Abstract A synthesis of ( S )‐isothiazolidine‐1,1‐dioxide‐3‐carboxylic acid ( 2 ), the sulphonamido analogue of pyroglutamic acid, is reported. The protocol of its insertion into a peptide molecule, including protection and deprotection steps, is also described.
A sensitive method for spectrophotometric determination of methimazole is based on the reaction of this compound with 2,3-dichloro-1,4-naphtoquinone in presence of ammonia. The colour thus formed is stable, reproducible and linear in the range 0,4 to 4 micrograms/ml of methimazole concentration. This method has been employed successfully for estimation of the antithyroid drug in plasma sample with good recovery (75 +/- 2%). The colour is due to formation of a red compound of molecular formula C14H11O2N3S, deduced from elemental analysis and mass spectrum.
Six tripeptides incorporating acidic amino acid residues were prepared for investigation as activators of β- and γ-carbonic anhydrases (CAs, EC 4.2.1.1) from the pathogenic bacteria Vibrio cholerae, Mycobacterium tuberculosis, and Burkholderia pseudomallei. The primary amino acid residues that are involved in the catalytic mechanisms of these CA classes are poorly understood, although glutamic acid residues near the active site appear to be involved. The tripeptides that contain Glu or Asp residues can effectively activate VchCAβ and VchCAγ (enzymes from V. cholerae), Rv3273 CA (mtCA3, a β-CA from M. tuberculosis) and BpsCAγ (γ-CA from B. pseudomallei) at 0.21–18.1 µM levels. The position of the acidic residues in the peptide sequences can significantly affect bioactivity. For three of the enzymes, tripeptides were identified that are more effective activators than both l-Glu and l-Asp. The tripeptides are also relatively selective because they do not activate prototypical α-CAs (human carbonic anhydrases I and II). Because the role of CA activators in the pathogenicity and life cycles of these infectious bacteria are poorly understood, this study provides new molecular probes to explore such processes.
The 10-membered cyclotripeptide cyclo(-Me beta Ala-Phe-Pro) 3 and its diastereoisomer cyclo(-Me beta Ala-Phe-DPro-) 4 have been synthesized under mild cyclization conditions starting from linear precursors containing C-terminal proline. The crystal and molecular structure of the two models has been determined by X-ray crystallography. Analysis of the NMR spectra supported by NOE data clearly indicates that the conformations found in the crystals are retained in solution. Both cyclotripeptides exhibit a cis-cis-trans backbone conformation. The two tertiary peptide bonds, at the proline and Me beta Ala nitrogen atoms, adopt a cis conformation whereas the CO-NH junctions are trans in both the models. The deviations from planarity of the peptide units vary from delta omega values of ca. 18 degrees for the Pro-Me beta Ala and DPro-Me beta Ala bonds to ca. 7 degrees for Phe-Pro and Phe-DPro bonds. Relevant conformational details of 3 and 4, as revealed by X-ray and NMR analysis, are reported. Crystals of 3 are monoclinic: P2(1), a = 5.317(2), b = 17.059(6), c = 9.514(3) A, beta = 99.18(3), Z = 2. The final R and Rw are 0.054 and 0.071 respectively. Crystals of 4 are orthorhombic: P2(1)2(1)2(1), a = 8.797(2), b = 19.440(9), c = 21.605(10) A, Z = 8. The final R and Rw are 0.069 and 0.104 respectively.
