When cells are your factory, it’s imperative to ensure that they are kept under the right conditions throughout the life of the culture. Standard 2-D
and 3-D culture systems, whether dish-, bag-, roller bottle-, or bioreactor-based, all share the same limitations; these setups fail to keep the cells
in tissue-like contact with neighboring cells, depriving them of important signaling cues. Hollow-fi ber bioreactors (HFBR) are able to promote a
physiologically relevant interaction between cells while enabling product retrieval without perturbation. Learn more about HFBRs from FiberCell
Systems, the sponsor of this webinar event, and learn how your standard methods are letting you down by design.LabTools: Beyond 3-D: Recapitulating
Nature for Optimal BioproductionWATC H NOW!
http://www.the-scientist.com/hollowfi berTOPICS TO BE COVERED:- The spatial and nutritional constraints faced by
standard cultures, and how HFBRs address them - Using HFBRs to generate monoclonal antibodies,
exosomes, difficult-to-express proteins, and more
WEBINAR SPONSORED BY:JOHN J.S. CADWELL, MS
President and CEO
FiberCell Systems, Inc.ONDEMAND
Cell-free transcription-translation (TXTL) is becoming a popular laboratory research tool covering a growing number of multidisciplinary applications. TXTL is
employed in cell and molecular biology, bioengineering, synthetic biology, and biological physics. Practical applications of TXTL include biomanufacturing and
prototyping DNA programs, from regulatory elements to gene circuits. The new generation of TXTL systems is user-friendly, powerful, and versatile. Combined
with automated liquid dispensing, TXTL can dramatically accelerate bioengineering and the characterization of novel technologies, such as CRISPR. Labcyte,
Inc., the sponsor of this LabTools webinar, provides a unique, automated acoustic liquid handler ideal for TXTL work.
Accelerating Cell-free Transcription
& Translation with Acoustic Liquid HandlingWATC H NOW!
http://www.the-scientist.com/TXTLTOPICS TO BE COVERED:- Review of the available TXTL platforms and
their capabilities - The major TXTL applications
- High-throughput TXTL reactions using the Echo
550 Liquid Handler
WEBINAR SPONSORED BY:VINCENT NOIREAUX, PhD
Professor
University of MinnesotaRYA N MARSHALL
Graduate Student
University of MinnesotaALEX PIERSON
Field Application Scientist
Labcyte, Inc.ONDEMAND