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Note: As of September 30th there will be order processing and shipment delays that may last until October 8, 2020 as we are transitioning to a new ERP system. Please email to discuss what accommodations we can provide during this time.

5 factors to consider when choosing a peptide synthesizer

Apr 24, 2019 11:00:00 AM

Choosing a peptide synthesizer to meet your specific needs can be a daunting task. Here are some key factors to consider to be able to synthesize high quality peptides in the number and scale that matches your applications.

1. The question of throughput and parallel synthesis

Different applications and phases of research require different numbers of peptides. A peptide drug discovery program may involve screening hundreds (or even thousands) of peptides to find hits, followed by optimizing structure-activity relationships (SAR) with focused libraries to identify a single candidate that can be advanced to the clinic. The key to success is therefore to choose a synthesizer that has reaction vessels that can deliver the level of parallel synthesis you need to match your application1.

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Topics: Prelude x, Symphony X, Peptide synthesis, Tribute, SPPS, Sonata XT, Real-time UV monitoring

Enabling identification of phosphorylated cysteine: Novel chemoselective synthetic and analytical methods

Dec 5, 2017 10:32:31 AM

Protein phosphorylation plays a key role in the regulation of signaling pathways and many other cellular processes. Studies of phosphorylation have focused on serine, threonine and tyrosine amino-acid side chains, while the phosphorylation of other amino acids, such as phospho-histidine (pHis), -arginine (pArg), -lysine (pLys) and -cysteine (pCys), is less well understood. Studies have been hindered by technical limitations, primarily acid lability. To address this problem, Jordi Bertran-Vicente and colleagues have developed a novel chemoselective and stereochemically defined phosphorylation strategy for Cys residues.  The method employs the nucleophilic reactivity of P(III)-reagents (phosphites) with electrophilic disulfides. The research team has also developed a mass spectrometry-based proteomic approach to identify and characterize pCys sites that naturally occur in peptides. 

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Topics: Peptide synthesis, Tribute, Tribute peptide synthesizer, pCys, Protein phosphorylation