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Novabiochem® Innovations
Novabiochem® Innovations

Novabiochem® Innovations provide highly detailed protocols, application examples, and tips and tricks on the use of a particular product or group of products.

Please note this is an archive, so pricing, availability and contact information may not be current.

No. 1/17 Protocols for the Fmoc SPPS of cysteine containing peptides
No. 1/16 Fmoc-Asp(OBno)- OH: a solution to aspartimide formation in Fmoc SPPS
No. 1/15 Extending pseudoprolines beyond Ser and Thr
No. 2/14: Guide to overcoming aspartimide formation in Fmoc SPPS
No. 1/14: Applications of Oxyma Pure and K-Oxyma Pure in Fmoc SPPS
No. 3/12: New IMAC-based chemoselective tag for affinity purification of long peptides
No. 2/12: New Sulfotyrosine derivative for Fmoc SPPS
No. 1/12: New high-load polar resins for SPPS
No. 4/11: New tools for native chemical ligation
No. 3/11: Use and applications of Dbz resins in native chemical ligations
No. 2/11: Step-wise Fmoc SPPS of ubiquitin probes
No. 1/11: Guide to the synthesis of phosphotyrosine related peptides by Fmoc SPPS 
No. 3/10: Critical evaluation of in situ coupling reagents for SPPS
No. 2/10: Guide to the use of isoacyl dipeptides in Fmoc SPPS
No. 1/10: Total synthesis of the 101 residue d2 domain of VEGF receptor 1
No. 2/09: Non-explosive replacement for HOBt
No. 1/09: Synthesis of FBP28WW domains using pseudoproline and isoacyl dipeptides 
No. 1/08: Overcoming aspartimide in Fmoc SPPS
No. 2/08:  Synthesis of β-amyloid using an isoacyl dipeptide
No. 1/07: Synthesis of wild-type and phosphorylated phospholamban
No. 2/07:  Synthesis of peptides containing methylated lysine residues
No. 3/07:  Synthesis of the transmembrane region of bradykinin receptor
No. 4/07: Comparison of pseudoproline and isoacyl dipeptides in the synthesis of difficult peptides
No. 1/06:  Synthesis of thymosin-α1 using pseudoproline dipeptides
No. 2/06: The role of HOBt in coupling reactions
No. 3/06:  Synthesis of neurotoxic prion peptide (106 - 126)
No. 4/06: Smart peptide synthesis: Synthesis of PADRE-Muc chimeric peptide
No. 5/06:  Synthesis of peptides containing Methylated arginine residues
No. 6/06: Smart peptide synthesis: Synthesis of the Rantes
No. 1/05:  New tools for the SPPS of FRET peptides
No. 2/05:  SPPS of biotinylated peptides
No. 3/05:  Synthesis of highly amyloidogenic human IAPP using pseudoproline dipeptides
No. 4/05:  New tools for SPPS of labeled peptides
No. 5/05: Expediting convergent synthesis with pseudoproline dipeptides
No. 6/05:  Solid phase synthesis of AMC-based enzyme substrates
No. 1/04:  Guidelines for the use of Pseudoproline Dipeptides
No. 2/04:  Microwave accelerated Suzuki couplings employing a polymer-supported palladium phosphine
No. 3/04:  Synthesis design using Pseudoproline Dipeptides
No. 4/04:  Exploring strategies for peptide synthesis
No. 5/04:  Strategies for the synthesis of peptide aldehydes
No. 6/04:  Epimerization-free fragment condensation with pseudoproline (oxazolidine) dipeptide
No. 1/03:  New derivatives for overcoming aspartimide formation
No. 2/03:  Synthesis of long peptides using pseudoproline dipeptides
No. 3/03: IBX Polystyrene
No. 4/03: Stability of polymer-supports to microwave heating
 
 

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