The preparation of protected fragments of lysozyme for semisynthesis.
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This paper reports the development of methods for preparing tryptic fragments of hen's-egg lysozyme in an appropriate state of protection for use in the chemical synthesis of modified polypeptides. 1. We describe the cleavage of the disulphide bridges of the enzyme and the simulatneous protection of the liberated thiol groups by S-sulphonation. Lysozyme resisted the usual conditions for this reaction. We have confirmed the stability of the S-sulphonyl group to the conditions met in peptide synthesis. 2. We describe the reversible protection of the amino groups of the enzyme by reaction with various anhydrides of 1,2-dicarboxylic acids. We conclude that 2-methylmaleic anhydride and exo-cis-3,6-endoxo-delta4-tetrahydrophthalic anhydride are unsuitable for our purpose but that maleic anhydride can, in spite of certain drawbacks, be used. 3. We describe the tryptic cleavage of the thiol- and amino-protected protein and the separation of the fragments. 4. We describe the reversible protection of the carboxylic acid groups (including the specific deprotection of the alpha-carboxyl group), the imidazolyl group and the aloph-amino groups of the fragments. Several alternative groups have been evaluated for most of these purposes. The side-chain amides did not present any serious problem of libility, 5. We describe experiments on the stability of the side chain of tryptophan, both protected by formylation and unprotected, to the acid conditions needed for the deprotection of the other functional groups in the peptide. We conclude that protection of tryptophan is unnecessary. We suggest that most of the methods described are of general application in peptide semisynthesis by fragment condensation. An Appendix is included to which points 6-ll appertain... (+info)
Methylation of 4-hydroxycoumarin with diazomethane.
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4-Hydroxycoumarin was methylated with diazomethane. A mixture of 4-methoxycoumarin and 2-methoxychromone was separated chromatographically. (+info)
Differences in the pharmacological properties of rat and chicken brain fatty acid amidohydrolase.
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The pharmacological properties of fatty acid amidohydrolase (FAAH) were investigated in brains of 35-day-old chickens, since nothing is known about the enzyme in avian species. FAAH activity towards both [(3)H]-palmitoylethanolamide (PEA) [K(M)=1.5 microM] and [(3)H]-anandamide (AEA) [K(M)=5.4 microM] was demonstrated in the chicken brains. The chicken FAAH was inhibited by the substrate analogues oleyl trifluoromethylketone (OTMK) and diazomethylarachidonyl ketone (DAK) with similar potencies to the rat FAAH. However, in contrast to the rat brain, phenylmethylsulphonyl fluoride (PMSF) and the enantiomers of ibuprofen had very weak effects on chicken brain FAAH. Indomethacin and niflumic acid were found to inhibit rat brain AEA hydrolysis. The inhibition by indomethacin was reversible and competitive, with a K(i) value of 120 microM. Chicken FAAH was less sensitive to indomethacin than its rodent counterpart, but the inhibition was also competitive (K(i)). It is concluded that chicken FAAH activity has different pharmacological properties to its rodent counterpart. (+info)
Methylene as a possible universal footprinting reagent that will include hydrophobic surface areas: overview and feasibility: properties of diazirine as a precursor.
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Methylene is one of, if not the, most reactive organic chemical known. It has a very low specificity, which makes it essentially useless for synthesis, but suggests a possible role in protein footprinting with special importance in labeling solvent accessible nonpolar areas, identifying ligand binding sites, and outlining interaction areas on protomers that form homo or hetero oligomers in cellular assemblies. The singlet species is easily and conveniently formed by photolysis of diazirine. The reactions of interest are insertion into C-H bonds and addition to multiple bonds, both forming strong covalent bonds and stable compounds. Reaction with proteins and peptides is reported even in aqueous solutions where the vast majority of the reagent is used up in forming methanol. Species containing up to 5 to 10 extra :CH2 groups are easily detected by electrospray mass spectroscopy. In a mixture of a 14 Kd protein and a noninteracting 1.7 Kd peptide, the distribution of mass peaks in the electrospray spectra was close to that expected from random modification of the estimated solvent accessible area for the two molecules. For analysis at the single residue level, quantitation at labeling levels of one 13CH2 group per 10 to 20 kDa of protein appears to be possible with isotope ratio mass spectroscopy. In the absence of reactive solvents, photolysis of diazirine produces oily polymeric species that contain one or two nitrogen atoms, but not more, and are water soluble. (+info)
Characterization of outer membrane proteins in Chlamydia trachomatis LGV serovar L2.
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We used a photoactivatable, lipophilic reagent, 3'-(trifluoromethyl)-3-(m-[125I]iodophenyl)diazirine, to label proteins in the outer membrane of elementary bodies of Chlamydia trachomatis LGV serovar L2 and mass spectrometry to identify the labeled proteins. The identified proteins were polymorphic outer membrane proteins E, G, and H, which were made late in the developmental cycle, the major outer membrane protein, and a mixture of 46-kDa proteins consisting of the open reading frame 623 protein and possibly a modified form of the major outer membrane protein. (+info)
Separation by thin-layer chromatography and structure elucidation of bilirubin conjugates isolated from dog bile.
