Helping the Immune System Beat Cancer: Biologics in Immuno-oncology Research
Cancer is not a singular disease, but a blanket term referring to an observed end-effect – the deleterious presence of abnormal cell growth within the human body – that can result from an almost infinite number of pathogenic mutations, mechanisms, and phenomena. Although individual cancers can and do share common traits (e.g., locations, cell types, biomarkers), each patient’s cancer is in effect a different disease. This heterogeneity has made cancer one of the most difficult diseases to control and treat, as limitations in terms of knowledge, technology, and logistics have historically made individualized therapeutic options unfeasible and forced scientists and clinicians to mostly focus on brute-force approaches such as radio- and chemotherapy.Under optimal circumstances, oncogenic cells are detected and eliminated by the body’s own immune system. As such, scientists have been seeking ways to harness and augment the body’s innate protective mechanisms to combat cancer in a more targeted manner. While researchers have investigated the potential of restricting cancer cell growth by manipulating growth factor production1 and angiogenesis,2 the majority of research has focused on modulating immune mechanisms using biologic agents, giving rise to the field of immuno-oncology.
Immuno-oncology requires a multi-pronged approach
Immuno-oncology seeks to characterize immune-cancer cell interactions under both physiological and pathological conditions, striving to identify the circumstances that allow cancer cells to escape and thrive. This involves a myriad of factors and parameters (e.g., phenotype, signaling, environment) interacting in a fluid and complex manner, so it is not surprising that a diverse range of biological agents have been, and are currently being developed for immuno-oncology research.
Antibodies are integral to immune signaling, mediating such critical mechanisms as effector cell activation, targeting selectivity, and long-term memory. The inherent malleability of the antibody has also made it a prime candidate for research and therapeutic use, as researchers are now able to produce large quantities of antibodies primed against any antigen they wish. Antibodies have been developed as checkpoint inhibitors, agents that prevent immune cells from interacting with shutdown proteins (e.g., CTLA-4, PD-1) expressed by cancer cells.3 They have also been used as agonists to activate immune cells or stimulate their function, and to directly target antigens expressed by tumor cells, thereby marking them T cell-mediated cytotoxic cell death.3,4
While antibodies mark targets and direct traffic, immune cells are required to actually eliminate cancer cells. Adoptive cell therapy research aims to devise methods to increase the efficacy of the body’s own cytotoxic T cells, whether by increasing their number, stimulating their activity, or enhancing their targeting capabilities. They can accomplish this by a number of in vitro techniques, including clonal selection and expansion and genetic engineering. CAR-T cells, which possess artificially constructed T-cell receptors (TCRs) capable of bypassing TCR-mediated mechanisms of immune evasion, are perhaps the most famous product of adoptive cell therapy research.
It is now well understood that cancer cells also act in a paracrine manner to promote an anti-inflammatory microenvironment designed to suppress immune function. Potential therapeutic avenues utilizing pro-inflammatory cytokines and chemokines (e.g., interferons, interleukins) have been investigated, with the goal of stimulating immune cell function and/or promoting pro-inflammatory cell phenotypes.
A vaccine against cancer?
Preventative anticancer vaccines have been successfully developed for situations where the causative agent is known, such as hepatitis B virus-mediated liver cancer and human papillomavirus-mediated cervical cancer.4 Research is still ongoing regarding the prospect of a therapeutic vaccine – where the immune system is trained to recognize, memorize, and attack cells expressing cancer cell-specific antigens. Various inoculation approaches have been attempted, including the use of peptide antigens, viral vectors carrying recombinant proteins, and even extracted dendritic cells which are treated with antigen in vitro and then reintroduced.4 To date, efficacy has been relatively limited, as even cells programmed to detect and eliminate tumor cells can be suppressed in other manners (e.g., environmental cytokine signaling, interactions with anti-inflammatory cells).4
An individual solution to an individual disease
Immuno-oncology researchers work to not only locate potential therapeutic targets, but also develop the technology and logistics to rapidly and accurately identify the unique oncogenic markers specific to each individual. Their endeavors in this latter area have been greatly aided by recent developments in next-generation sequencing techniques which have improved sequencing depth, accuracy, and throughput.5 The stage is therefore being set for the eventual development of individualized cancer diagnoses and therapeutics.
References:
- E. Witsch et al., “Roles for growth factors in cancer progression,” Physiology (Bethesda), 25(2):85-101, 2010.
- N. Nishida et al., “Angiogenesis in cancer,” Vasc Health Risk Manag, 2(3): 213-219, 2006.
