protein purification and protein aggregation quantification
      • AUC Insights - Analysis of Protein-Protein-Interactions by Analytical Ultracentrifugation
      • GMP Cleanrooms Classification and Routine Environmental Monitoring
      • AUC Insights - Assessing the quality of adeno-associated virus gene therapy vectors by sedimentation velocity analysis
      • AUC Insights - Sample concentration in the Analytical Ultracentrifuge AUC and the relevance of AUC data for the mass of complexes, aggregation content and association constants
      • Analyzing Biological Systems with Flow Cytometry
      • Changes to USP Subvisible Particulate Matter
      • Changes to USP Total Organic Carbon
      • Characterization of RNAdvance Viral XP RNA Extraction Kit using AccuPlex™ SARS–CoV–2 Reference Material Kit
      • CytoFLEX Platform Flow Cytometers with IR Laser Configurations: Considerations for Red Emitting Dyes
      • Evaluation of the Analytical Performance of the AQUIOS CL Flow Cytometer in a Multi-Center Study
      • Simultaneous Isolation and Parallel Analysis of gDNA and total RNA for Gene Therapy
      • Hydraulic Particle Counter Sample Preparation
      • Inactivation of COVID–19 Disease Virus SARS–CoV–2 with Beckman Coulter Viral RNA Extraction Lysis Buffers
      • Liquid Biopsy Cancer Biomarkers – Current Status, Future Directions
      • MET ONE 3400+ IT Implementation Guide
      • Reproducibility in Flow Cytometry
      • SuperNova v428: New Bright Polymer Dye for Flow Cytometry
    • Japan Document
  • Videos
    • Product Videos
      • Access Laboratory Workstation Introduction
      • Allegra V-15R Features and Benefits
      • Allegra V-15R Launch Event
      • AQUIOS CL How It Works
      • AQUIOS Designer Software Workflow Efficiency
      • AQUIOS CL Online Presentation
      • Automated Positive-Pressure Extraction: Biomek i-Series Integrated Solutions
      • BeckmanConnect Privacy and Security Highlights
      • Biomek i-Series and Echo Acoustic Liquid Handler Integrated Workstation
      • Biomek i Series: Dual Gripping on the i7 Hybrid
      • Biomek i Series: Gripper Rotation and Navigation on High-Density Deck
      • Biomek i Series: Intrawell Pipetting for Mixing Using 96 Multichannel
      • Biomek i Series: Parallel Processing on the i7 Hybrid
      • Biomek i Series: Transferring Labware In/Out of an on-deck Automated Thermal Cycler (ATC)
      • Biomek i5 for Automating Protein Quantification & Characterization
      • Biomek i5 for Automating Screening & Hit Picking
      • Biomek i-Series: 6-Column Multichannel Plate Transfer
      • Biomek i-Series: 96 Multichannel Selective Tip Pipetting by Row and by Column
      • Biomek i-Series: 96 Multichannel Tip Loading
      • Biomek i-Series: Large Volume Transfer Using the 96 Multichannel
      • CellMek SPS Innovation Keynote
      • CellMek SPS Overview
      • CellMek SPS Workflow
      • CytExpert Compensation Workflow
      • Overview of Cytobank Features and Functions
      • DxFLEX Flow Cytometer
      • The Echo Liquid Handler can simultaneously Normalize and Pool
      • EMnetik 24 Live Launch On Demand
      • Introducing EMnetik System for PCR Cleanup and Plasmid Prep
      • EMnetik System Product Video
      • Fully Automated Clone Selection: Biomek i-Series Integrated Solutions
      • History of Automation
      • Inside the DXFLEX Flow Cytometer Photodetectors in Flow Cytometry
      • Introducing the QbD1200 TOC Analyzer
      • MET ONE 3400+ Series Airborne Particle Counter
      • MET ONE 3400+ Series Airborne Particle Counter
      • Microtiter plate lid management
      • Photodetectors in Flow Cytometry
      • QbD1200 Virtual Demo of Calibration
      • QbD1200 Virtual Demo of Paperless Reporting
      • QbD1200 Virtual Demo of a Measurement Setup
      • Reagent Kits for Viral RNA Extraction
      • Span-8 1 mL tip loading
      • VD-016a-flow
      • VD-031a-flow
      • VD-032a-flow
      • VD-033a-flow
      • VD-035a-flow
      • VD-048a-auto
      • VD-057a-flow
      • VD-060a-part
      • VD-067a-cent
      • VD-068a-cent
      • VD-081a-auto
      • VD-091a-part
      • VD-093a-auto
      • VD-095a-flow
      • VD-098a-part
      • VD-123a-cent
      • VD-144a-auto
      • VD-145a-auto
      • VD-146a-auto
      • VD-151a-auto
      • VD-163a-flow
      • VD-168a-flow
      • VD-179a-flow
      • VD-180a-flow
      • VD-186a-flow
      • VD-187a-flow
      • VD-188a-flow
      • VD-189a-flow
      • VD-190a-flow
      • VD-191a-flow
      • VD-192a-flow
      • VD-193a-flow
      • VD-194a-flow
      • VD-195a-flow
      • VD-196a-flow
      • VD-197a-flow
      • VD-199a-auto
      • VD-200a-auto
      • VD-201a-auto
      • VD-202a-auto
      • VD-203a-auto
      • VD-204a-part
      • VD-205a-part
      • VD-206a-part
      • VD-207a-part
      • VD-208a-part
      • VD-209a-part
      • VD-210a-part
      • VD-211a-part
      • VD-212a-part
      • VD-213a-part
      • VD-214a-part
      • VD-215a-part
      • VD-216a-part
      • VD-217a-part
      • VD-218a-part
      • VD-219a-part
      • VD-220a-part
      • VD-221a-part
      • VD-222a-part
      • VD-237a-auto
      • VD-239a-part
      • VD-241a-auto
