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Servindo um Espectro de Indústrias
Não deixe o nosso nome te enganar. Nossa definição de Ciência da Vida inclui não somente o estudo de seres vivos, mas também o modo como eles crescem, prosperam, e controlam o seu ambiente.
Por isso somos um recurso não só para cientistas investigando novos tratamentos de cancer, mas também para aqueles que manufaturam aviões que vão transportar os cientistas para sua próxima conferência - e quem sabe aqueles que fazem a comida e bebida que eles consomem durante a rota.
A nossa gama de indústrias cliente está sempre crescendo, e atualmente inclui:
ADDITIONAL RESOURCES
Helping researchers and labs maintain compliance with standards
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Padrões Industriais
- FDA ALCOA Guidance
- European Pharmacopoeia EP 2.2.44
- ICH Q2
- USP<643>
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21 CFR Part 11: Data Integrity and Compliance
- 21 CFR Part 11 Related Products: Beckman Instruments for Data Integrity and Compliance
- Global Equivalents and Related Regulations
- Improve the Integrity of your Electronic Records
- 21 CFR Part 11: Scope and Application
- 21 CFR Part 11: Related Terms and Acronyms
- 21 CFR Part 11: Data Integrity and Compliance
- USP<645>
- EU GMP Annex 1
- ISO 21501
- USP , and EP2.9.19
- USP
- ISO 11171 Standard
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ISO 14644: Airborne Particulate Cleanliness in Cleanrooms and Clean Zones
- 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 Counters Designed to Support ISO 14644-1 and ISO 21501-4 Requirements
- Particle Counting: Terms and Formulas
- USP <787>
Watch product-related videos, learn through webinars, and more
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Vídeos
- Company Videos
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Product Videos
- Vi-Cell BLU Sample Flow
- 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 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
- DelsaMax Core Particle Size Analyzer - An Overview
- DelsaMax Pro Particle Analyzer - An Overview
- DelsaMax Pro Product Demonstration
- DelsaMax Pro Software Capabilities
- Photon Detectors: Photomultiplier tubes versus Photodiodes
- DURA Innovation Workflow Comparison
- DURA Innovations Technology and Advantages
- DxFLEX Video 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
- Commitment to Innovation with i-Series
- i-Series Automated Workstations Teaser 2
- 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
- Loading the DelsaMax Pro
- 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
- i-Series Automated Workstations Teaser 3
- 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
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Scientific Videos
- Echo Acoustic Liquid Handling Technology
- 3D Imaging of Cancer Spheroids
- A Simplified Approach to Automating ELISA
- Advances in Cellular Automation
- 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 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
- 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
- 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
- Automated NEBNext Ultra Directional RNA Library Prep Kit
- Phospho Epitopes Exposure Kit
- Polymer Challenge Sizing and Mobility with the DelsaMax
- Protein Challenge with the DelsaMax
- 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
- SPRI Bead Technology
- A Streamlined Approach to Automating ELISA
- Cell volume is an important indicator of white blood cell health and therapeutic potential
- Trends in Mass Spectrometry
- Unlocking FFPE Tissues using Illumina NGS Biomek Automated Sample Preparation
- VersaComp Antibody Capture Beads
- Viral Vectors Introduction and Overview
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Symposium Videos
- Assessing Proliferation and Cytotxic Potential Using Multicolor Flow Cytometry
- Extracellular Vesicles for ‘Liquid Biopsy’ Development in Cancer by Dr. Karla Williams
- Introduction to Mesenchymal Stem Cell DURAClone Dry Reagents
- Monitoring Signal Transduction Pathways in Human Disease
- Multi-Sizing your Multi-Color Panel
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Testimonial Videos
- CytoFLEX Testimonial from Dr. Karen Hogg, University of York, United Kingdom
- 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
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Training
- AQUIOS CL Flow Cytometer - Advanced Operation Training
- AQUIOS CL Advanced Operation in French
- AQUIOS CL Advanced Operation in German
- AQUIOS CL Advanced Operation in Italian
- AQUIOS CL Flow Cytometer - Advanced Operation Training 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 Flow Cytometer - Basic Operation Training in Portuguese
- AQUIOS CL Basic Operation in Russian
- AQUIOS CL Basic Operation in Spanish
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Tutorial Videos
- Cytobank Basics
- Cytobank CITRUS
- Cytobank Experiment Manager
- Cytobank FlowSOM
- Cytobank viSNE
- 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
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Webinars
- 21 CFR Part 11 Data Integrity for Online TOC Instruments
- ACFTD Discontinuance and the HIAC 8011+ and HIAC PODS+
- Webinar: An Intro to Characterization of Biomolecules Using AUC
- Analytical Methods to Measure Empty and Full AAV Particles
- Applications of Counterflow Centrifugal Elutriation CCE
- Characterization of Extracellular Vesicles with Nanoscale Flow Cytometry
- Recent Advances in Immunotherapy: Directing Cells to Address Disease
- Evolution in the Manufacturing of Cellular Therapies
- Flow cytometry in clinical immunology - actual approach to immune status evaluation
- Goldilocks & the Three Cells: The Art of Monitoring & Managing Cell Cultures
- ICH Q2 Validating a TOC Analyser with the QbD1200
- Is Immunotherapy Living up to its Promise?