- A.M. Scott et al., “Monoclonal antibodies in cancer therapy,” Cancer Immun, 12:14, 2012.
- I. Mellman et al., “Cancer immunotherapy comes of age,” Nature, 480(7378):480-489, 2011.
- K. Kakimi et al., “Advances in personalized cancer immunotherapy,” Breast Cancer, 24(1):16-24, 2017.
Helpful Links
-
Online Datenarchiv
-
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
- The Valita Aggregation Pure assay: A rapid and accurate alternative for aggregation quantification of purified monoclonal antibodies
- Air Particle Monitoring ISO 21501-4 Impact
- Automated Cord Blood Cell Viability and Concentration Measurements Using the Vi‑CELL XR
- Avanti J-15 Centrifuge Improves Sample Protection Maximizes Sample Recovery
- Beer, Evaluation of Final Product and Filtration Efficiency
- Biomek Automated NGS Solutions Accelerate Genomic Research
- Biomek i-Series Automation of the Beckman Coulter GenFind V3 Blood and Serum DNA 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
- Viability Assessment of Cell Cultures Using the CytoFLEX
- Cell Line Development – Data Handling
- Cell Line Development – Selection and Enrichment
- Cellular Analysis using the Coulter Principle
- Changes to GMP Force Cleanroom Re-Classifications
- Classifying a Small Cleanroom using the MET ONE HHPC 6+
- Clean Cabinet Air Particle Evaluation
- Recommended cleaning procedure for the exterior surface of the MET ONE 3400+
- Cluster Count Analysis and Sample Preparation Considerations for the Vi-CELL BLU Cell Viability Analyzer
- Überlegungen zur Zellzählung beim Gebrauch von verschiedenen Zelltypen
- 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
- How to use R to rewrite FCS files with different number of channels
- A new approach to nanoscale flow cytometry with the CytoFLEX nano analyzer
- CytoFLEX nano Flow Cytometer: the new frontier of nanoscale Flow Cytometry
- Detecting and counting bacteria with the CytoFLEX research flow cytometer: II-Characterization of a variety of gram-positive bacteria
- Detection of foreign matter in plating solution using Multisizer4e
- Efficient kit-free nucleic acid isolation uses a combination of precipitation and centrifugation separation methods
- Compensation Setup For High Content DURAClone Reagents
- Echo System-Enhanced SMART-Seq v2 for RNA Sequencing
- Friction Reduction System High Performance
- 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
- 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
- A Highly Consistent Bradford Assay 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
- Integration of the Vi-CELL BLU Cell Viability Analyzer into the Sartorius Ambr® 250 High Throughput for automated determination of cell concentration and viability
- Long Life Lasers
- Partikelgrössenanalyse einfach, aber effektiv und präzise
- Beckman’s LS 13 320 XR Vs. Malvern Mastersizer
- Flow Cytometric Analysis of auto-fluorescent cells found in the marine demosponge Clathria prolifera
- MET ONE 3400+ LDAP & Active Directory connection Guide
- MET ONE Sensor Verification
- Metal colloid purification and concentration using ultracentrifugation
- Separation and purification of metal nanorods using density gradient centrifugation
- Migration of Panels Designed on the CytoFLEX S Flow Cytometer to CytoFLEX SRT Cell Sorter
- 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 and High-Throughput Metabolic Stability Assay Enabled by the Echo Liquid Handler
- Miniaturized Multi-Piece DNA Assembly Using the Echo 525 Liquid Handler
- Minimal Sample to Sample Carry Over with the HIAC 8011+
- Modern Trends in Non‐Viable Particle Monitoring during Aseptic Processing
- Particle diameter measurement of a nanoparticle composite - Using density gradient ultracentrifugation and dynamic light scattering
- Nanoscale Sorting with the CytoFLEX SRT Cell Sorter
- Identification of Circulating Myeloid Cell Populations in NLRP3 Null Mice
- Optimizing the HIAC 8011+ Particle Counter for Analyzing Viscous Fluids
- Optimizing the Multisizer 4e Coutler Counter for use with Small Apertures
- Particle testing in cleanroom high-pressure gas lines to ISO 14644 made easy with the MET ONE 3400 gas calibrations
- 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
- Purifying viral vector with VTi 90 rotor and CsCl DGUC
- Calibrating the QbD1200 TOC Analyzer
- Detection Limit
- JP SDBS Validation
- Using the Coulter Principle to Quantify Particles in an Electrolytic Solution for Copper Acid Plating
- Rapid Measurement of IgG Using Fluorescence Polarization
- Single Cell Sorting with CytoFLEX SRT Cell Sorter
- Advanced analysis of human T cell subsets on the CytoFLEX flow cytometer using a 13 color tube-based DURAClone dry reagent