      • VD-242a-auto
      • VD-250a-cent
      • VD-251a-cent
      • VD-252a-cent
      • VD-253a-cent
      • VD-254a-cent
      • VD-255a-cent
      • VD-256a-cent
      • VD-257a-cent
      • VD-258a-cent
      • VD-259a-cent
      • VD-275a-cent
      • VD-292a-part
      • VD-293a-part
      • VD-294a-part
      • VD-297a-auto-ruo-ex-2021
      • VD-301a-cent
      • VD-302a-cent
      • VD-303a-cent
      • VD-309a-auto
      • VD-313a-auto
      • Vi-CELL BLU Sample Flow Animation
      • Introducing the Vi-CELL MetaFLEX
      • DURA Innovations: A Better Monday
      • Advantages of ClearLLab LS
      • Allegra General Purpose Centrifuge Line
      • Allegra X-15R - Aerosolve Package
      • Allegra X-15R Centrifuge Performance
      • AQUIOS CL Flow Cytometer Analysis and Reporting
      • AQUIOS CL Flow Cytometer Automated and Single Loading
      • AQUIOS CL Flow Cytometer Pipeline Sample Processing
      • AQUIOS CL Flow Cytometer Sample Preparation
      • AQUIOS CL Flow Cytometer Smart Track Reagent Monitoring
      • AQUIOS CL Flow Cytometry Workflow Efficiency
      • Automate Flow Cytometry Assays
      • i-Series Automated Workstations Teaser 1
      • Avanti J-26S Performance
      • Avanti J-26S Portfolio
      • Avanti J-26S Redesign Advantages
      • Avanti J-26S Safety and Reliability
      • Avanti J-26S Sustainability
      • Avanti J-26S User Experience
      • Avanti J-26S Versatility
      • Avanti JXN High Performance Centrifuge - Bioproduction
      • Avanti JXN High Performance Centrifuge -- Manual Run 
      • Avanti JXN Series High Performance Centrifuge: Introduction
      • Avanti JXN Series High Performance Centrifuges in Shared Labs 
      • Avanti JXN-26 High Performance Centrifuge
      • Biomek 4000 Automated Workstation Overview
      • Centrifuge Service Installation
      • ClearLLab 10C System for Integrated L&L Immunophenotyping
      • Offline analysis of CytExpert files using Kaluza Analysis Software
      • Bandpass filter light path of the CytoFLEX
      • Wavelength Division Multiplexer of the CytoFLEX
      • CytoFLEX Lasers and Integrated Optics
      • CytoFLEX LX Introduction
      • Peristaltic Pump in the CytoFLEX
      • CytoFLEX Flow Cytometer Plate Loader Option Overview
      • CytoFLEX flow cytometry for the bench (and other fun locales)
      • CytoFLEX Flow Cytometer Special Procedure
      • DURA Innovation Workflow Comparison
      • DURA Innovations Technology and Advantages
      • DxFLEX Overview
      • Ease of Use Avanti JXN - High Performance Centrifuges
      • Gallios Flow Cytometer Overview
      • Harvest Line System Liner: How to Use 
      • Harvest Line System Liner: How to Use 
      • HIAC 8011+ Digital Exports and Web Server
      • HIAC 8011+ Liquid Particle Counter Features
      • HIAC 8011 Plus Interchangeable Sensors and Magnetic Stirrer
      • HIAC 8011+ Liquid Particle Counter Overview
      • HIAC 8011+ Product Demonstration
      • HIAC 8011+ Liquid Particle Counter Sample Recipe Setup
      • 8011+ Sample Recipe Wizard
      • HIAC 8011+ Self-Diagnostic Alerts and Cleaning Routines
      • HIAC 8011+ Vacuum and Degas
      • HIAC PODS+ Digital Exports
      • HIAC PODS+ Filter Cart Mode
      • HIAC PODS+ Internal Compressor and Moisture Detector   
      • HIAC PODS+ Online Mode
      • HIAC PODS+ Liquid Particle Counter -- An Overview
      • HIAC PODS+ Product Demonstration
      • HIAC PODS+ Sample Recipe Wizard
      • HIAC PODS+ Self-Diagnostic Alerts and Cleaning Routines
      • Introducing the Biomek i-Series Automated Workstation
      • Introducing the LS 13 320 XR
      • Introduction to AUC - an Analytical Ultracentrifuge
      • Introduction to CytoFLEX LX
      • i-Series Automated Workstations Teaser 4
      • Kaluza Reads FCS Compliant Files: FACSCelesta
      • Kaluza Reads FCS Files: FACSVerse Acquisition Data
      • Kaluza Software Award
      • Kaluza Software Design
      • Kaluza Software Launch
      • Kaluza Software Parametric Visualization
      • Kaluza Software Performance
      • LS 13 320 Overview - Particle Characterization
      • LS 13 320 XR ADAPT Software
      • LS 13 320 XR: X-D Array and PIDS Technology
      • Changing the Module in the LS 13 320 XR
      • Multisizer 4e Cell Counter and Analyzer -- An Overview 
      • Searching for the Oldest Centrifuge
      • Optima AUC Overview, New Analytical Ultracentrifuge
      • Optima MAX Series - Tabletop Ultracentrifuge
      • Optima X Series Ultracentrifuges - An Overview
      • Optima XE and XPN Ultracentrifuge Performance
      • Optima XE and XPN Safety and Reliability
      • Optima XE and XPN Ultracentrifuges: A Total System
      • The Optimized Path to Pharmaceutical Production
      • Results with Tandem Dyes
      • The AQUIOS CL Flow Cytometer Advantage
      • The History of AUC - An Analytical Ultracentrifuge
      • Ultra Harmonic Technology in the Avanti J-15 Centrifuge
      • Unboxing Your New CytoFLEX Flow Cytometer
      • Vi-CELL BLU Livestream Announcement
      • Vi-CELL BLU Product Launch
    • Scientific Videos
      • Overview of Density Gradient Equilibrium Analytical Ultracentrifugation (DGE-AUC)
