RedShiftBio
RedShiftBio is redefining the possibilities for analyzing protein structure and concentration. They have developed a proprietary life sciences platform combining their microfluidic modulation spectroscopy (MMS) and expertise in high-powered quantum cascade lasers that provide ultra-sensitive and ultra-precise measurements of molecular structure.
Latest RedShiftBio Content
Product News
RedShiftBio Welcomes Sebastian Arevalo As New Sales Leader
Sebastian Arevalo's appointment strategically positions RedShiftBio to capitalize on growing opportunities in the biophysical characterization and bioprocess analytics markets, leveraging a proven track record in driving sales growth.
Webinar
Characterizing Recombinant Lactoferrin for Human Consumption
On-Demand
High concentrations of human lactoferrin (hLF) in human milk offer health benefits for infants and adults, including nourishment and growth support.
Recombinant hLF (rhLF) has been expressed in yeast at an industrial scale, with the aim of making it affordable and accessible as a supplement.
This webinar takes a deep dive into how rhLF can be characterized and analyzed to ensure its safety for consumption in clinical studies.
Our expert speaker will cover how various analytical techniques – including microfluidic modulation spectroscopy – can confirm identity, assess purity and impurities, measure size and investigate the structure of rhLF, as well as compare it to native hLF.
Recombinant hLF (rhLF) has been expressed in yeast at an industrial scale, with the aim of making it affordable and accessible as a supplement.
This webinar takes a deep dive into how rhLF can be characterized and analyzed to ensure its safety for consumption in clinical studies.
Our expert speaker will cover how various analytical techniques – including microfluidic modulation spectroscopy – can confirm identity, assess purity and impurities, measure size and investigate the structure of rhLF, as well as compare it to native hLF.
Webinar
Novel Protein Characterization for Biopharma Development
On-Demand
Protein stability is one of the most important critical quality attributes for a new biological drug. Unstable or misfolded proteins are prone to aggregation and precipitation, which can lead to lower activity as well as increased immunogenicity. There has been a long-standing interest in renaturing unfolded, misfolded or precipitated proteins.
In this webinar, our expert speakers will demonstrate how thermal and pressure stress changed the structure and melting point of two model proteins and resulted in the discovery of different structural rearrangements.
They will then discuss a novel method for solubilizing and refolding proteins using hydrostatic pressure to generate proteins whose structure matches that of the native protein, as confirmed by microfluidic modulation spectroscopy.
In this webinar, our expert speakers will demonstrate how thermal and pressure stress changed the structure and melting point of two model proteins and resulted in the discovery of different structural rearrangements.
They will then discuss a novel method for solubilizing and refolding proteins using hydrostatic pressure to generate proteins whose structure matches that of the native protein, as confirmed by microfluidic modulation spectroscopy.
Product News
RedShift BioAnalytics’ HaLCon Analyzer Awarded Best of Show at the 15th Annual Bioprocessing Summit
Summit attendees recognized the recently launched HaLCon Analyzer over several other finalists for exceptional innovation in technology for life science professionals.
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