Protected peptide p-nitroanilides by solid-phase synthesis

Summary Peptidep-nitroanilides (peptidepNAs) have found wide application as chromogenic substrates. An improved SPPS method to synthesize rapidly and in good yield a broad range of peptidepNAs under mild conditions will be presented here. To obtain a suitable carrier, the (4-aminophenyl)aminocarbonyloxy derivatives of Wang resin and Sasrin were synthesized. SPPS employing Fmoc/tBu-based protection followed by acidolytic cleavage yielded the (protected) peptidep-aminoanilide which was oxidized with sodium perborate in acetic acid to yield the (protected) peptidepNA. Side-chain protection proved to be advantageous. Acid-labile peptidepNAs such as the proteasome substrate Z-Glu(OtBu)-Ala-Leu-pNA thus can be obtained directly. The behavior of Cys, Met, Tyr and Trp being susceptible towards oxidation was studied more closely. A preliminary account of this work was presented at the 8th Int. Conf. Polymer-Based Technology, Ma'ale Hachamisha, Israel, June 28–July 3, 1998     

Studies on peptides CLVIII. Model experiments for the synthesis of open-chain unsymmetrical cystine-peptides

Treatment of a mixture of Cys(R)(O) and Cys(R) with an acid was found to generate cystine in fairly good yields, when suitable R, R, and an acid were selected. An unsymmetrical cystine peptide was prepared by treatment of a mixture of Z(OMe)-Cys(R) (0)-Ala-NH₂ (R=Acm or MBzl) and Z(OMe)-Cys(MBzl)-Gly-OBzl with TFA or 1 M TFMSA/TFA.³ Oxytocin was obtained in an excellent yield by TFA treatment of the protected peptide containing Cys(Acm)(0) and Cys(MBzl). Thus, formation of the disulfide bond was found feasible at the position of Cys(R) (0).The following abbreviations are used Boc t-butyloxycarbonyl - Z(OMe) p-methoxybenzyloxycarbonyl - MBzl p-methoxybenzyl - Acm acetamidomethyl - Bzl benzyl - Ad l-adamantyl - tBu t-butyl - TFA trifluoroacetic acid - TFMSA trifluoromethanesulfonic acid - TMSOTf trimethylsilyl trifluoromethane sulfonate     

Mature ferredoxin-NADP reductase with a glutaminyl residue at N-terminus from spinach chloroplasts

When 35%-acetone extract of spinach chloroplasts was separated by SDS-PAGE, ferredoxin-NADP reductase (FNR) appeared as a single band at a molecular mass of 35 kDa. After the polypeptides on the SDS-PAGE plate were electroblotted onto PVDF membrane, the FNR band was cut out and analyzed for N-terminal structure in a gas-phase protein sequencer. Two different FNR peptides were identified: one with glutamine at its N-terminus (Gln-FNR) and the other with -pyroglutamic acid (tFNR) fraction was extracted from chloroplasts with their loosely bound FNR (lFNR) fraction removed in advance. The tFNR fraction contained Gln-FNR only. The Gln-FNR could be highly purified by affinity chromatography using a ferredoxin column. The purified Gln-FNR was digested with arginyl endopeptidase for peptide mapping and partial sequence analysis. Primary structure of Gln-FNR differed from that of lFNR loosely bound FNR - tFNR tightly bound FNR - -pyroglutamic acid at N-terminus     

p‐Methoxyphenol: A potent and effective scavenger for solid‐phase peptide synthesis