      • 3D Imaging of Cancer Spheroids
      • A Simplified Approach to Automating ELISA
      • Advances in Cellular Automation
      • Advances in Synthetic Biology Technologies: Cell-Free Protein Synthesis from Academia to Applied Market
      • Automating High-Throughput Sample Prep for Analysis of Complex Diseases Using Next-Gen Sequencing
      • Automated 3D Cell Culture and Screening by Imaging and Flow Cytometry
      • Automated Cell Culture Workflows: Biomek Integrated Solutions
      • Automated group testing at scale to enable COVID-19 decision makers - Using Echo for tapestry pooling and high-throughput qPCR setup
      • Automated NEBNext Ultra Directional RNA Library Preparation Kit
      • Automated TruSeq RNA Sample Preparation from FFPE Tissue
      • Increase Productivity Reproducibility by Automating DNA Library Prep for Ion Torrent Sequencing
      • Automating NGS Sample Prep for Challenging Samples and Niche Applications
      • Avalanche Photodiodes in CytoFLEX
      • Biomek FXP as a tool for discovery
      • CAR-T Cell Therapy: Introduction and Overview
      • Cellular Solutions of all Shapes and Sizes
      • Centrifuge 101
      • Challenging Samples in Cancer Research: Formalin-Fixed Paraffin-Embedded Tissues
      • Contract Manufacturing Services
      • CRISPR for Immunotherapy: Introduction and Overview
      • Custom Design Services for Multi-Color Flow Cytometry
      • Cytogenetics Cancer Research
      • Digital Pathology Image Analysis for Cancer Research
      • DNA and RNA Sequencing Sample Preparation
      • DURAClone Technology
      • Echo Acoustic Liquid Handling Technology
      • ELISA Automation on a Biomek i-Series
      • An Overview of Exosome Isolation
      • The Principle of Flow Cytometry (FCM)
      • Flow Cytometric Analysis of Hematologic Malignancies with ClearLLab LS Tube
      • Gene Therapy Workflow from Production to Quality Control
      • Automated human stem cell-based phenotypic high-throughput drug screening
      • How Automation Helps to Improve your ELISA
      • Immunotherapy Introduction and Overview
      • New Strategies to Improve Your CE-SDS Results from a Data-Driven Perspective
      • New Automation Strategies for Improving Sample Prep for The Analytical Laboratory
      • Increasing NGS Sequencing Capacity with High-Throughput Automated TruSeq Stranded mRNA Library Construction
      • Industrial Fluid Particle Counter Sample Preparation
      • Innovation to Improve Genomic Sample Prep
      • Introduction to Automating NGS Workflows
      • Introduction to Flow Cytometry
      • Multipurpose robotic platform for molecular biology, biophysical, and cellular assays
      • NanoGBS - A Miniaturized Procedure for Genotyping By Sequencing Library Preparation
      • Automated NEBNext Ultra Directional RNA Library Prep Kit
      • Phospho Epitopes Exposure Kit
      • Proteome Centric Precision Medicine - Embracing Pathological Diversity
      • Evaluation to Implementation with the University of Luxembourg
      • Sample Preparation for Biologics Bioanalysis
      • Chemogenomics - Screening of Biologically Active Drug Libraries
      • Small Talk: Episode 1 - Before You Even Start…
      • Small Talk Episode 2 - Harvesting EVs
      • Small Talk: Episode 3 - Getting Ready for Your Experiment
      • Small Talk Episode 4 - Let's Explore
      • Small Talk Episode 5 - The Power of Flow
      • Small Talk Q&A
      • SPRI Bead Technology Video
      • A Streamlined Approach to Automating ELISA
      • Cell volume is an important indicator of white blood cell health and therapeutic potential
      • Translating Nature into Medicine Using Machine Learning, Metabolomics, and High-Throughput Pharmacology
      • Trends in Mass Spectrometry
      • Unlocking FFPE Tissues using Illumina NGS Biomek Automated Sample Preparation
      • VersaComp Antibody Capture Beads
      • Viral Particle Production 101
      • Viral Vectors Introduction and Overview
      • Workflow Challenges Solved: The Palmer Lab
    • Symposium Videos
      • Assessing Proliferation and Cytotxic Potential Using Multicolor Flow Cytometry
      • AUC Symposium: Characterization of Gene Therapy Formulations by Analytical Ultracentrifugation
      • AUC Symposium - Building Better Things with the Analytical Ultracentrifuge
      • AUC Symposium - Lipid Nanoparticles: Paradigm-Shifting Nucleic Acid Therapeutics  
      • AUC Symposium Panel Discussion - June 2021
      • Analytical Ultracentrifuge (AUC) Symposium Series: Multiwavelength Analysis of Proteins (Session 1)
      • Analytical Ultracentrifuge (AUC) Symposium Series: Multiwavelength Analysis of Proteins (Session 2)
      • Automation of sample preparation for an efficient protein quantification workflow for proteomics
      • Covid Symposium Day1, Q&A, Panel Discussion
      •  Anis Larbi Physiological Aging and Immunological Erosion
      • Andrea Cossarizza Recognizing the Immune Response to SARS-CoV-2
      • Ryan Brinkman The COVID Cytometry Project
      • Q & A Session from Day 2, Viral Particle Detection and Characterization
      • Silvana Verdiani New ELISA Kit for Serological Testing for SARS COV-2 Infection
