Latest On-Demand Webinars
Webinar
Building Resilience in Your Chemical Supply
On-Demand
Outsourcing chemical supply to a trusted management partner offers significant benefits over self-managed alternatives. Benefits include greater flexibility, decreased risk, and higher raw material quality while the cost of ownership is reduced.
Webinar
Methods and Reagents for Culturing and Characterizing Organoids and Cancer Spheroids
On-Demand
Bio-Techne has extensive experience in and offers a strong and diverse portfolio for the generation, maintenance and characterization of organoids and other 3D culture systems such as spheroids.
Webinar
An Introduction to Grating-Coupled Interferometry (GCI)
On-Demand
With unrivaled flexibility and high sensitivity, the WAVE brings label-free quantification to a whole new world of applications, revolutionizing the study of biomolecular interactions.
Webinar
Traditional and Emerging Methods of Oligonucleotide Synthesis: Session 3
On-Demand
In this webinar, we explore the chemical reactions and strategies of oligonucleotide synthesis in mechanistic detail, with simple overviews for non-chemists.
Our expert speaker, Professor Tom Brown, will review the history of oligonucleotide synthesis, examine how they are made currently and highlight emerging synthesis methods, including enzymatic approaches. He will also discuss the various applications of synthetic oligonucleotides, from diagnostics to therapeutics and more.
Our expert speaker, Professor Tom Brown, will review the history of oligonucleotide synthesis, examine how they are made currently and highlight emerging synthesis methods, including enzymatic approaches. He will also discuss the various applications of synthetic oligonucleotides, from diagnostics to therapeutics and more.
Webinar
Traditional and Emerging Methods of Oligonucleotide Synthesis: Session 2
On-Demand
In this webinar, we explore the chemical reactions and strategies of oligonucleotide synthesis in mechanistic detail, with simple overviews for non-chemists.
Our expert speaker, Professor Tom Brown, will review the history of oligonucleotide synthesis, examine how they are made currently and highlight emerging synthesis methods, including enzymatic approaches. He will also discuss the various applications of synthetic oligonucleotides, from diagnostics to therapeutics and more.
Our expert speaker, Professor Tom Brown, will review the history of oligonucleotide synthesis, examine how they are made currently and highlight emerging synthesis methods, including enzymatic approaches. He will also discuss the various applications of synthetic oligonucleotides, from diagnostics to therapeutics and more.
Webinar
Traditional and Emerging Methods of Oligonucleotide Synthesis: Session 1
On-Demand
In this webinar, we explore the chemical reactions and strategies of oligonucleotide synthesis in mechanistic detail, with simple overviews for non-chemists.
Our expert speaker, Professor Tom Brown, will review the history of oligonucleotide synthesis, examine how they are made currently and highlight emerging synthesis methods, including enzymatic approaches. He will also discuss the various applications of synthetic oligonucleotides, from diagnostics to therapeutics and more.
Our expert speaker, Professor Tom Brown, will review the history of oligonucleotide synthesis, examine how they are made currently and highlight emerging synthesis methods, including enzymatic approaches. He will also discuss the various applications of synthetic oligonucleotides, from diagnostics to therapeutics and more.
Webinar
A High-Throughput Virtual Screening Approach to Identifying Novel SARS-CoV-2 Inhibitors
On-Demand
RNA dependent RNA polymerase (RdRp), is essential in the RNA replication within the life cycle of the severely acute respiratory coronavirus-2 (SARS-CoV-2), causing the deadly respiratory induced sickness COVID-19.
Webinar
Simplified Diafiltration for Protein Purification
On-Demand
Tangential flow filtration (TFF), also known as cross-flow filtration, is a rapid and efficient method for the separation and purification of biomolecules.
TFF can be used to concentrate sample solutions ranging in volumes from 10 mL to thousands of liters. It can also be used to fractionate large from small biomolecules, harvest cell suspensions and clarify fermentation broths and cell lysates.
Another major usage of TFF is to perform a process called diafiltration, a technique that uses ultrafiltration membranes to completely remove, replace or lower the concentration of salts or solvents from solutions containing proteins, peptides, nucleic acids and other biomolecules.
This webinar will explore the applications of diafiltration across immunology, protein chemistry, molecular biology, biochemistry and biotechnology.
TFF can be used to concentrate sample solutions ranging in volumes from 10 mL to thousands of liters. It can also be used to fractionate large from small biomolecules, harvest cell suspensions and clarify fermentation broths and cell lysates.
Another major usage of TFF is to perform a process called diafiltration, a technique that uses ultrafiltration membranes to completely remove, replace or lower the concentration of salts or solvents from solutions containing proteins, peptides, nucleic acids and other biomolecules.
This webinar will explore the applications of diafiltration across immunology, protein chemistry, molecular biology, biochemistry and biotechnology.
Webinar
Cloning in the Third Dimension: Breakthroughs in 3D Biology
On-Demand
Traditional organoid culture can present challenges for the downstream analysis of single organoids. In this webinar, Dr. Allysa Stern will discuss a unique workflow that enables clonal organoid development, monitoring of iPSC differentiation over time and automated isolation of single organoids.
Dr. Scott Magness will then present a case related to his group’s work investigating tumor cell heterogeneity through clonal organoid morphology and transcriptomics. He will discuss new approaches using single organoid transcriptomics to evaluate organoids derived from single cells from gastric dysplastic tissues and how this approach might reveal new ways to investigate tumor cell heterogeneity and evasion of some cells from cancer treatments.
Dr. Scott Magness will then present a case related to his group’s work investigating tumor cell heterogeneity through clonal organoid morphology and transcriptomics. He will discuss new approaches using single organoid transcriptomics to evaluate organoids derived from single cells from gastric dysplastic tissues and how this approach might reveal new ways to investigate tumor cell heterogeneity and evasion of some cells from cancer treatments.
Webinar
Looking Beyond the Known – Off- and On-Target Characterization of CRISPR/Cas9 Gene Editing with SWATH DIA
On-Demand
CRISPR/Cas9, a ground-breaking tool for altering genes with the potential to fully cure genetic diseases, has made its way into the clinic, accelerating research on new therapies using this technology.
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