FMOC-SER(TBU)-WANG RESIN LL (100-200 MESH)

Fmoc-Ser(tBu)-Wang Resin LL (100-200 mesh)

Fmoc-Ser(tBu)-Wang Resin LL (100-200 mesh)

Blog Article

Here’s a clean, blog-style breakdown of Fmoc-Ser(tBu)-Wang Resin LL (100–200 mesh)—great for anyone getting into peptide synthesis or looking for a refresher:



Spotlight on Fmoc-Ser(tBu)-Wang Resin LL (100–200 Mesh)


If you’re crafting peptides with serine at the C-terminus, this resin is your best friend. Fmoc-Ser(tBu)-Wang Resin LL combines solid protection strategies with solid performance—perfect for solid-phase peptide synthesis (SPPS) under Fmoc chemistry.


Let’s unpack what makes it special.







 Name Breakdown




  • Fmoc: This protects the α-amine of the serine residue during synthesis. It’s base-labile and removed with piperidine.




  • Ser(tBu): The amino acid serine is preloaded onto the resin with its hydroxyl side chain protected by a tBu (tert-butyl) group. This protects against unwanted side reactions during synthesis and is removed with TFA at the end.




  • Wang resin: The resin backbone uses the acid-labile Wang linker, which allows for C-terminal carboxylic acid formation upon cleavage with TFA.




  • LL (Low Loading): Typically ~0.2–0.4 mmol/g. This helps reduce aggregation in longer or more hydrophobic peptides by spacing growing chains further apart.




  • 100–200 mesh: Standard particle size (~75–150 μm), balancing good swelling and reaction kinetics.







 What It’s For




  • Synthesizing peptides with serine at the C-terminus.




  • Avoiding premature reactions at the serine OH group during chain extension.




  • Ideal for longer peptidesdifficult sequences, or where low resin loading is advantageous.








How It Works in SPPS




  1. Swelling: Resin is swollen in a solvent like DCM or DMF.




  2. Fmoc deprotection: Treated with piperidine to expose the α-amine.




  3. Coupling: Standard coupling chemistry adds the next amino acid.




  4. Repeat: Continue chain elongation as needed.




  5. Cleavage: Final cleavage with TFA removes:





    • The peptide from the resin (cleaves Wang linker),




    • The tBu protecting group on serine’s side chain,




    • All acid-labile side chain protections in one go.









 Storage Tips




  • Store in a cool, dry place (preferably under nitrogen or argon).




  • Protect from moisture and light.




  • Always pre-swell in solvent before use.







 Pro Tips




  • Low loading helps with yield and purity in longer sequences.




  • Monitor tBu deprotection—it occurs during TFA cleavage, and you may see a shift in peptide solubility.




  • Always check your resin loading before planning equivalents.







 Final Thoughts


Fmoc-Ser(tBu)-Wang Resin LL gives you a gentle, controlled way to build peptides that end with serine—without risking side-chain reactivity mid-synthesis. It’s clean, reliable, and perfect when you’re working with sequences that demand finesse.


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Phone : +1 (702) 381-3042 ( USA )
Email : info@scienceandlaboratoryexp.com
Address : Cunostraße 56, 14193 Berlin. Germany
Address : 7373 Rowlett Park Dr, Tampa, FL 33610, United States.

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