During the final step of t‐Boc/Bzl, solid‐phase peptide synthesis (SPPS)‐protecting groups from amino acids (aa) side chains must be removed from the target peptides during cleavage from the solid support . These reaction steps involve hydrolysis with hydrogen fluoride (HF) in the presence of a nucleophile (scavenger), whose function is to trap the carbocations produced during S_N1‐type reactions. Five peptide sequences were synthesised for evaluating p‐methoxyphenol effectiveness as a potent scavenger. After the synthesis, the resin–peptide was then separated into two equal parts to be cleaved using two scavengers: conventional reactive p‐cresol (reported in the literature as an effective acyl ion eliminator) and p‐methoxyphenol (hypothesised as fulfilling the same functions as the routinely used scavenger). Detailed analysis of the electrostatic potential map (EPM) revealed similarities between these two nucleophiles, regarding net atomic charge, electron density distribution, and similar pKa values. Good scavenger efficacy was observed by chromatography and mass spectrometry results for the synthesised molecules, which revealed that p‐methoxyphenol can be used as a potent scavenger during SPPS by t‐Boc/Bzl strategy, as similar results were obtained using the conventional scavenger.     

Transient Accumulation of Metabolic Intermediates of p-Cresol in the Culture Medium by a Pseudomonas sp. Strain A Isolated from a Sewage Treatment Plant

Summary Activated sludge from a sewage treatment plant in Kanpur, India, was screened for bacterial strains metabolizing p-cresol exclusively under aerobic conditions. One such isolate was identified to be belonging to the genus Pseudomonas based on morphological and physiological criteria as well as 16S ribosomal RNA gene sequence analysis. Two intermediates were identified from the culture medium during the growth phase of Pseudomonas sp. strain A that indicated that the strain degraded p-cresol via the protocatechuate (PCA) pathway. p-Cresol was rapidly converted into p-hydroxybenzaldehyde (PHB) during early growth phase, which was later utilized after p-cresol depletion. p-Hydroxybenzoate (PHBA) accumulation was observed during the later stages of exponential growth phase. Kinetic constants for the degradation of p-cresol were determined using Haldane’s model. High μ_max and inhibitory constant (K_I) values along with the observed accumulation of significant amounts of PHB in culture filtrates seem to indicate that the isolated Pseudomonas sp. strain A may be of potential use in biotransformations.     

Application of several types of substrates to ficin-catalyzed peptide synthesis

Summary. The capability of ficin, a cystine protease, to form peptide bonds was investigated using several types of N-Boc-amino acid phenyl and naphthyl esters as acyl donor components. Enzyme-catalyzed peptide synthesis was carried out under optimized reaction conditions of pH, acyl acceptor concentration and selection of the best yield organic solvent. It used a condensation of N-Boc-Ala-OpGu and Ala-pNA as a model reaction. The products were obtained in 72–96% yield using 10 different substrates, within a few minutes of reaction time. Authors’ address: Prof. Haruo Sekizaki, Faculty of Pharmaceutical Sciences, Health Sciences University of Hokkaido, Ishikari-Tobetsu, Hokkaido 061-0293, Japan     

Conventional and microwave‐assisted SPPS approach: a comparative synthesis of PTHrP(1–34)NH2

Attracted by the possibility to optimize time and yield of the synthesis of difficult peptide sequences by MW irradiation, we compared Fmoc/tBu MW‐assisted SPPS of 1–34 N‐terminal fragment of parathyroid hormone‐related peptide (PTHrP) with its conventional SPPS carried out at RT. MWs were applied in both coupling and deprotection steps of SPPS protocol. During the stepwise elongation of the resin‐bound peptide, monitoring was conducted by performing MW‐assisted mini‐cleavages and analyzing them by UPLC‐ESI‐MS. Identification of some deletion sequences was helpful to recognize critical couplings and as such helped to guide the introduction of MW irradiations to these stages. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.     