      • Miranda Byrne-Steele A Needle in a Haystack Using Immune Repertoire and Single Cell VDJ Sequencing to Identify COVID-specific B-cell Responses
      • Marc-Andre Langlois Learnings from Single Particle Analysis of Moloney MLV Insight into its Infectivity, Genome Packaging Efficiency, and Host Marker Acquisition
      • Q & A Session from Day 3, Vaccine and Therapy Development
      • Jean Boyer Development and Immune Assessment of a DNA Vaccine Against COVID-19
      • Bernhard Ellinger Using drug repurposing to identify inhibitors of SARS-CoV-2 cellular toxicity in vitro
      • Bruce Patterson Disruption of the CCL5RANTES-CCR5 Pathway 1 Restores Immune Homeostasis and Reduces Plasma Viral Load in Critical COVID-19
      • DKMS Life Science Lab: ultra-high throughput HLA genotyping for stem cell donor recruitment
      • Extracellular Vesicles for ‘Liquid Biopsy’ Development in Cancer by Dr. Karla Williams
      • Introduction to Mesenchymal Stem Cell DURAClone Dry Reagents
      • Miniaturization of metagenomic RNA-seq library prep demonstrates greatly improved productivity and efficiency when utilizing acoustic liquid handling
      • Miniaturized Illumina Nextera XT Library Prep using an Integrated Biomek i5 and Echo 525 Liquid Handling Workstation
      • Monitoring Signal Transduction Pathways in Human Disease
      • Multi-Sizing your Multi-Color Panel
      • SynBioBeta 2020 with Beckman Coulter Life Sciences
    • Testimonial Videos
      • Allegra V-15R Testimonial by Dr. Martin J. Richer
      • AQUIOS CL Flow Cytometer Advantages
      • Mobile Lab with AQUIOS - Dr Lillian Hesselink 
      • Mobile Lab with AQUIOS - Dr Roy Spijkerman
      • BeckmanConnect Tohoku University
      • Collaborative data analysis platform explained by our expert Herve Luche
      • CytoFLEX Testimonial from Dr. Karen Hogg, University of York, United Kingdom
      • EMnetik System Testimonials
      • Discovery in Motion: High-throughput Automation Solutions at Sintef
      • Sintef: Why a CRO Chooses to Automate their Lab with Biomek Liquid Handlers
      • Using Vertical Rotors and the new VTi 50.1 by Chris Nieder
      • Dr. Karla Williams on Analyzing Extracellular Vesicles Using the CytoFLEX
      • Reflections on 70 Years of Centrifugation Innovation
      • Exosomes Workflow Testimonial with Dr. Vannberg
      • Collaboration with the University of York and Dr. Karen Hogg
      • Dr. Jurgen Riedl, Clinical Chemist, Albert Schweitzer Hospital Customer Testimonial
      • Customer Testimonial: Flow Cytometry Service and Support with Dr. Karen Hogg
      • Selecting High Performance Flow Cytometry Reagents with Dr. Karen Hogg
      • High Quality Flow Cytometry Reagent Selection Criteria with Dr. Karen Hogg
      • A new dimension in simplified AUC analysis - Dr. Borries Demeler
      • AQUIOS CL Benefits with Casiana Fernandez-Bango
      • AQUIOS CL Size Testimonial with Alexandra Amador
      • AQUIOS CL Software Testimonial with Casiana Fernandez-Bango
      • AQUIOS CL Training Testimonial with Alexandra Amador
      • Sales to Implementation with the University of Luxembourg
      • CytoFLEX Cancer Biology Research Testimonial with Leonardo Salmena
      • CytoFLEX Capabilities Testimonial with Sarah Schuett
      • CytoFLEX Lab Perspective Testimonial with Sarah Schuett
      • CytoFLEX S Accelerated Research Testimonial with Brian Phillip
      • CytoFLEX S Contest Winner Testimonial with Brian Phillip
      • CytoFLEX S Potential Testimonial with Brian Phillip
      • CytoFLEX Upgrades Testimonial with Sarah Schuett
      • CytoFLEX Value Testimonial with Sarah Schuett
      • Kaluza Software Testimonial with Dr. Rob Woestenenk
      • Kaluza Software Testimonial with Tim Hutten
      • Utilizing the CytoFLEX Testimonial with Leonardo Salmena
    • Training Videos
      • CytoFlex operation in Chinese
      • AQUIOS CL Flow Cytometer - Advanced Operation Training
      • AQUIOS CL Flow Cytometer - Advanced Operation Training in French
      • AQUIOS CL Advanced Operation in German
      • AQUIOS CL Advanced Operation in Italian
      • AQUIOS CL Advanced Operation in Portuguese
      • AQUIOS CL Advanced Operation in Russian
      • AQUIOS CL Advanced Operation in Spanish
      • AQUIOS CL Flow Cytometer - Basic Operation Training
      • AQUIOS CL Basic Operation in French
      • AQUIOS CL Basic Operation in German
      • AQUIOS CL Basic Operation in Italian
      • AQUIOS CL Basic Operation in Portuguese
      • AQUIOS CL Basic Operation in Russian
      • AQUIOS CL Basic Operation in Spanish
    • Tutorial Videos
      • 5 Years of high-throughput strain engineering with the Echo: lessons from Zymergen Automation presented by Christopher Bremner, Automation Engineer, Zymergen @SLAS2020
      • Characterization of CytoFLEX Gain Settings
      • Cytobank Basics
      • Cytobank CITRUS
      • Cytobank Experiment Manager
      • Cytobank FlowSOM
      • Cytobank SPADE
      • Cytobank viSNE
      • Creating an Experiment using CytoFLEX
      • Generating a Compensation Matrix using CytoFLEX
      • CytoFLEX How to Set Up Violet Side Scatter
      • EMnetik System Product Tutorial
      • How to Install Rotors on Allegra V-15R
