WEBINAR

Detecting Endogenous Nucleotides From Low Numbers of Mammalian Cells

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Biomedical laboratories are under increasing pressure to produce meaningful data from minute amounts of sample. In this webinar, we’ll explore how a micro-scale separation technique, capillary electrophoresis-mass spectrometry (CE-MS), can be used for the highly efficient and sensitive profiling of nucleotides from a low number of mammalian cells.

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Webinar Summary

Biomedical laboratories are under increasing pressure to produce meaningful data from minute amounts of sample. In this webinar, we’ll explore how a micro-scale separation technique, capillary electrophoresis-mass spectrometry (CE-MS), can be used for the highly efficient and sensitive profiling of nucleotides from a low number of mammalian cells.

Endogenous nucleotides can be detected in extracts as low as 500 HepG2 cells. In a research study discussed in this webinar, an injection volume of 6.5 nL resulted in sub-nanomolar detection limits for nucleotides, clearly illustrating the utility of this technique for metabolic profiling in low amounts of biological material.

Attend this webinar to learn:
  • How an electro-driven separation can help detection of endogenous nucleotides with as few as 500 HepG2 cells
  • Review the separation principle and key application areas of capillary electrophoresis-mass spectrometry (CE-MS)
  • Discover the potential of CE-MS for metabolomics studies with limited sample volumes

Speaker Information:


WebinarSpeakerImage
Rawi Ramautar
Principal Investigator 
Leiden University