Synthesis and biological activity of oxytocin analogues containing unnatural amino acids in position 9: structure activity study

We report the solid phase synthesis and some pharmacological properties of 24 oxytocin (OT) analogues. Basic modifications at position 9 (introduction of l- or d-β-(2-thienyl)-alanine [L- or D-Thi], or l- or d-3-Pyridylalanine [l- or d-3-Pal]) were combined with d-tyrosine(OEthyl) [d-Tyr(Et)] or d-1-naphthylalanine [d-1-Nal] in position 2 and β-mercaptopropionic acid (Mpa) in position 1 modifications in altogether 14 analogues. Additionally, 8 analogues having α-aminoisobutyric acid [Aib] or d-1,2,3,4-tetrahydroisoquinoline-3-carboxylic acid (d-Tic) or diethylglycine (Deg) in position 9 and d-Tyr(Et) or d-1-Nal or d-Tic in position 2 and Mpa or Pen (ββ-dimethylcysteine) in position 1 were prepared. Two of these analogues have one more modification in position 6, i.e. Pen. Furthermore, two analogues having Mpa in position 1 and d-Tyr(Et) or d-1-Nal in position 2 were prepared for comparison purposes. The analogues were tested for rat uterotonic activity in vitro, in the rat pressor assay and for binding affinity to human OT receptor. The analogue having the highest anti-oxytocic activity was [Mpa¹, d-Tyr(Et)², Deg⁹]OT (pA₂ = 8.68 ± 0.26); this analogue was also selective.     

Synthesis of new vasotocin analogues: effects on renal water and ion excretion in rats

Vasopressin and nonmammalian hormone vasotocin are known to increase the water permeability of mammalian collecting ducts, frog skin and the urinary bladder. Neurohypophysial nonapeptides have also been shown to interfere with the regulation of renal ion transport. The subject of this study was a search for vasopressin and vasotocin analogues with selective effects on renal water, sodium and potassium excretion. During this study, we synthesised the following peptides: 13 vasotocin analogues modified at positions 4 (Thr or Arg), 7 (Gly or Leu) and 8 (d ‐Arg, Lys or Glu); 4 vasopressin analogues modified at positions 4 and 8; and 9 peptides shortened or extended at the C‐terminal or with substitutions for Gly‐NH₂. Most of these peptides had mercaptopropionic acid (Mpa) instead of Cys in position 1. The effects of these nonapeptides on renal water, sodium and potassium transport were evaluated in in vivo experiments using Wistar rats. Some nonapeptides possessed antidiuretic, natriuretic and kaliuretic activities ([Mpa¹]‐arginine vasotocin, [Mpa¹, homoArg⁸]‐vasotocin, [Mpa¹, Thr⁴]‐arginine vasotocin and [Mpa¹, Arg⁴]‐arginine vasopressin). Substitutions at positions 4 and 8 increased the selectivity of peptide actions. The antidiuretic [d ‐Arg⁸]‐vasotocin analogues had no effects on sodium excretion. [Mpa¹, Arg⁴]‐arginine vasotocin was antidiuretic and kaliuretic but not natriuretic. [Mpa¹, Glu⁸]‐oxytocin had weak natriuretic activity without any effects on water and potassium transport. In accordance with the data obtained, synthesised vasotocin analogues could be good candidates for pharmaceuticals selectively regulating renal sodium and potassium transport, which is of clinical importance. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

Biochemical pharmacology of total retro-inverso analogues of bradykinin and angiotensin II: Molecular recognition by G-protein-coupled receptors and angiotensin converting enzyme

Summary Total retro-inverso (TRI) analogues of bradykinin (BK), the B_2a -selective kinin antagonistd-Arg⁰[Hyp³,d-Phe⁷,Leu⁸]BK, angiotensin II (AT II) and the AT II antagonist Saralasin ([Sar¹, Val⁵, Ala⁸]AT II) were prepared by conventional solid-phase synthesis. Molecular recognition of TRI peptidomimetics by G-protein-coupled receptors was studied by competitive radioligand displacement experiments. TRI analogues ofd-Arg⁰[Hyp³,d-Phe⁷,Leu⁸]BK specifically bound to the kidney medulla B_2a bradykinin receptor with affinities (K _d ) ranging from 64 μM to 4 μM. Conversely, TRI analogues of BK, AT II and Saralasin did not bind to either the B_2a bradykinin receptor or the rat AT_1a AT II receptor, respectively. These studies indicate that the TRI strategy is more compatible with the synthesis of antagonists than ‘agonists’. Three TRI peptidomimetics ofd-Arg⁰[Hyp³,d-Phe⁷,Leu⁸]BK were weak inhibitors of angiotensin converting enzyme. All other TRI peptidomimetics had no effect upon ACE activity. These data endorse the utility of the TRI strategy for the synthesis of protease-resistant antagonists of peptide hormones and neuropeptides.     