Complete synthesis of the bicyclic ring of a mutacin analog with orthogonally protected lanthionine via solid‐phase intracyclization

Mutacin 1140 (MU1140) is a naturally occurring lantibiotic derived from posttranslational modifications of a ribosomally synthesized peptide during the fermentation of a bacterium called Streptococcus mutans, the etiological agent of dental cavities. A practical approach for chemically synthesizing lantibiotics would be a valuable tool to expand the MU1140 library with additional semisynthetic analogs. In turn, an expanded library may prove useful to explore additional therapeutic indications for this pipeline of novel compounds. In this work, orthogonally protected lanthionine analogs were synthesized via an aziridine ring opening strategy. This lanthionine was utilized to synthesize a cysteamine (Cya) instead of the (S)‐aminovinyl‐D‐cysteine (AviCys) that is naturally found in MU1140. The Cya containing bicyclic C/D ring of MU1140 was synthesized by Fmoc solid‐phase peptide synthesis (SPPS). The linear peptides were synthesized using OPfp ester derivatives and using various common coupling reagents such as COMU and TCTU. The linear peptide was intracyclized with DEPBT to construct the so‐called bicyclic ring C/D. This is the first report on the complete chemical synthesis of the bicyclic C/D ring of a MU1140 analog using orthogonally protected lanthionines using SPPS.     

Xanthoxin levels and metabolism in the wild-type and wilty mutants of tomato

Using ¹³C-labelled internal standards and gas chromatography-mass spectrometry/multiple-ion monitoring the levels of xanthoxin (Xan) and 2-trans-xanthoxin (t-Xan) have been determined in stressed and non-stressed leaves of wildtype tomato (Lycopersicon esculentum Mill cv. Ailsa Craig), and the wilty mutants, notabilis (not), flacca (flc) and sitiens (sit). Levels of Xan were very low in all tissues. Ratios of t-Xan: Xan ranged from 10:1 to <500:1. In the wild-type and flc, t-Xan levels increased following stress. The results from feeding experiments using [¹³C]Xan and t-Xan demonstrated that whilst wild-type and not plants readily converted Xan into abscisic acid (ABA), flc and sit plants converted only a small amount of applied Xan into ABA. In all plants t-Xan was not converted into ABA. These results indicate that the flc and sit mutants are impaired in ABA biosynthesis because they are unable to convert Xan into ABA, whereas the not mutant is blocked at a metabolic step prior to Xan. Another possible ABA precursor, ABA-1,4-trans-diol (ABA-t-diol) was found to occur in wild-type and mutant tissue. All four tissues could convert [²H]ABA-t-diol to ABA. Incubation of stressed leaves in the presence of ¹⁸O₂ provided evidence consistent with Xan and ABA originating via oxidative cleavage of a xanthophyll such as violaxanthin.Abbreviations ABA abscisic acid - ABA-t-diol abscisic acid-1,4-trans-diol - DDC sodium diethyldithiocarbamate - FW fresh weight - GC-MS gas chromatography-mass spectrometry - i.d. internal diameter - MIM multiple-ion monitoring - PA phaseic acid - Xan xanthoxin - flc flacca - not notabilis - sit sitiens     

Purification and properties of an aminopeptidase from the mid-gut gland of scallop (Patinopecten yessoensis)

An aminopeptidase was isolated from the mid-gut gland of Patinopecten yessoensis. The enzyme was purified from an acetone-dried preparation by extracting, ammonium sulfate precipitation, Hi-Load Q column chromatography, isoelectric focusing, and POROS HP2 and HQ column chromatography. The molecular weight of the enzyme was estimated to be 61 kDa by SDS-polyacrylamide gel electrophoresis and 59 kDa by gel permeation chromatography. The isoelectric point of the enzyme was 5.2 and the optimum pH was 7.0 toward leucine p-nitroanilide (Leu-pNA). The enzyme was inhibited by o-phenanthroline. The activity of the enzyme treated with o-phenanthroline was completely recovered by adding excess Zn²⁺. Relative hydrolysis rates of amino acid-pNAs and amino acid-4-methylcoumaryl-7-amides (amino acid-MCAs) indicated that the enzyme preferred substrates having Ala or Met as an amino acid residue. The enzyme had a K_m of 32.2 μM and k_cat of 29.5 s⁻¹ with Ala-pNA and a K_m of 11.1 μM and k_cat of 9.49 s⁻¹ with Ala-MCA. The enzyme sequentially liberated amino acids from the amino-termini of Ala–Phe–Tyr–Glu.     

