Serine, Ser

It is a peptide containing 27 amino acid residues containing the amino acids L-histidine (His) L-aspartic acid (Asp) L-serine (Ser) glycine (Gly) L-threonine (Thr) L-phenyl-alanine (Phe) L-glutamic acid (Glu) L-glutamine [Glu(NHj)] L-leucine (Leu) L-arginine (Arg) L-alanine (Ala) and L-valinamide (Va -NHj). 

A certain polypeptide is shown by arid hydrolysis to contain only three amino acids serine(Ser), alanine(Ala), and methionine(Met) with mole fractions of j, and respectively. Enzymatic hydrolysis yields the following fragments Ser-Ala Ser-Met Ala-Ser. Deduce the primary structure of the polypeptide. 

In addition, eNOS is subject to protein phosphorylation. It can be phosphotylated on several serine (Ser), threonine (Thr), and tyrosine (Tyr) residues however, major changes in enzyme function have been reported for the phosphorylation of amino acid residues Seri 177 and Thr495 (in the human eNOS sequence) (Fig. 3). 

Copolymers of a-hydroxy acids and a-amino acids are one type of poly(ester-amide)s and are called polydepsipeptides (PDPs) [17]. Since some of natural occurring a-amino acids, typically Asp, Glu, lysine (Lys), cysteine (Cys), serine (Ser), and threonine (Thr), possess reactive (hydrophilic) side-chain groups, PDPs... 

Figure 3.11. Structure of FcyRIIIA and FcyRIIIB. In FcyRIIIA, residue 203 is phenylalanine (Phe), which is followed by a hydrophobic transmembrane domain and a cytoplasmic domain. In FcyRIIIB, residue 203 is serine (Ser), which is followed by a stop codon. See text for details.

Serine (Ser or S) ((S)-2-amino-3-hydroxypropanoic acid) is a polar, neutral, uncharged amino acid with the formula H00CCH(NH2)CH20H. It has an aliphatic hydroxyl side chain and can be seen as a hydroxylated version of Ala. Ser participates in the biosynthesis of purines and pyrimidines and is also the precursor to several amino acids including Gly, Cys, and Trp (in bacteria). In addition, it is the precursor to numerous other metabolites, including sphingolipids and is present in enzymes such as a-chymotrypsin. Ser, Asn, and aspartate disrupt a helices. 

Figure 9-3. Fates of the carbon skeletons upon metabolism of the amino acids. Points of entry at various steps of the tricarboxylic acid (TCA) cycle, glycolysis and gluconeogenesis are shown for the carbons skeletons of the amino acids. Note the multiple fates of the glucogenic amino acids glycine (Gly), serine (Ser), and threonine (Thr) as well as the combined glucogenic and ketogenic amino acids phenylalanine (Phe), tryptophan (Trp), and tyrosine (Tyr). Ala, alanine Cys, cysteine lie, isoleucine Leu, leucine Lys, lysine Asn, asparagine Asp, aspartate Arg, arginine His, histidine Glu, glutamate Gin, glutamine Pro, proline Val, valine Met, methionine.

In the complex of the protein BPT1 with the protein trypsin, a close approximation to a tetrahedral adduct has been observed34 in the X-ray structure. This adduct is formed by addition of the reactive serine (ser... 

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