2- phenylisothiocyanate

Dipolar reactivity of 5-mercapto-THISs has only been demonstrated for 16 (X = S), which, like its oxygen analog, produces with dimethylfumarate, 17. and with phenylisothiocyanate, 21 (25). Compound 16 (X = S) does not react with other typical dipolarenophiles (25). 

Adducts from various quaternary salts have been isolated, in reactions with aldehydes, a-ketoaldehydes, dialkylacylphosphonates and dialkyl-phosphonates, isocyanates, isothiocyanates, and so forth (Scheme 15) (36). The ylid (11) resulting from removal of a Cj proton from 3.4-dimethyl-S-p-hydroxyethylthiazolium iodide by NEtj in DMF gives with phenylisothiocyanate the stable dipolar adduct (12) that has been identified by its NMR spectrum and reactional product, such as acid addition and thiazolidine obtention via NaBH4 reduction (Scheme 16) (35). It must be mentioned that the adduct issued from di-p-tolylcarbodiimide is separated in its halohydrogenated form. An alkaline treatment occasions an easy ring expansion into a 1,4-thiazine derivative (Scheme 17) (35). 

Addition of phenylisothiocyanate to 2-aminoselenazoline leads to 1-phenyl-3-(2-selenazolin-2-yl)-2-thiourea (Scheme 60). 

One of the extensively investigated applications of enamines to heterocyclic syntheses is based on the bifunctional character of enamine acylation products. Thus the vinylogous ureas and thiorueas obtained from enamines and phenylisocyanate and phenylisothiocyanate (-433) have been converted to aminopyrazoles and thiouracils with hydrazine (566) and phenylisocyanate (567). 

FIGURE 5.19 N-Tertninal analysis using Edman s reagent, phenylisothiocyanate. Phenylisothiocyanate combines with the N-terminus of a peptide under mildly alkaline conditions to form a phenylthiocarbamoyl substitution. Upon treatment with TFA (trifluo-roacetic acid), this cyclizes to release the N-terminal amino acid residue as a thiazolinone derivative, but the other peptide bonds are not hydrolyzed. Organic extraction and treatment with aqueous acid yield the N-terminal amino acid as a phenylthiohydantoin (PTH) derivative. 

Edman degradation (Section 26.6) A method for N-terminal sequencing of peptide chains by treatment with Af-phenylisothiocyanate. 

PITC (Section 26.6) Phenylisothiocyanate used in the Edman degradation. 

Picric acid, synthesis of, 628 Pinacol rearrangement, 646 Pineapple, esters in, 808 Piperidine, molecular model of, 939 structure of. 918 P1TC, see Phenylisothiocyanate, 1031-1032... 

The mechanism involves the initial formation of a substituted urea followed by ring closure to form the thiohydantoin. The amino acid is dissolved in 60% aqueous pyridine containing the phenylisothiocyanate... 

Amino acid sequencing may be carried out in a number of ways. The most widely used is the Edman degradation procedure in which phenylisothiocyanate is used to react with the amino acid residue at the amine end of the protein chain. This derivatized residue is removed from the remainder of the protein and converted to a phenylhydantoin derivative which is identified by using, for example, HPLC. 

Heinrikson, R.L. and Meredith, S.C. 1984 Amino acid analysis by reverse-phase high-performance liquid chromotography Precolumn derivatization with phenylisothiocyanate. Analytical Biochemistry 136 65-74. 

The reaction of troponephenylhydrazone with carbon disulphide afforded the bicyclic thiazole (37) in quantitative yield. iV-methoxytroponimine when treated with phenylisothiocyanate afforded a mixture of cycloheptatriene derivatives (38a) and (38b). Both of these reactions proceed via an [8+2] cycloaddition <95H1675>. 

Figure 4-6. The Edman reaction. Phenylisothiocyanate derivatizes the amino-terminal residue of a peptide as a phenylthiohydantoic acid. Treatment with acid in a nonhydroxylic solvent releases a phenyithiohydantoin, which is subsequently identified by its chromatographic mobility, and a peptide one residue shorter. The process is then repeated.

Abbreviations DEPC, diethylpyrocarbonate DCCD, Af.iV -dicyclohexylcarbodiimide EEDQ, N-ethyoxycarbonyl-2-ethoxy-1,2-dihydroquinoline NEM, A-ethylmaleimide PAO, phenylarsine oxide NPM, IV-phenylmaleimide PLP, pyridoxal phosphate DIDS, diisothiocyanostilbene disulfonate PITC, phenylisothiocyanate. 

A drawback to conventional amino analysis by chromatography is the need for pre- or post-column derivatization to improve sensitivity. Ninhy-drin, the reagent originally applied for detection, has been increasingly displaced by other reagents such as phenylisothiocyanate,71 9-fluorenylethyl chloroformate,72 and o-phthaldialdehyde (OPA). OPA allows fluorimetric detection, which offers the potential for greater sensitivity.73 A limitation of OPA is that it doesn t derivatize secondary amines, so an additional reaction must be added for proline detection. And, as noted for amine analysis in section A5.4.2, such derivatization adds to the analysis time and may yield unstable products. 

Figure 7.5 The Edman degradation method, by which the sequence of a peptide/polypeptide may be elucidated. The peptide is incubated with phenylisothiocyanate, which reacts specifically with the N-terminal amino acid of the peptide. Addition of 6 mol l-1 HCl results in liberation of a phenylthiohydantoin-amino acid derivative and a shorter peptide, as shown. The phenylthiohydantoin derivative can then be isolated and its constituent amino acid identified by comparison to phenylthiohydantoin derivatives of standard amino acid solutions. The shorter peptide is then subjected to a second round of treatment, such that its new amino terminus may be identified. This procedure is repeated until the entire amino acid sequence of the peptide has been established...

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