Structural elucidation of Leuprolide and its analogues in solution: insight into their bioactive conformation

Leuprolide [dLeu⁶, NHEt¹⁰]GnRH, a potent gonadotropin-releasing hormone (GnRH) agonist, is used in a wide variety of hormone-related diseases like cancer and endometriosis. In this report, the conformational behaviour of Leuprolide and its linear synthetic analogues, namely [Tyr⁵(OMe), dLeu⁶, Aze⁹, NHEt¹⁰]GnRH (1) and [Tyr⁵(OMe), dLeu⁶, NHEt¹⁰]GnRH (2) have been studied in DMSO and H₂O solutions by means of 2D nuclear magnetic resonance (NMR) experiments and detailed molecular dynamics (MD) simulations. The aim was to identify the conformational requirements of GnRH analogues for agonistic activity. This approach is of value as no crystallographic data are available for the GnRH receptor (G protein-coupled receptor, GPCR). The NOE data indicate the existence of a β-turn type I in the 2–5 segments of Leuprolide and its linear analogues in the case of using DMSO-d₆ as solvent, whereas a β-turn type II in the 3–6 segments is indicated using D₂O as solvent. The final structures fulfil the conformational requirements that are known, in the literature, to play a significant role in receptor recognition and activation. Finally, the linear analogues (1) and (2) are biologically active when tested against the human breast cancer cell line, MCF-7.     

Single Taste Stimuli Elicit Either Increases or Decreases in Intracellular Calcium in Isolated Catfish Taste Cells

Taste cells are specialized epithelial cells that respond to stimulation with release of neurotransmitters onto afferent nerves that innervate taste buds. In analogy to neurotransmitter release in other cells, it is expected that neurotransmitter release in taste cells is dependent on an increase in intracellular Ca²⁺ ([Ca²⁺] _i ). We have studied changes in [Ca²⁺] _i elicited by the taste stimuli l- and d-arginine in isolated taste cells from the channel catfish (Ictalurus punctatus). In a sample of 119 cells, we found 15 cells responding to l-arginine, and 12 cells responding to d-arginine with an increase in [Ca²⁺] _i . The response to l-arginine was inhibited by equimolar d-arginine in cells where d-arginine alone did not cause a change in [Ca²⁺] _i , which is consistent with mediation of this response by a previously characterized l-arginine-gated nonspecific cation channel antagonized by d-arginine [31]. However, we also found that these taste stimuli elicited decreases in [Ca²⁺] _i in substantial number of cells (6 for l-Arg, and 2 for d-Arg, n= 119). These observations suggest that stimulation of taste cells with sapid stimuli may result in simultaneous excitation and inhibition of different taste cells within the taste bud, which could be involved in local processing of the taste signal. Received: 25 May 1995/Revised: 29 September 1995     

Alterations in the outer wall architecture caused by the inhibition of mycoside C biosynthesis inMycobacterium avium

Radiolabeled amino acids (l-U[C¹⁴]alanine,d-U[C¹⁴]alanine,l-U[C¹⁴]threonine, andl-U[C¹⁴]phenylalanine) were exponentially incorporated into the trichloroacetic acid (TCA)-insoluble material (whole cells) ofMycobacterium avium during the first 30–60 min of labeling. Bacteria labeled for 48 h were extracted with chloroform-methanol (21 vol/vol). The thin layer chromatography (TLC) analysis of native lipids showed that mycoside C was labeled by the amino acids used.d-cycloserine (d-CS) and other amino acid analogs were examined as potential inhibitors of mycoside C biosynthesis. It was found thatd-CS caused about 27% inhibition, whereaso-,p-, andm-fluoro-dl-phenylalanine (Fl-phe) caused 80%–90% inhibition of the mycoside C biosynthesis. Judging from the data on inhibition experiments, it was concluded that the mycoside C biosynthesis started from the fatty acyl end and proceeded by the stepwise addition ofd-phenylalanine,d-allo-threonine, andd-alanine. Thed-alanyl-d-alanine peptidoglycan intermediate did not seem to serve as a donor ofd-alanine for mycoside C biosynthesis. Ultrastructural observation of the bacteria treated withd-CS showed only partial alteration of the outer wall layer, whereasm-Fl-phe treatment caused profound alterations. Successive transfers of the bacteria in growth medium supplemented withm-Fl-phe resulted in extensive disorganization of the outer layer.     