      • How to Program ECO Mode on Allegra V-15R
      • How to Program Rapid Temp on Allegra V-15R
      • How to Register Your Instrument with BeckmanConnect
      • How to Set-Up and Run a Program on Allegra V-15R
      • Intellifuge Calculator Introduction
      • Kaluza Batch Analysis Tutorial with Dr. David Onion
      • Kaluza Boolean Gates tutorial with Dr. David Onion
      • Kaluza Cell Cycle Analysis Tutorial with Dr. David Onion
      • Kaluza Composites Tutorial with Dr. David Onion
      • Kaluza Cytobank Plugin
      • Kaluza Linked Gates Tutorial with Dr. David Onion
      • Kaluza Levey-Jennings Plots and Quality Control Analysis Tutorial with Dr. David Onion
      • Kaluza Radar and Tree Plots Tutorial with Dr. David Onion
      • Off-the-shelf, Echo-based DNA Assembly Automation presented by George McArthur, Arzeda @SLAS2020
      • Optima AUC Cell Assembly Tutorial
      • Optima AUC Cell Loading Tutorial
      • Optima AUC Cell Preparation Tutorial
      • Seminar: Diverse Applications of Flow Cytometry to Answer Biological Questions
      • Extended Features for Kaluza Software Tutorial
      • Getting to Know Kaluza Acquisition Software Tutorial
      • Seminar: High Dimensional Flow Cytometry on Small Instrument Platforms Tutorial
      • Kaluza Analysis Overview Tutorial
      • Kaluza for Gallios Compensation Worklist Tutorial
      • Kaluza for Gallios Simulator with a Legacy Browser Tutorial
      • Kaluza for Gallios Software Tutorial - Flow Cytometry
      • Kaluza Analysis Software Tutorial - Loading Files and Creating Plots
      • Kaluza Analysis Software: Creating Overlay Plots
      • Setting up Statistics with Kaluza Software Tutorial
      • How to Fill and Seal a Quick-Seal Tube
      • How to Fill and Plug a OptiSeal Tube
      • Syringe Extraction of a Ultra-Clear, Quick-Seal Tube
    • Webinars
      • 17 Color Immunophenotyping using CytoFLEX LX and ViaKrome
      • GMP Cleanroom Routine Environmental Monitoring & 21 CFR Part 11 Data Integrity
      • 21 CFR Part 11 Data Integrity for Online TOC Instruments
      • ACFTD Discontinuance and the HIAC 8011+ and HIAC PODS+
      • Achieving Cell-Free Gene Expression with An Acoustic Liquid Handler
      • Acoustic liquid handling overview
      • Addressing the Challenges of Purification & Quality Control in Gene Therapy
      • An End-to-End Automated Workflow for High-Throughput SARS-Cov-2 Sequencing and Surveillance
      • Webinar: An Intro to Characterization of Biomolecules Using AUC
      • Analytical Methods to Measure Empty and Full AAV Particles
      • Applications of Counterflow Centrifugal Elutriation CCE
      • B-cell Lymphoproliferative Disorders Diagnostics by Flow Cytometry
      • Cell Counting & Viability: Faster Results Through Automation
      • Cell-Free Technology and Acoustic Liquid Handling Are Helping Tierra Disrupt Natural Product Discovery
      • Changes to USP : Determination of Subvisible Particle Matter from the HIAC and Coulter Counters
      • Changes to USP Total Organic Carbon for Pharmaceutical Grade Waters
      • Characterization of CRISPR Technologies Using Cell-Free Transcription and Translation and an Acoustic Liquid Handler
      • Characterization of CRISPR Technologies Using Cell-Free Transcription and Translation and an Acoustic Liquid Handler
      • Characterization of Extracellular Vesicles with Nanoscale Flow Cytometry
      • Characterizing Viral Vector Fullness in Density Gradient Separations
      • Characterizing Viruses: From Deadly Pathogens to the Workhorses of Gene Therapy
      • Choosing the Right TOC Analyzer for a Pharmaceutical QC Laboratory
      • Cytobank Webinar - CITRUS in Practice with Dr. Anna Belkina
      • Cleanroom Routine Environmental Monitoring & Classification
      • Clinical Flow Cytometry User Group Meeting
      • Cytobank Bootcamp Session #6 Single Cell Data
      • Cytobank Bootcamp Session #4 FlowSOM
      • Cytobank Bootcamp Session #1 Introduction to Cytobank 
      • Cytobank Bootcamp Session #3 viSNE
      • Cytobank Bootcamp Session #2 Data Management
      • Cytobank Bootcamp Session #5 Biomarker discovery with CITRUS
      • Machine Learning Assisted Population Identification
      • Cytometry data sharing platform for collaborative multi-centric data analysis
      • Recent Advances in Immunotherapy: Directing Cells to Address Disease
      • DNA Cytometry with Kaluza
      • Drug Allergy Diagnostics Webinar
      • Evolution in the Manufacturing of Cellular Therapies
      • Fast Cost-Effective High Throughput Solutions for DNA Assembly
      • Flow cytometry in clinical immunology-actual approach to immune status evaluation
      • Fluorescent amplification for next generation sequencing (FA-NGS) library preparation: A Streamlined Workflow to Improve NGS Quality Control Testing
      • Fully Automated RNA Library Preparation for Sequencing Respiratory Viruses
      • Goldilocks & the Three Cells: The Art of Monitoring & Managing Cell Cultures
      • ICH Q2 Validating a TOC Analyser with the QbD1200
      • ICH Q2 Validation of Analytical Procedures for Pharmaceutical TOC Analyzers
      • Is Immunotherapy Living up to its Promise?