- Looking Under the Hood: Getting Started with the Optima AUC
- Overcoming the Hurdles of Density Gradient Ultracentrifugation for Optimized Gene Therapy Purification Workflows
- Reducing Human Errors in Pharmaceutical Manufacturing Quality Control
- Accurate and Reproducible Measurement of Protein Zeta Potential
- 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
- Does Your Protein Analysis Toolbox Need a Refresh?
- Simultaneous Dynamic Light Scattering and Zeta Potential
- 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
- Pushing the Boundaries of Nanoparticle Characterization
- 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
- Cross-talk and Developmental Programs - A Key to Translational Stem Cell Biology
Document library provides a wide variety of reading materials
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Material de Leitura
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Notas de Aplicação
- 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
- Achieving Compliant Batch Release – Sterile Parenteral Quality Control
- Air Particle Monitoring ISO 21501-4 Impact
- dsDNA Quantification with the Echo 525 Liquid Handler for Miniaturized Reaction Volumes, Reduced Sample Input, and Cost Savings
- Echo System-Enhanced SMART-Seq v2 for RNA Sequencing
- Detection Limit
- Inorganic Carbon Removal
- Method Overview
- Overload Recovery
- 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 Plating and Growth Assays
- Automated Cell Plating and Growth Assays
- Automated Cell Transfection and Reporter Gene Assay
- Automated Cord Blood Cell Viability and Concentration Measurements Using the Vi‑CELL XR
- Automated Genomic Sample Prep-Ampure XP PCR
- Automated Genomic Sample Prep-RNAdvance
- 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 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 Line Development
- Automating Cell Line Development
- Automating Cell-Based Processes
- Automating the Cell Line Development Workflow
- The new Avanti J-15 Centrifuge Improves Sample Protection and 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
- 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 Line Development – Data Handling
- Cell Line Development – Hit Picking
- Cell Line Development – Limiting Dilution
- Cell Line Development – Selection and Enrichment
- Changes to GMP Force Cleanroom Re-Classifications
- Characterizing Insulin as a Biopharmaceutical Using Analytical Ultracentrifugation
- 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
- CytoFLEX
- Detecting Moisture in Hydraulic Fluid, Oil and Fuels
- Determination of Size and Concentration of Particles in Oils
- Efficient kit-free nucleic acid isolation uses a combination of precipitation and centrifugation separation methods
- Compensation Setup For High Content DURAClone Reagents
- 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
- Full Automation of the SISCAPA® Workflow using a Biomek NXP Laboratory Automation Workstation
- Fully-Automated Cellular Analysis by Flow Cytometry
- Get Control in GMP Environments
- 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
- HIAC PODS+ Online Mode & Filter Cart Mode
- HIAC PODS+ versus Parker ACM-20 Performance comparison
- 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 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 Violet Side Scatter Enables Nanoparticle Detection
- HRLD Recommended Volume Setting
- Hydraulic Oil Measurement
- 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
- 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
- Matching Cell Counts between Vi–CELL XR and Vi–CELL BLU
- 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
- 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
- Multi-Wavelength Analytical Ultracentrifugation of Human Serum Albumin complexed with Porphyrin
- Particle diameter measurement of a nanoparticle composite - Using density gradient ultracentrifugation and dynamic light scattering
- 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
- Pharma Manufacturing Environmental Monitoring
- Pharma Manufacturing Paperless Monitoring
- Principles of Continuous Flow Centrifugation
- Protein purification workflow
- Background Subtraction
- Calibrating the QbD1200 TOC Analyzer
- QbD1200 Preparing Reagent Solution
- 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
- RCC A standardized automated approach for exosome isolation and characterization
- RCC Avanti J 15 Series Maximizing Sample Protection and Sample Recovery
- RCC Avanti J 15 Series Time Savings and Workflow Efficiency
- Root Cause Investigations for Pharmaceutical Water Systems
- Scalable Plasmid Purification using CosMCPrep
- 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
- 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
- USP 787 Small Volume Testing
- Validation of On-line Total Organic Carbon Analysers for Release Testing Using ICH Q2
- Vaporized Hydrogen Peroxide Decontamination of Vi–CELL BLU Instrument
- Vi–CELL BLU FAST Mode Option
- Vi-CELL BLU Regulatory Compliance - 21 CFR Part 11
- Viral Nucleic Acid Extraction
- A workflow for medium-throughput isolation of cfDNA from plasma samples using Apostle MiniMax™ on the KingFisher™ Technology
- JP SDBS Validation
- USP System Suitability
- Brochures, Flyers and Data Sheets
- Catalogs
- Flyers
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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
- AACR 2019: Isolation and Separation of DNA and RNA from a Single Tissue or Cell Culture Sample