- Comparative Performance Analysis of CHO and HEK Cells Using Vi-CELL BLU Analyzer and Roche Cedex® HiRes Analyzer
- Vi–CELL BLU im Fast Mode
- A fully automated plate-based optimization of fed-batch culture conditions for monoclonal antibody-producing CHO cell line
- A High-Throughput, Automated Screening Platform for IgG Quantification During Drug Discovery and Development
- 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
- 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
- Cultivation of suspended plant cells in the BioLector®
- Determination of cell death in the BioLector Microbioreactor
- Echo System-Enhanced SMART-Seq v4 for RNA Sequencing
- A Simple Guide to Selecting the Right Handheld Particle Counter for Monitoring Controlled Environments
- Linearity of the Vi-CELL BLU Cell Counter and Analyzer
- Miniaturized 16S rRNA Amplicon Sequencing with the Echo 525 Liquid Handler for Metagenomic and Microbiome Studies
- Nanoliter Scale High-Throughput Protein Crystallography Screening with the Echo Liquid Handler
- Preparation of Mouse Plasma Microsamples for LC-MS/MS Analysis Using the Echo Liquid Handler
- Robust and High-Throughput SARS-CoV-2 Viral RNA Detection, Research, and Sequencing Using RNAdvance Viral and the OT-2 Platform
- Vertical Rotor Case Study with Adenovirus
- Accurate enumeration of phytoplankton using FCM
- Accurately measures fine bubble size and particle count
- Achieving Compliant Batch Release – Sterile Parenteral Quality Control
- Adaptive Laboratory Evolution of Pseudomonas putida in the RoboLector
- Adjustment of the pH control settings in the BioLector® XT
- Anaerobe Kultivierung von probiotischen Bakterien imBioLectorXTMikrobioreaktor
- An Analytical Revolution: Introducing the Next Generation Optima AUC
- Anaerobe Kultivierung von probiotischen Bakterien im BioLector XT Mikrobioreaktor
- Analyzing Mussel/Mollusk Propagation using the Multisizer 4e Coulter Counter
- Assay Assembly for Miniaturized Quantitative PCR in a 384-well Format Using the Echo Liquid Handler
- Automated 3D Cell Culture and Screening by Imaging and Flow Cytometry
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Automated Transfection Methods
- 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
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Automation of CyQuant LDH Cytotoxicity Assay using Biomek i7 Hybrid Automated Workstation to Monitor Cell Health
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Automation of protein A ELISA Assays using Biomek i7 hybrid workstation
- 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
- Biomek Automated Genomic Sample Prep Accelerates Research
- Biomek i7 Hybrid Automated Workstation Enables Automation of the Promega GoTaq Probe 2-Step RT-qPCR System
- 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 IDT® xGen Hybridization Capture of DNA libraries on Biomek i7 Hybrid Genomics Workstation
- Biomek i-Series Automated Illumina Nextera DNA Flex Library Prep Kit
- 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 II DNA Library Prep Kit
- Biomek i-Series Automated Promega Wizard MagneSil Tfx™ Plasmid Purification System
- Biomek i-Series Automated SurePlex PCR and VeriSeq PGS Library Prep for Illumina
- Biomek i-Series Automation of the DNAdvance Genomic DNA Isolation Kit
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Cell Line Development – Limiting Dilution
- Characterizing Insulin as a Biopharmaceutical Using Analytical Ultracentrifugation
- 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+
- Consistent Cell Maintenance and Plating through Automation
- Control of Spheroid Size and Support for Productization
- Data-integrity-and-met-one-3400-plus-function-for-pharma
- Cultivation of Mammalian Cells in the Cydem VT System Bioreactor Module
- Cydem VT Automated Clone Screening System – Generating an Antibody Standard Curve
- Detecting Moisture in Hydraulic Fluid, Oil and Fuels
- Detection of Coarse Particles in Silica Causing Cracks in Semiconductor Encapsulants
- Determination of drug-resistant bacteria using Coulter counters
- Determination of Size and Concentration of Particles in Oils
- DO-controlled fed-batch cultivation in the RoboLector®
- dsDNA Quantification with the Echo 525 Liquid Handler for Miniaturized Reaction Volumes, Reduced Sample Input, and Cost Savings
- 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
- Effective Miniaturization of Illumina Nextera XT Library Prep for Multiplexed Whole Genome Sequencing and Microbiome Applications