      • Initial Evaluation of the ClearLLab 10C System in the Immunophenotyping of Leukemia and Non Hodgkin Lymphoma
      • Kaluza Batch Analysis Tutorial with Dr. David Onion
      • Kaluza Software Webinar
      • Leukocytes immunophenotyping in COVID-19 patients
      • Leveraging acoustic and tip-based liquid handling to increase SARS-CoV-2 sequencing throughput
      • Looking Under the Hood: Getting Started with the Optima AUC
      • Cleanrooms: Controlling Contamination, Setting Alerts & Actions, Considerations of Removal Efficiency
      • GMP Cleanroom Routine Environmental Monitoring & 21 CFR Part 11 Data Integrity
      • Particle Monitoring Systems for Isolator / RABS Filling Lines and 503B Compounding Facilities
      • Measuring Molecular Interactions by Multi-Wavelength AUC
      • On the Importance of Monitoring Both Transfection and Transduction Efficiencies in Cell Therapy Development
      • Multicolor Flow Cytometry
      • Nano-Emulsion Formulation and Characterization Life Science and Industrial Markets
      • Webinar: NanoGBS—A Miniaturized Procedure for Genotyping by Sequencing Library Preparation
      • Next Generation Polymer Dyes: Enhance your multicolor flow cytometry panels
      • Overcoming the Hurdles of Density Gradient Ultracentrifugation for Optimized Gene Therapy Purification Workflows
      • Q&A Panel discussion, LSUG Lab and Pharma Water speakers
      • Total Organic Carbon Analysis in the new ASTM E3106 Cleaning Standard
      • Real-Time Detection of Bioburden & Biofilm in Water Systems
      • Pharmaceutical Water Production, Richard Jarrett, Evoqua Water Technologies
      • Meeting Global TOC and Conductivity Pharmacopeia Compliance while using ALCOA Requirements to Protect Data Integrity
      • Validation of Growth Direct to Perform Pharmaceutical Water Bioburden Analysis
      • Webinar: Practical aspects of laser diffraction results interpretation
      • Predictive power of CITRUS
      • Rare events analysis by flow cytometry
      • Reducing Human Errors in Pharmaceutical Manufacturing Quality Control
      • SARS-CoV-2 Specific Immunity
      • Scaling-Up Exosomes and Other Extracellular Vesicles
      • Take the Risk out of Rotations Understanding and Implementing BioSafety Solutions in Centrifugation
      • Testing Vaccines Final Form Dose to USP Subvisible Particulate Matter
      • The Complexities of SV Analytical Ultracentrifugation: AAVs are not Simple, Binary Systems
      • Transferring Cell Counting Methods: Best Practices
      • Understanding the How and the Why: Biosafety in Centrifugation
      • Understanding the Role and Benefits of Centrifugation in Cell Harvest and Separation
      • qPCR Webinar: Scalable Workflows for Viral RNA Extraction and Reaction Setup
      • Seminar: Advanced Sensitivity and Resolution in Flow Cytometry through Innovation
      • Advances in Sedimentation Analysis by Dr. Borries Demeler
      • Agencourt AMPure XP
      • Automated Alternative to the Hanging Drop Method of Stem Cell Differentiation
      • Analysis of Cell Biochemical Processes from First Principles to Cytometry
      • Analysis of Particle Size Distributions by Analytical Ultracentrifugation
      • Analytical Ultracentrifugation For Structural Analysis - Proteins and Macromolecular Complexes
      • Analytical Ultracentrifugation in the Biopharmaceutical Industry
      • Analytical Ultracentrifugation in Nanoparticle Analysis
      • Analytical Ultracentrifugation of Carbon Nanotubes
      • Automated 3D Cell Culture and Screening by Imaging and Flow Cytometry
      • Automated Assays For Protein Engineering, In Vitro And In Vivo, By Dr. Daniela Quaglia
      • Automated High-Throughput and High-Content Analysis by Flow Cytometry
      • Using Data to Drive Automated Screening and Effective Reporting
      • Automating Continuous Cell Culture by Dr. Oliver Gassmann
      • Avoid Pitfalls When Automating Cell Viability Counting for Biopharmaceutical Quality Control
      • Taking the Tricky Out of Automating NGS Sample Prep
      • Automation-Enabled LC-MS Analysis of Biologics
      • Automation of PCR Setup and AMPure XP Purification using the Biomek 4000 Workstation
      • Avoiding the Perils of Hidden Requirements
      • Basic Research Signaling Applications
      • The Use of the Analytical Ultracentrifuge to Characterize Very Large Complex Biopharmaceuticals
      • Cell Cycle Analysis by Quantitative Imaging Cytometry
      • Cellular Analysis Using the Coulter Principle
      • Centrifugal Elutriation - Utility in the Flow Cytometry Laboratory
      • Centrifugation Safety (Japanese)
      • Centrifugation Safety 1 (Japanese)
      • Centrifugation Safety 2
      • Contamination Control in the Hydraulic Industry
      • Data Insights for Automated Liquid Handling
      • Dendritic Cells Sorting