- AACR 2019: Correlation between Mutations Found in FFPE Tumor Tissue and Paired cfDNA Samples
- 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
- AMP 2019: Correlation Between Mutations Found in FFPE Tumor Tissue and Paired cfDNA Samples
- 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
- Mastering Cell Counting
- Preparing a CytoFLEX for Nanoscale Flow Cytometry
- A Prototype CytoFLEX for High-Sensitivity, Multiparametric Nanoparticle Analysis
- Product Instructions
- Protocols
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Case Studies
- Adenoviral Vectors Preparation
- Algae Biofuel Production
- Autophagy
- B Cell Research
- Cardiovascular Disease Research
- Cell Marker Analysis
- Choosing a Tabletop Centrifuge
- Collagen Disease Treatment
- Controlling Immune Response
- Creating Therapeutic Agents
- DNA Extraction from FFPE Tissue
- English Safety Seminar
- Equipment Management
- Exosome Purification Separation
- Future of Fishing Immune Research
- Hematopoietic Tumor Cells
- iPS Cell Research
- Membrane Protein Purification X Ray Crystallography
- Organelles Simple Fractionation
- Particle Interaction
- Retinal Cell Regeneration
- Sedimentary Geology
- Severe Liver Disease Treatment
- Treating Cirrhosis
- University Equipment Management
- Fundamentals of Ultracentrifugal Virus Purification
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Notas de Aplicação
Explore various research areas and topics that are important to your lab
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Áreas de Pesquisa
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Immunotherapy
- About Immunotherapy
- CAR-T Cells: Immuno-oncology Therapeutics
- About Viral Vectors
- Pediatric Immunotherapy
- Immunotherapy Research: Supporting Products
- Immunotherapy Shows Renewed Promise for Cancer Therapies
- Cell Therapy: From Research to Commercialization
- CRISPR for Immunotherapy
- Characterizing Viral Vectors: Analyzing rAAV Vector Homogeneity
- Developing and Producing Viral Vectors: Powering Forward Momentum for the Future of Gene Therapy
- Cultura de células em 3D
- Células dendríticas
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Exossomas
- Interviews
- About Exosomes
- Applied Exosome Research
- Detecção de Apoptose
- Simplifying Exosome Isolation
- Basic Exosome Research
- Ensaios com base em células
- Sinalização Celular
- Exosomes Take Disease Modeling to the Next Level: From the Cage to the Plate
- Deciphering Disease using Exosome Biomarkers
- Targeting Efficient Drug Delivery With Exosome Nanoparticles
- Exosome Isolation
- Isolation and Characterization of Exosomes for Assays Approaches
- Exossomas: impulsionando a pesquisa do câncer, ~100 nm de cada vez
- Instruments used in exosome research
- Automatize sua pesquisa de nanopartículas com a Beckman Coulter
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Small Particle
- Verifying for Small Particle with Certified Beads
- Characterization of Extracellular Vesicles with Nanoscale Flow Cytometry
- 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
- 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
- Instruments and Products for Biological Nanoparticles
- Células-tronco
- Biologics
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Immunotherapy
Learn more about the science behind many of our instruments
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Fundamentals
- Particle Size Distribution
- Os altos e baixos (e altos) de uma poderosa ferramenta de pesquisa: a história da ultracentrifugação analítica (AUC)
- História da Citometria de Fluxo
- Fundamentos da Automação Laboratorial
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Princípios de Centrifugação
- Balanceamento de rotor
- Calculating k Factor
- Centrifugal Elutriation
- Centrifuge Maintenance and Care
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Dr Beckman
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- v10
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- v15
- Vol.16 垂直ロータの開発経緯について -垂直/近垂直ロータはどんな遠心に使いますか? その1-
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- v2
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- v4
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- v49
- v5
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- v59
- v6
- Vol.60 超遠心機用スウィングロータの正しい持ち方・セットの仕方
- Vol.61 超遠心機用スウィングロータの仕組みと取扱い留意点
- v7
- v8
- v9
- Separação de Partículas
- Campo Centrífugo Relativo (Relative Centrifugal Field, RCF)
- Replicating Published Protocols
- Rotor Types
Move your research forward with efficient optimizations
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Técnicas e Métodos
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Immunophenotyping
- About Immunophenotyping
- 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
- Optimized Multicolor Immunophenotyping Panels (OMIPs) for Flow Cytometry
- Customer Testimonials
- Instruments and Products for Immunophenotyping Assays
- Ultracentrifugação analítica
- Manutenção de células
- Triagem de alto rendimento
- Monitoramento imunológico
- Preparação de amostras para espectrometria de massa
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- What’s the difference between sterile & Certified Free consumables, and what purity grade do I need?
- 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?
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Immunophenotyping
How technologies help advance discovery and innovation
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