- Efficient clone screening with increased process control and integrated cell health and titer measurements with the Cydem VT Automated Clone Screening System
- 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
- Filling MicroClime Environmental Lids
- Flexible ELISA automation with the Biomek i5 Workstation
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Fully Automated Peptide Desalting for Liquid Chromatography–Tandem Mass Spectrometry Analysis Using Beckman Coulter Biomek i7 Hybrid Workstation
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Get Control in GMP Environments
- Getting Started with Kaluza: Data Scaling and Compensation Adjustment
- Getting Started with Kaluza: Parameters
- g-Max: Added Capabilities to Beckman Coulter's versatile Ultracentrifuge Line
- HIAC Industrial – Our overview solution for fluid power testing for all applications
- High throughput cultivation of the cellulolytic fungus Trichoderma reesei in the BioLector®
- High-Throughput qPCR and RT-qPCR Workflows Enabled by Echo Acoustic Liquid Handling and NEB Luna Reagents
- A Highly Consistent BCA Assay on Biomek i-Series
- A Highly Consistent Lowry Method on Biomek i-Series
- Highly Reproducible Automated Proteomics Sample Preparation on Biomek i-Series
- 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
- 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
- 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
- Importance of TOC measurement in WFI in light of European Pharmacopoeia change
- Improved data quality of plate-based IgG quantification using Spark®’s enhanced optics
- Increased throughput for IgG quantification using Valita Titer 384-well plates
- Temperature dependence of hydrodynamic radius of an intrinsically disordered protein measured in the Optima AUC analytical ultracentrifuge.
- Introducing the Cydem VT Automated Cell Culture System: A high-throughput platform for fast and reliable clone screening experiments
- Issues with Testing Jet Fuels for Contamination
- Jurkat Cell Analyses Using the Vi-CELL BLU Cell Viability Analyzer
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Linearity of BSA Using Absorbance & Interference Optics
- LS 13 320 XR: Sample Preparation - How to measure success
- Verwendung von Algorithmen des maschinellen Lernens, um tiefe Einblicke in die Zusammensetzung der zellulären Untergruppen zu geben
- Abgleich von Zellzählungsergebnissen zwischen Vi–CELL XR und Vi–CELL BLU
- Media optimization in the RoboLector platform for enhanced protein production using C. glutamicum
- Method for Determining Cell Type Parameter Adjustment to Match Legacy Vi CELL XR
- 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 Enzo Life Sciences HDAC1 Fluor de Lys Assays Using an Echo Liquid Handler Integrated in an Access Laboratory Workstation
- Miniaturized Enzymatic Assays with Glycerol
- 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
- Miniaturized Sequencing Workflows for Microbiome and Metagenomic Studies
- Minimizing process variability in the manufacturing of bottled drinking water
- Mixed Mode Sorting on the CytoFLEX SRT
- Mode of operation of optical sensors for dissolved oxygen and pH value
- 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
- What to do now that ACFTD is discontinued
- Low-pH profiling in µL-scale to optimize protein production in H. polymorpha using the BioLector
- Optimized NGS Library Preparation with Acoustic Liquid Handling
- Optimizing Workflow Efficiency of Cleanroom Routine Environmental Monitoring
- Spectral Flow Cytometry: A Detailed Scientific Overview
- Particle Counting in Mining Applications
- Performance of the Valita Aggregation Pure assay vs HPLC-SEC
- Anaerobe Kultivierung von probiotischen Bakterien imBioLectorXTMikrobioreaktor
- Plate Deposition Speed Comparison of Astrios and CytoFLEX SRT Cell Sorters
- Precision measurement of adipocyte size with Multisizer4e
- Principles of Continuous Flow Centrifugation
- Flow Cytometric Approach to Probiotic Cell Counting and Analysis
- Protocols for use of SuperNova v428 conjugated antibodies in a variety of flow cytometry applications
- Purifying High Quality Exosomes using Ultracentrifugation
- USP System Suitability
- Calibrating the QbD1200+ TOC Analyzer
- Quality Control of Anti-Blocking Powder Particle Size
- Quality Control Electronic Records for 21 CFR part 11 Compliance
- A Rapid Flow Cytometry Data Analysis Workflow Using Machine Learning- Assisted Analysis to Facilitate Identifying Treatment- Induced Changes
- Rapid Rabbit IgG Quantification using the Valita Titer Assay
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Ursachenforschung für pharmazeutische Wassersysteme