      • Detection of microparticles with flow cytometry
      • Particle size analysis by laser diffraction and results interpretation
      • Plant Cells Cytometry Analysis
      • Development and Production of Viral Vectors: Advances in Processes and Translation for Human Gene Therapy
      • Diamond-Based Nanomedicine for Enhanced Cancer Treatment and Imaging
      • Diversity of Cancer-Derived Extracellular Vesicles
      • Diversity of Extracellular Vesicles and Their Cargo in Cell-To-Cell Communication
      • Emitting Dye for Violet Laser Excitation with Krome Orange
      • European Pharmacopoeia EP2.2.44 Total Organic Carbon
      • Exosome Biogenesis and the Budding of Proteins and Viruses
      • High-Performance Exosome Purification and Characterization via automated Density Gradient
      • Exploring Exosomes and the Tumor Microenvironment
      • Exploring the Stoichiometry of Macromolecular Complexes Using Multi-Signal Sedimentation Velocity Analytical Ultracentrifugation
      • Extracellular Vesicle Isolation by Flow Cytometric Sorting and Characterization by Analytical Ultra-Centrifugation and Dynamic Light Scatter
      • Extracellular Vesicles Delivery and RNA Translation
      • Advanced Flow Cytometric Analysis of Human T-Cell Memory Subsets
      • Flow Cytometry Data Analysis in a Flash
      • Gallios Flow Cytometer Forward Angle Light Scatter Innovation
      • Hematopoietic Bone Marrow Cell Sorting without Compromise
      • How Stem Cells Speak with Immune Cells
      • ICH Q2 Validation of On-line TOC Analyzers
      • Identifying and Isolating Stem Cells Through High-Speed Cell Sorting
      • New Strategies to Improve Your CE-SDS Results: A Data-driven Perspective
      • New Automation Strategies For Improving Sample Prep - The Analytical Laboratory
      • Isolation and Characterization of Exosomes and Ectosomes
      • Isolation of Extracellular Vesicles: Latest Advances and Challenges
      • Large Scale Purification of RNA and RNA-based Nanoparticles by Preparative Ultracentrifugation
      • Laser Cytometry in Biomedical Analysis
      • Leveraging the Value of Automated High-Content Screening
      • Microvesicle Detection and Cell Sorting
      • Monitoring Signal Transduction Pathways in Human Disease
      • Multi-Color Solution for Flow Cytometry
      • Multi-Sizing your Multi-Color for Panel Design
      • Combined Use of Multiple Particle Characterization Technologies to Evaluate Targeted Liposomal Formulations
      • Optimizing Quality Control Electronic Records for 21 CFR Part 11 Compliance
      • Advanced Process Quality Control and Outlier Detection with Discrete Particle Analysis
      • Particle Counters Must Now be Calibrated With ISO 21501-4
      • Particle Size and Associated Sedimentary Processes on Wetland Gain and Loss in the Mississippi River Delta
      • Particle Size Characterization by Laser Diffraction Analysis in Geoscience and Soil Science
      • Particle Size Distribution for Cement using Laser Diffraction
      • Physical and Chemical Characterization of Nanoparticle Constructs Using the Analytical Ultracentrifuge
      • Proteome Profiling of the Tumor Microenvironment: Role of Human Primary Fibroblasts Derived Exosomes in Oral Cancer Progression
      • Quantifying Protein Aggregates by Sedimentation Velocity
      • Quantitative Determination of Reaction Stoichiometry, Interaction Energies, and Solute Masses Using Analytical Ultracentrifugation
      • Rethinking Data Analysis for Flow Cytometry with Kaluza 1.1 Software
      • The Revised ISO 14644-1 Changes Classification and Monitoring Methods
      • Sample Prep for MS
      • Contemporary Cell Staining and Imaging Tools for Screening Stem Cell-Derived Cardiomyocytes
      • Introduction to the New USP <787>: Subvisible Particulate Matter in Therapeutic Protein Injections
      • The Art of Sorting for Advancing Cytometry
      • The Future of Liquid Handling Automation has Arrived
      • The Power of Automated Assay Optimization
      • The Role of Exosomes in Inflammatory Disease - Pathogenesis and Treatment
      • The Science of Flow Cytometry Part 1
      • The Science of Flow Cytometry Part 2
      • Environmental Cleanroom Monitoring & 21 CFR Part 11 Data Integrity
      • Three Distinct Analytical Ultracentrifugation Methods for Virus and Viral Vector Characterizations
      • Cross-talk and Developmental Programs - A Key to Translational Stem Cell Biology
  • Product Applications
    • Use of Cells in Therapeutics Product Development
      • Multiparametric Approach to Quality by Design (QbD)
      • Automated Cellular Analysis
      • Cell Therapy Analytical Development
      • Biologically and clinically relevant marker analysis in TIL (tumor infiltrating lymphocytes). How can flow cytometry guide cellular therapies.