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1. A system for separation of bile pigments by t.l.c. and for their structure elucidation is presented. Separated bile pigments are characterized by t.l.c. of derived dipyrrolic azopigments. 2. At the tetrapyrrolic stage hydrolysis in strongly alkaline medium followed by t.l.c. demonstrates the presence of bilirubin-IIIalpha, -IXalpha and -XIIIalpha and allows assessment of their relative amounts. 3. Most structural information is derived from analysis of dipyrrolic azopigments. Such derivatives, obtained by treatment of separated bile pigments with diazotized ethyl anthranilate, were separated and purified by t.l.c. Micro methods showed (a) the nature of the dipyrrolic aglycone, (b) the nature of the bonds connecting aglycone to a conjugating group, (c) the ratio of vinyl/isovinyl isomers present in the aglycone and, (d) the nature of the conjugating groups (by suitable derivative formation and t.l.c. with reference to known compounds). 4. In bile of normal dogs at least 20 tetrapyrrolic, diazo-positive bile pigments could be recognized. Except for two pigments the tetrapyrrolic nucleus corresponded predominantly to bilirubin-IXalpha. All conjugated pigments had their conjugating groups connected in ester linkage to the tetrapyrrolic aglycone, Apart from bilirubin-IXalpha, monoconjugates and homogeneous and mixed diconjugates of bilirubin were demonstrated; conjugating groups of major importance were xylose, glucose and glucuronic acid. 5. Bilirubin isomer determination on native bile and isolated bile pigments, and dipyrrole-exchange assays with [14C8]bilirubin indicated (a) that the conjugates pre-exist in bile, and (b) that no significant dipyrrole exchange occurs during isolation of the pigments. (+info)
Probing protein conformation with a minimal photochemical reagent.
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3H-diazirine (3H-DZN), a photoreactive gas similar in size to water, was used to probe the topography of the surface and inner space of proteins. On photolysis 3H-DZN generates 3H-methylene carbene, which reacts unselectively with its molecular cage, inserting even into C-H bonds. Labeling of bovine alpha-lactalbumin (alpha-LA, MW: 14,200) with 1 mM (3)H-DZN yielded 0.0041 mol CH2/mol of protein, in agreement with the expectation for an unspecific surface-labeling phenomenon. The cooperative urea-induced unfolding of alpha-LA, as monitored by the extent of 3H-methylene labeling, agrees with that measured by circular dichroism spectroscopy in the far and near ultraviolet regions. At 8 M urea, the unfolded state U was labeled 25-30% more than the native state N primarily because of the increase in the accessible surface area (ASA) of the protein occurring upon unfolding. However, this result lies below the approximately 100% increment expected from theoretical estimates of ASA of state U. Among other factors, most likely the existence of a residual structure in U, that involves helices H2 and H4 of the alpha subdomain, might account for this fact, as shown by a comparative analysis of peptide labeling patterns of N and U samples. In this paper, we demonstrate the usefulness of the 3H-methylene labeling method to monitor conformational transitions and map solvent accessibility along the polypeptide sequence, thus opening the possibility of outlining structural features of nonnative states (i.e., denatured states, molten globule). We anticipate that this technique also would help to identify ligand binding and oligomerization sites in proteins. (+info)
Irreversible inhibition of the bacterial cysteine protease-transpeptidase sortase (SrtA) by substrate-derived affinity labels.
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We report on the first synthesis, kinetic evaluation and application of novel substrate-derived inhibitors against the Staphylococcus aureus cysteine protease-transpeptidase, sortase (staphylococcal surface protein sorting A, SrtA). The peptidyl-diazomethane and peptidyl-chloromethane analogues, Cbz (benzyloxycarbonyl)-Leu-Pro-Ala-Thr-CHN(2) (I) and Cbz-Leu-Pro-Ala-Thr-CH(2)Cl (II) respectively were found to act as time-dependent irreversible inhibitors of recombinant sortase (SrtA(DeltaN)). The peptidyl-chloromethane analogue (II) was the most powerful with an inhibitor specificity constant (k(i)/K(i)) of 5.3x10(4) M(-1).min(-1), approx. 2-fold greater than that determined for the peptidyl-diazomethane (I). Additionally, using Western-blot analysis, we have been able to demonstrate that a biotinylated version of the peptidyl-diazomethane analogue, biotin-Ahx (aminohexanoyl)-Leu-Pro-Ala-Thr-CHN(2) (III), can be used as an affinity label to detect the presence of wild-type SrtA in crude cell lysates prepared from S. aureus. (+info)