- Screening yeast extract to improve biomass production in acetic acid bacteria starter culture
- Full Automation of the SISCAPA® Workflow using a Biomek NXP Laboratory Automation Workstation
- Leveraging the Vi-CELL MetaFLEX for Monitoring Cell Metabolic Activity
- Unveiling the Hidden Signals: Overcoming Autofluorescence in Spectral Flow Cytometry Analysis
- Sorting Rare E-SLAM Hematopoietic Stem Cells Using CytoFLEX SRT and Subsequent Culture
- Unlocking Insights: The Vital Role of Unmixing Algorithms in Spectral Flow Cytometry
- 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+
- SWOFF The unrecognized yet indispensable sibling of FMO
- The scattered light signal: Calibration of biomass
- Using k-Factor to Compare Rotor Efficiency
- Utilization of the MicroClime Environmental Lid to Reduce Edge Effects in a Cell-based Proliferation Assay
- 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
- Automating the Valita Titer IgG Quantification Assay on a Biomek i-Series Liquid Handling System
- Variability Analysis of the Vi-CELL BLU Cell Viability Analyzer against 3 Automated Cell Counting Devices and the Manual Method
- Vi-CELL BLU Regulatory Compliance - 21 CFR Part 11
- Viral Vector Purification with Ultracentrifugation
- Analytical Ultracentrifugation (AUC) for Characterization of Lipid Nanoparticles (LNPs): A Comprehensive Review
- Leveraging Analytical Ultracentrifugation for Comprehensive Characterization of Lipid Nanoparticles in Drug Delivery Systems
- Whole Genome Sequencing of Microbial Communities for Scaling Microbiome and Metagenomic Studies Using the Echo 525 Liquid Handler and CosmosID
-
Broschüren, Flyer und Datenblätter
- Access Single Robot System for Synthetic Biology Workflows
- Automated Solutions for Cell Line Development
- Automated Solutions for ELISA
- Echo Acoustic Liquid Handling for Synthetic Biology
- 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
-
Fallstudien
- Achieving Increased Efficiency and Accuracy in Clinical Testing
- 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
- Hiroshima Genbaku HP Hematopoietic Tumor Testing
- 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
- Fundamentals of Ultracentrifugal Virus Purification
- Catalogs
- Flyers
-
Interviews
- Background and Current Status of the Introduction of Flow Cytometers
- Bacteriological-measurements-of-soil-bacteria-in-paddy-fields
- Benefits-of-the-coulter-principle-in-the-manufacturing-for-ips-cell-derived-natural-killer-cells
- Central Diagnosis in the Treatment of Childhood Leukemia 1
- Central Diagnosis in the Treatment of Childhood Leukemia 2
- Challenges-in-viability-cell-counting
- Contribution of Cytobank to 1-cell analysis of the cancer microenvironment
- Development of technology for social implementation of synthetic biology
- Flow Cytometry Testing in Hospital Laboratories
- Fundamentals of Ultracentrifugal Virus Purification
- Tumor Suppressor Gene p53 research and DNA Cleanup Process
- Fundamentals of Ultracentrifugal Virus Purification
- Dr Yabui UCF Lecture
-
Posters
- 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
- Cell-Line Engeneering
- Characterizing the Light-Scatter Sensitivity of the CytoFLEX Flow Cytometer
- AACR 2019: Isolation and Separation of DNA and RNA from a Single Tissue or Cell Culture Sample
- Mastering Cell Counting
- Preparing a CytoFLEX for Nanoscale Flow Cytometry
- A Prototype CytoFLEX for High-Sensitivity, Multiparametric Nanoparticle Analysis
- ABRF 2019: Simultaneous DNA and RNA Extraction from Formalin-Fixed Paraffin Embedded (FFPE) Tissue
- 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
- 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
- A General Guide to Lipid Nanoparticles
- Analytical Ultracentrifugation: A Versatile and Valuable Technique for Macromolecular Characterization
- Addressing issues in purification and QC of Viral Vectors
- GMP-Reinraumklassifizierung und Routine-Umgebungsüberwachung
- Purification of Biomolecules by DGUC
- 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 <1788> Subvisible Particulate Matter
- Changes to USP <643> Total Organic Carbon
- Characterization of RNAdvance Viral XP RNA Extraction Kit using AccuPlex™ SARS–CoV–2 Reference Material Kit
- CytoFLEX Platform Gain Independent Compensation Enables New Workflows
- 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
- Inaktivierung des COVID-19-Krankheitsvirus SARS-CoV-2 mit Lysepuffern zur viralen RNA-Extraktion von Beckman Coulter
- Tips for Cell Sorting
- 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
- SuperNova v428: New Bright Polymer Dye for Flow Cytometry
- Japan Document
-
Application Notes