Fmoc-O-2,6-dichlorobenzyl-L-tyrosine
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Fmoc-O-2,6-dichlorobenzyl-L-tyrosine

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Category
Fmoc-Amino Acids
Catalog number
BAT-003796
CAS number
112402-12-7
Molecular Formula
C31H25NO5Cl2
Molecular Weight
562.50
Fmoc-O-2,6-dichlorobenzyl-L-tyrosine
IUPAC Name
(2S)-3-[4-[(2,6-dichlorophenyl)methoxy]phenyl]-2-(9H-fluoren-9-ylmethoxycarbonylamino)propanoic acid
Synonyms
Fmoc-L-Tyr(2,6-diCl-Bzl)-OH; Fmoc-Tyr(2,6-Cl2Bzl)-OH; Fmoc-Tyr(Dcb); N-[(9-fluorenyl)methoxycarbonyl]-O-(2,6-dichlorobenzyl)-L-tyrosine; Fmoc-Tyr(2,6-Cl2-Bn)
Appearance
White crystalline powder
Purity
≥ 98% (HPLC)
Density
1.365±0.06 g/cm3
Melting Point
162-176 °C
Boiling Point
754.8±60.0 °C
Storage
Store at 2-8 °C
InChI
InChI=1S/C31H25Cl2NO5/c32-27-10-5-11-28(33)26(27)18-38-20-14-12-19(13-15-20)16-29(30(35)36)34-31(37)39-17-25-23-8-3-1-6-21(23)22-7-2-4-9-24(22)25/h1-15,25,29H,16-18H2,(H,34,37)(H,35,36)/t29-/m0/s1
InChI Key
ZOUABXSNYLWHTP-LJAQVGFWSA-N
Canonical SMILES
C1=CC=C2C(=C1)C(C3=CC=CC=C32)COC(=O)NC(CC4=CC=C(C=C4)OCC5=C(C=CC=C5Cl)Cl)C(=O)O
1. Designed amino acid ATRP initiators for the synthesis of biohybrid materials
Rebecca M Broyer, Grace M Quaker, Heather D Maynard J Am Chem Soc. 2008 Jan 23;130(3):1041-7. doi: 10.1021/ja0772546.
A synthetic strategy to prepare peptide-polymer conjugates with precise sites of attachment is described. Amino acids modified with atom transfer radical polymerization (ATRP) initiators for the polymerization of styrenes and methacrylates were prepared. Fmoc-4-(1-chloroethyl)-phenylalanine (5) was synthesized in four steps from Fmoc-tyrosine. HATU-mediated amidation with glycine-OMe resulted in dipeptide (6). The initiator was effective for Cu(I)/bipyridine mediated bulk polymerization of styrene. Kinetic studies indicated a controlled polymerization, with high conversion (97%), and a polydispersity index (PDI) of 1.25. Fmoc-O-(2-bromoisobutyryl)-serine tert-butyl ester (10) was synthesized from Fmoc-Ser(OTrt)-OH in three steps. This initiator was employed in the ATRP of 2-hydroxyethyl methacrylate (HEMA), and kinetic studies indicated a controlled polymerization. Different monomer to initiator ratios resulted in poly(HEMA) of different molecular weights and narrow PDIs (1.14-1.25). Conversions were between 70 and 99%. HEMA modified with N-acetyl-D-glucosamine (GlcNAc) was also polymerized to 84% conversion and the resulting PDI was 1.19. The t-butyl ester protecting group of 10 was removed, and the resulting amino acid (11) was incorporated into VM(11)VVQTK by standard solid-phase peptide synthesis. Polymerization resulted in the glycopolymer-peptide conjugate in 93% conversion and a PDI of 1.14.
2. Solid-phase synthesis of caged peptides using tyrosine modified with a photocleavable protecting group: application to the synthesis of caged neuropeptide Y
Y Tatsu, Y Shigeri, S Sogabe, N Yumoto, S Yoshikawa Biochem Biophys Res Commun. 1996 Oct 23;227(3):688-93. doi: 10.1006/bbrc.1996.1570.
A simple method for the synthesis of caged peptides using a novel derivative of tyrosine, N-Fmoc-O-(2-nitrobenzyl)-tyrosine, is described. The derivative of tyrosine can be incorporated at any position in an amino acid sequence by solid-phase peptide synthesis under the condition for Fmoc chemistry, and caged peptides that contain nitrobenzyl group on the side chain of tyrosine residue can be obtained. The nitrobenzyl group can be photocleaved by UV irradiation and the half life of the intermediate during photolysis is approximately 7 microseconds. The method was successfully applied to the synthesis of caged neuropeptide Y (NPY). The binding affinity of the caged NPY for the Y1 receptor was one or two orders of magnitude lower than that of intact NPY, but it increased to the value for intact NPY upon irradiation by UV light.
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