Construction and co-expression of polycistronic plasmid encoding d-hydantoinase and d-carbamoylase for the production of d-amino acids

d-Hydantoinase and d-carbamoylase genes from Agrobacterium radiobacter TH572 were cloned by polymerase chain reaction (PCR). The plasmid pUCCH3 with a polycistronic structure that is controlled by the native hydantoinase promoter was constructed to co-express the two genes and transformed into Escherichia coli strain JM105. To obtain the highest level of expression of the d-carbamoylase and avoid intermediate accumulation, the d-carbamoylase gene was cloned closer to the promoter and the RBS region in the upstream of it was optimized. This resulted in high active expression of soluble d-hydantoinase and d-carbamoylase that is obtained without any inducer. Thus, by the constitutive recombinant JM105/pUCCH3, d-p-hydroxyphenylglycine (d-HPG) was obtained directly with 95.2% production yield and 96.3% conversion yield.     

Expression of Biologically Active Crustacean Hyperglycemic Hormone (CHH) of <Emphasis Type="Italic">Penaeus monodon</Emphasis> in <Emphasis Type="Italic">Pichia pastoris</Emphasis>

Crustacean hyperglycemic hormone (CHH), molt-inhibiting hormone (MIH), and gonad-inhibiting hormone (GIH) are members of a major peptide family produced from the X-organ sinus gland complex in the eyestalk of crustaceans. This peptide family plays important roles in controlling several physiologic processes such as regulation of growth and reproduction. In this study the complementary DNA encoding a peptide related to the CHH/MIH/GIH family (so-called Pem-CMG) of the black tiger prawn Penaeus monodon was successfully expressed in the yeast Pichia pastoris under the control of the AOX1 promoter. The recombinant Pem-CMG was secreted into the culture medium using the -factor signal sequence; of Saccharomyces cerevisiae without the Glu-Ala-Glu-Ala spacer peptide. The amino terminus of the recombinant Pem-CMG was correctly processed as evidenced by amino-terminal peptide sequencing. The recombinant Pem-CMG was purified by reverse-phase high-performance liquid chromotography and used in a biological assay for CHH activity. The final yield of the recombinant Pem-CMG after purification was 260 µg/L of the culture medium. Both crude and purified recombinant Pem-CMG produced from P. pastoris showed the ability to elevate the glucose level in the hemolymph of eyestalk-ablated P. monodon, which demonstrates that Pem-CMG peptide functions as hyperglycemic hormone in P. monodon.     

Evaluation of two new coupling agents for incorporation of α,α-dialkylamino acids, such as α-methylalanine, in solid-phase peptide synthesis

Summary The introduction of solid-phase peptide synthesis (SPPS) has greatly facilitated the preparation of peptides containing proteinaceous amino acids. Less common, sterically hindered ,-dialkylamino acids, such as -methylalanine (MeA, aminoisobutyric acid, Aib), have proven a synthetic challenge for incorporation by this approach, especially when present in contiguous sequences. Solution protocols, utilizing highly reactive intermediates such as oxazalones, are generally used during the preparation of peptaibol antibiotics such as alamethicin, emerimicin, etc. which contain such contiguous sequences. Two recently developed coupling strategies (O-(7-azabenzotriazol-1-yl)-1,1,3,3-tetramethyluronium hexafluorophosphate, HATU, and Fmoc-protected amino acid fluorides) allow peptides comprising contiguous sequences of ,-dialkylamino acids to be prepared using SPPS. The present study evaluates the relative merits of these two methods on a set of difficult peptides containing oligo-MeA sequences.     