    • Lead Optimization
      • Absorption Distribution Metabolism Excretion (ADME)
      • ADME Toxicity
      • Antibody Characterization Sample Preparation
      • Cell Line Development Products
    • Quality Control for GMP Manufacturing
      • Clean in Place (CIP) Processes
      • Environmental Monitoring
      • Viral Vector Characterization
      • Water Release Testing for GMP Manufacturing
    • Echo Liquid Handling for ADME-Tox
    • Biologics Product Applications
      • High-Throughput Screen (HTS)
      • Liquid Handling for Gene Expression
      • Liquid Handling for Genotyping
      • Helping the Immune System Beat Cancer: Biologics in Immuno-oncology Research
      • Liquid Handling for Microbial Research
      • A Natural Answer: Biologics 101
      • Natural Factories: Biologics Production 101
      • Package Delivery: Biologics as Vectors
      • Acoustic Liquid Handling for Protein Crystallography
      • PCR, qPCR, and RT-qPCR
      • Restoring Balance: Biologics in Immune-Disorder Research
      • Next generation Sequencing Library Preparation
      • Liquid Handling for Single-Cell Genomics
      • Echo Liquid Handling for Synthetic Biology
    • Enabling COVID-19 Research
      • Biosafety Cabinet and Cleanroom Air Safety Monitoring
      • Vaccine & Therapy Development
      • Viral Isolation & Characterization
      • Wastewater Research For Infectious Diseases
      • Understanding the Immune Response
    • Echo Liquid Handling for Microsampling
    • Process Development Manufacturing: Biotherapeutics
      • Exosomes
      • Protein Production
      • Break Through the Viral Vector Barrier
  • Techniques and Methods
    • Cell Harvest
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    • Immune Monitoring
    • High-Throughput Screening
    • Interaction Quantification & Characterization Using Analytical Ultracentrifugation
    • spINSIGHTS
      • What’s the difference between sterile & Certified Free consumables, and what purity grade do I need?
      • Why should I choose ultracentrifugation as the preferred method for extracellular vesicle purification?
      • When should I choose centrifugation instead of affinity chromatography for purifying viral vectors?
      • What advantages does the Optima AUC provide to improve my data quality and workflow efficiency?
      • How can I transfer an existing centrifugation protocol to a new rotor, bottle, or tube?
      • Why should I use analytical ultracentrifugation (AUC) instead of other methods for AAV characterization?
      • How can I prepare consistent density gradients for reproducibly purifying samples via ultracentrifugation?
      • Can Sapphire windows be used for low-UV AUC experiments?
      • An introduction to the Optima Analytical Ultracentrifuge
      • How does data from AUC determine dose optimization in therapeutic liposomes?
      • How can data from AUC help improve AAV Production Yield?
      • Webinar Series
    • Immunophenotyping
      • About Immunophenotyping
      • About Immunophenotyping
      • Seven Tips for Achieving the Perfect Panel for Multicolor Flow Cytometry
      • Seven Tips for Achieving the Perfect Panel for Multicolor Flow Cytometry
      • Speed up your setup: The CytoFLEX Platform and how to fast-track 20-color panel design
      • Free Fluorochrome chart for easy panel design
      • Panel Builder Resources
      • Panel Builder
      • Instruments and Products for Immunophenotyping Assays
      • Optimized Multicolor Immunophenotyping Panels (OMIPs) for Flow Cytometry
      • Customer Testimonials
    • Viral Particle Purification Using Centrifugation Methods
    • Mass Spectrometry
  • Research Areas
    • 3D Cell Culture
    • HIV Advanced Disease  Management
      • 12 Steps to CD4 Testing
      • Advanced Disease Management
      • World Health Organization Guidelines Reinforce Role of CD4 Cell Counting in Immunocompromised Patients
      • CD4 Testing in Remote Areas
      • Innovation In CD4 Testing
      • The Impact of Laboratory Proficiency Testing And External Quality Assurance Schemes In Resource Limited Settings
      • What is CD4 & Why is it Important?
      • An Overview of the Current Status for the Global HIV/AIDS Pandemic
    • Small Particle
      • Verifying for Small Particle with Certified Beads
      • Instruments and Products for Biological Nanoparticles
      • Characterization of Extracellular Vesicles with Nanoscale Flow Cytometry
      • Measuring Single EVs and their Cargo: Sensitive and Specific Vesicle Flow Cytometry (vFCTM)
      • Things to Consider for Small Particle Research
      • Western Blot and Other Methods vs. Nanoscale Flow Cytometry
      • About Biological Nanoparticles and Microparticles 
      • Easy to Learn: A New User CytoFLEX Experience
      • A Discovery in the Williams Lab
      • Trends in Extracellular Vesicle Research
      • Free Extracellular Vesicles Poster For Your Lab
      • Nanoscale Frequently Asked Questions
      • Small Talk
      • Karan's Story
      • Astrios and the Nanoscale
      • Cell Sorting at the Nano Scale
      • The Importance of Guidelines in Small Particle Research
      • How the CytoFLEX Enabled The Williams' Lab Extracellular Vesicles Research