Sieber Amide Resin
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Sieber Amide Resin

* Please kindly note that our products are not to be used for therapeutic purposes and cannot be sold to patients.

Sieber amide resin has been developed for the Fmoc-SPPS of fully t-butyl protected peptide amides.

Category
Other Resins
Catalog number
BAT-002224
Molecular Formula
C36H29NO4
Molecular Weight
539.20965841
IUPAC Name
9H-fluoren-9-ylmethyl N-[3-[(4-methylphenyl)methoxy]-9H-xanthen-9-yl]carbamate
Synonyms
Xanthenyl linker resin
Appearance
Beige Powder
Purity
100-200 mesh,1% DVB,0.3-0.8mmol/g
Mesh Size
200-400 mesh
Substitution
0.4-0.7 mmol/g
Solubility
None
InChI
InChI=1S/C36H29NO4/c1-23-14-16-24(17-15-23)21-39-25-18-19-31-34(20-25)41-33-13-7-6-12-30(33)35(31)37-36(38)40-22-32-28-10-4-2-8-26(28)27-9-3-5-11-29(27)32/h2-20,32,35H,21-22H2,1H3,(H,37,38)
InChI Key
RDRBIXSNGAYLPT-UHFFFAOYSA-N
Canonical SMILES
CC1=CC=C(C=C1)COC2=CC3=C(C=C2)C(C4=CC=CC=C4O3)NC(=O)OCC5C6=CC=CC=C6C7=CC=CC=C57
1. Application of HR-MAS NMR in the solid-phase synthesis of a glycopeptide using Sieber amide resin
Luísa R Carvalho, Marta C Corvo, Ramu Enugala, M Manuel B Marques, Eurico J Cabrita Magn Reson Chem. 2010 Apr;48(4):323-30. doi: 10.1002/mrc.2583.
The solid-phase synthesis (SPS) of a structurally complex glycopeptide, using Sieber amide resin, was monitored by high resolution magic angle spinning NMR, demonstrating the further application of this technique. A synthetic peptidoglycan derivative, a precursor of a biologically active PGN, known to be involved in the cellular recognition, was prepared by SPS. The synthesis involved the preparation of an N-alloc glucosamine moiety and the synthesis of a simple amino acid sequence L-Ala-D-Glu-L-Lys-D-Ala-D-Ala. Last step consisted the coupling, on solid-phase, of the protected muramyl unit to the peptide chain. Proton spectra with good suppression of the polystyrene signals in swollen resin samples were obtained in DMF-d(7) as a solvent and by using a nonselective 1D TOCSY/DIPSI-2 scheme, thus allowing to follow the SPS without losses of compound and cleavage from the resin. The assignment of the proton spectra of the resin-bound amino acid sequence and of the bound glycopeptide was achieved through the combination of MAS COSY, TOCSY and NOESY.
2. New heterocyclic beta-sheet ligands with peptidic recognition elements
P Rzepecki, H Gallmeier, N Geib, Katarina Cernovska, B König, T Schrader J Org Chem. 2004 Aug 6;69(16):5168-78. doi: 10.1021/jo0496603.
A detailed and comprehensive overview is presented about the design, modeling, and synthesis, as well as spectroscopic characterization, of a new class of beta-sheet ligands. The characteristic feature of these compounds is a peptidic chimeric structure formed from a specific combination of aminopyrazolecarboxylic acids with naturally occurring alpha-amino acids. These hybrid peptides are designed with the aid of molecular modeling to exist mainly in an extended conformation. All their hydrogen bond donors and acceptors can be aligned at the bottom face in such a way that a perfect complementarity toward beta-sheets is obtained. Thus the aminopyrazoles impart rigidity and a highly efficient DAD sequence for the recognition of whole dipeptide fragments, whereas the natural alpha-amino acids are designed to mimick recognition sites in proteins, ultimately leading to sequence-selective protein recognition. The synthetic protocols either rely upon solution phase peptide coupling with a PMB protecting group strategy or solid-phase peptide coupling based on the Fmoc strategy, using the same protecting group. In solution, a key building block was prepared by catalytic reduction of a nitropyrazolecarboxylic acid precursor. Subsequently, it was (N-1)-protected with a PMB group, and elongated by HCTU- or T3P-assisted peptide coupling with dipeptide fragments, followed by PyClop-assisted coupling with another nitropyrazolecarboxylic acid building block. Final simultaneous deprotection of all PMB groups with hot TFA completed the high-yield protocol, which works racemization-free. After preparing a similar key building block with an Fmoc protection at N-3, we developed a strategy suitable for automated synthesis of larger hybrid ligands on a peptide synthesizer. Attachment of the first amino acid to a polystyrene resin over the Sieber amide linker is followed by an iterative sequence consisting of Fmoc deprotection with piperidine and subsequent coupling with natural alpha-amino acid via HATU/HOAt. High yields of free hybrid peptides are obtained after mild acidic cleavage from the resin, followed by deprotection of the PMB groups with hot TFA. The new aminopyrazole peptide hybrid compounds were characterized by various spectroscopic measurements including CD spectra, VT, and ROESY NMR experiments. All these accumulated data indicate the absence of any intramolecular hydrogen bonds and strongly support an extended conformation in solution, ideal for docking on to solvent-exposed beta-sheets in proteins. Initial results from aggregation tests of pathological proteins with these and related ligands look extremely promising.
3. Greener Cleavage of Protected Peptide Fragments from Sieber Amide Resin
Othman Al Musaimi, Varshitha Gavva, Daryl R Williams ChemistryOpen. 2022 Dec;11(12):e202200236. doi: 10.1002/open.202200236.
Following the successful introduction of two benign solvents for cleaving protected acid peptide fragments from 2-chlorotrityl chloride (2-CTC) resin, there is a need to green the cleavage process for obtaining protected peptide amide fragments. In this work, p-xylene and toluene are introduced as greener alternates to dichloromethane (DCM) for preparing protected peptide amide fragments from a Sieber amide resin. The N-dealkylation is a demanding chemical reaction, requiring that the cleavage protocol be optimised to ensure complete cleavage from the resin. After a 30 min reaction time, only 66 % of the final peptide product was retrieved even with the conventional dichloromethane solvent. Therefore, 120 min was considered sufficient to fully cleave the peptide from the Sieber amide resin. This work reaffirms the fact that greening strategies are far from detrimental, with green alternatives often outperforming their replaced counterparts.
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