Enantioconvergent bioconversion of p-chlorostyrene oxide to (R)-p-chlorophenyl-1,2-ethandiol by the bacterial epoxide hydrolase of Caulobacter crescentus

The enantioselective hydrolysis of eight racemic styrene oxide derivatives has been investigated by using the recombinant cell containing epoxide hydrolase (EH) of Caulobacter crescentus. Some styrene oxide derivatives were hydrolyzed via enantioconvergent manner so that enantiopure diol products could be prepared with a 100% theoretical yield. The recombinant cell containing C. crescentus EH exhibited an ability to hydrolyze racemic p-chlorostyrene oxide the most enantioconvergently, thus affording the formation of the corresponding (R)-diol with enantiomeric excess (ee) as high as 95% and a 72% yield in preparative-scale (16.8 g/l) bioconversion.     

Cellodextrin utilization and β-glucosidase production by Bacteroides polypragmatus

Bacteroides polypragmatus, a mesophilic obligate anaerobe, was shown to simultaneously ferment glucose and cellobiose giving ethanol as a major metabolic end-product. A mixture of higher cellodextrins was also utilized. The bacterium produced a -glucosidase with a pI value of 4.2 and a molecular weight of approximately 100000 daltons. The enzyme was intracellular and functioned optimally at pH 7. The K _m values obtained with p-nitrophenyl--d-glucoside and cellobiose as substrates were 0.73 mM and 100 mM, respectively. The enzyme was quite stable at elevated temperatures; in the presence of 10% glycerol (v/v), it had a half-life of 4 h at 55°C. It was also stable during long-term storage at either 4°C or-20°C, provided that 10% (v/v) glycerol was added to preparations maintained at-20°C.Abbreviations HPLC high-performance liquid chromatography - IEF isoelectric focusing - pNPG p-nitrophenyl--d-glucoside NRCC No. 25676     

Production and characterization of β-glucosidases from different Aspergillus strains

-D-Glucosidase enzymes (-D-glucoside glucohydrolase, EC 3.2.1.21) from different Aspergillus strains (Aspergillus phoenicis, A. niger and A. carbonarius) were examined with respect to the enzyme production of the different strains using different carbon sources and to the effect of the pH and temperature on the enzyme activity and stability. An efficient and rapid purification procedure was used for purifying the enzymes. Kinetic experiments were carried out using p-nitrophenyl -D-glucopyranoside (pNPG) and cellobiose as substrates. Two different fermentation methods were employed in which the carbon source was glucose or wheat bran. Aspergillus carbonarius proved to be the less effective strain in -glucosidase production. Aspergillus phoenicis produced the highest amount of -glucosidase on glucose as carbon source however on wheat bran A. niger was the best enzyme producer. Each Aspergillus strain produced one single acidic -glucosidase with pI values in the range of pH 3.52–4.2. There was no significant difference considering the effect of the pH and temperature on the activity and stability among the enzymes from different origins. The enzymes examined have only -glucosidase activity. The kinetic parameters showed that all enzymes hydrolysed pNPG with higher efficiency than cellobiose. This shows that hydrophobic interaction plays an important role in substrate binding. The kinetic parameters demonstrated that there was no significant difference among the enzymes from different origins in hydrolysing pNPG and cellobiose as the substrates.     

Grass lignin acylation: <Emphasis Type="Italic">p</Emphasis>-coumaroyl transferase activity and cell wall characteristics of C3 and C4 grasses

Grasses are a predominant source of nutritional energy for livestock systems around the world. Grasses with high lignin content have lower energy conversion efficiencies for production of bioenergy either in the form of ethanol or to milk and meat through ruminants. Grass lignins are uniquely acylated with p-coumarates (pCA), resulting from the incorporation of monolignol p-coumarate conjugates into the growing lignin polymer within the cell wall matrix. The required acyl-transferase is a soluble enzyme (p-coumaroyl transferase, pCAT) that utilizes p-coumaroyl-CoenzymeA (pCA-CoA) as the activated donor molecule and sinapyl alcohol as the preferred acceptor molecule. Grasses (C3and C4) were evaluated for cell wall characteristics; pCA, lignin, pCAT activity, and neutral sugar composition. All C3 and C4 grasses had measurable pCAT activity, however the pCAT activities did not follow the same pattern as the pCA incorporation into lignin as expected.