Boc-L-serine
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Boc-L-serine

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Starting material for the synthesis of various a-amino acids via the b-lactone.

Category
BOC-Amino Acids
Catalog number
BAT-002805
CAS number
3262-72-4
Molecular Formula
C8H15NO5
Molecular Weight
205.22
Boc-L-serine
IUPAC Name
(2S)-3-hydroxy-2-[(2-methylpropan-2-yl)oxycarbonylamino]propanoic acid
Synonyms
Boc-L-Ser-OH; Boc-L-β-Hydroxyalanine; (S)-Boc-2-amino-3-hydroxypropionic acid; N-(tert-Butoxycarbonyl)-L-serine
Appearance
White powder
Purity
≥ 98% (HPLC)
Melting Point
80-96 °C
Storage
Store at 2-8 °C
InChI
InChI=1S/C8H15NO5/c1-8(2,3)14-7(13)9-5(4-10)6(11)12/h5,10H,4H2,1-3H3,(H,9,13)(H,11,12)/t5-/m0/s1
InChI Key
FHOAKXBXYSJBGX-YFKPBYRVSA-N
Canonical SMILES
CC(C)(C)OC(=O)NC(CO)C(=O)O
1. Synthesis and characterization of conformationally preorganized, (R)-diethylene glycol-containing γ-peptide nucleic acids with superior hybridization properties and water solubility
Bichismita Sahu, Iulia Sacui, Srinivas Rapireddy, Kimberly J Zanotti, Raman Bahal, Bruce A Armitage, Danith H Ly J Org Chem. 2011 Jul 15;76(14):5614-27. doi: 10.1021/jo200482d. Epub 2011 Jun 15.
Developed in the early 1990s, peptide nucleic acid (PNA) has emerged as a promising class of nucleic acid mimic because of its strong binding affinity and sequence selectivity toward DNA and RNA and resistance to enzymatic degradation by proteases and nucleases; however, the main drawbacks, as compared to other classes of oligonucleotides, are water solubility and biocompatibility. Herein we show that installation of a relatively small, hydrophilic (R)-diethylene glycol ("miniPEG", R-MP) unit at the γ-backbone transforms a randomly folded PNA into a right-handed helix. Synthesis of optically pure (R-MP)γPNA monomers is described, which can be accomplished in a few simple steps from a commercially available and relatively cheap Boc-l-serine. Once synthesized, (R-MP)γPNA oligomers are preorganized into a right-handed helix, hybridize to DNA and RNA with greater affinity and sequence selectivity, and are more water soluble and less aggregating than the parental PNA oligomers. The results presented herein have important implications for the future design and application of PNA in biology, biotechnology, and medicine, as well as in other disciplines, including drug discovery and molecular engineering.
2. Synthesis of alanyl nucleobase amino acids and their incorporation into proteins
Poulami Talukder, Larisa M Dedkova, Andrew D Ellington, Petro Yakovchuk, Jaebum Lim, Eric V Anslyn, Sidney M Hecht Bioorg Med Chem. 2016 Sep 15;24(18):4177-4187. doi: 10.1016/j.bmc.2016.07.008. Epub 2016 Jul 6.
Proteins which bind to nucleic acids and regulate their structure and functions are numerous and exceptionally important. Such proteins employ a variety of strategies for recognition of the relevant structural elements in their nucleic acid substrates, some of which have been shown to involve rather subtle interactions which might have been difficult to design from first principles. In the present study, we have explored the preparation of proteins containing unnatural amino acids having nucleobase side chains. In principle, the introduction of multiple nucleobase amino acids into the nucleic acid binding domain of a protein should enable these modified proteins to interact with their nucleic acid substrates using Watson-Crick and other base pairing interactions. We describe the synthesis of five alanyl nucleobase amino acids protected in a fashion which enabled their attachment to a suppressor tRNA, and their incorporation into each of two proteins with acceptable efficiencies. The nucleobases studied included cytosine, uracil, thymine, adenine and guanine, i.e. the major nucleobase constituents of DNA and RNA. Dihydrofolate reductase was chosen as one model protein to enable direct comparison of the facility of incorporation of the nucleobase amino acids with numerous other unnatural amino acids studied previously. The Klenow fragment of DNA polymerase I was chosen as a representative DNA binding protein whose mode of action has been studied in detail.
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