Biosynthesis of aromatic amino acids in Nocardia sp. 239: effects of amino acid analogues on growth and regulatory enzymes

Summary Further steps required for overproduction of aromatic amino acids by a mutant strain of Nocardia sp. 239 (Noc 87-13), unable to grow on l-phenylalanine as a sole carbon and energy source, were investigated. A number of analogues of the aromatic amino acids displayed severe inhibitory effects on the activities of regulatory enzymes in the biosynthetic pathway and growth of the organism in glucose mineral medium. l-Tryptophane analogues strongly inhibited 3-deoxy-d-arabino-heptulosonate 7-phosphate (DAHP) synthase activity. l-Tyrosine analogues especially inhibited DAHP synthase and chorismate mutase, whereas l-phenylalanine analogues strongly inhibited chorismate mutase and prephenate dehydratase activity. Addition of the aromatic amino acids and their precursors chorismate, 4-hydroxyphenylpyruvate, phenylpyruvate and anthranilate, to the medium counteracted the growth inhibitory effect of specific analogues. The data indicate that ortho- (OFP) and para-fluoro-d,l-phenylalanine (PFP), and l-phenylalanine amide, are the most suitable analogues for the isolation of feedback-inhibition-insensitive prephenate dehydratase mutants. Attempts to isolate l-tyrosine and l-trytophane auxotrophic mutants were only successful in the latter case, resulting in the selection of a stable anthranilate synthase-negative mutant (Noc 87-13-14). Uptake of aromatic amino acids in Nocardia sp. 239 most likely involves a common transport system. This necessitates the use of anthranilate, rather than l-trytophane, as a supplement during the isolation of l-tyrosine auxotrophic and OFP- and/or PFP-resistant mutant derivative strains of Noc 87-13-14. Offprint requests to: L. Dijkhuizen     

Incorporation of two18O atoms into a peptide during isoaspartyl repair reveals repeated passage through a succinimide intermediate

To study the mechanism of protein carboxyl methyltransferase-driven repair of age-damaged sites in polypeptides, a modell-isoaspartyl peptide,l-isotetragastrin, was enzymatically repaired to normall-tetragastrin in the presence of¹⁸O-enriched water. By this design, the enrichment of¹⁸O atoms in the peptide would reflect the number of passages through a hydrolyzable succinimide intermediate during formation of the repaired product. Mass determinations by FAB mass spectrometry revealed repaired peptide with two¹⁸O atoms incorporated, demonstrating that more than a single cycle of methylation and demethylation is necessary to ensure stoichiometric repair.Abbreviations HPLC high-pressure liquid chromatography - FAB fast atom bombardment - TFA trifluoroacetic acid - PCM proteind-aspartyl/L-isoaspartyl carboxyl methyltransfer-ase - l-Normal [l-Asp³]tetragastrin - l-Iso [L-isoAsp³]tetragastrin - d-Normal [d-Asp³]tetragastrin - d-Iso [d-isoAsp³]tetragastrin     

Interactions of vasopressin and oxytocin receptors with vasopressin analogues substituted in position 2 with 3,3′‐diphenylalanine – a molecular docking study

Vasopressin and oxytocin receptors belong to the superfamily of G protein‐coupled receptors and play an important role in many physiological functions. They are also involved in a number of pathological conditions being important drug targets. In this work, four vasopressin analogues substituted at position 2 with 3,3′‐diphenylalanine have been docked into partially flexible vasopressin and oxytocin receptors. The bulky residue at position 2 acts as a structural restraint much stronger in the oxytocin receptor (OTR) than in the vasopressin V2 receptor (V2R), resulting in a different location of the analogues in these receptors. This explains the different, either agonistic or antagonistic, activities of the analogues in V2R and OTR, respectively. In all complexes, the conserved polar residues serve as anchor points for the ligand both in OTR and V2R. Strong interactions of the C‐terminus of analogue II ([Mpa¹,d ‐Dpa²,Val⁴,d ‐Arg⁸]VP) with extracellular loop 3 may be responsible for its highest activity at V2R. It also appears that V2R adapts more readily to the docking analogues by conformational changes in the aromatic side chains triggering receptor activation. A weak activity at V1a vasopressin receptor appears to be caused by weak receptor–ligand interactions. Results of this study may facilitate a rational design of new analogues with the highest activity/selectivity at vasopressin and OTRs. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

Inhibitors of N α-acetyl-l-ornithine deacetylase: synthesis, characterization and analysis of their inhibitory potency

A series of N ^α-acyl (alkyl)- and N ^α-alkoxycarbonyl-derivatives of l- and d-ornithine were prepared, characterized, and analyzed for their potency toward the bacterial enzyme N ^α-acetyl-l-ornithine deacetylase (ArgE). ArgE catalyzes the conversion of N ^α-acetyl-l-ornithine to l-ornithine in the fifth step of the biosynthetic pathway for arginine, a necessary step for bacterial growth. Most of the compounds tested provided IC₅₀ values in the μM range toward ArgE, indicating that they are moderately strong inhibitors. N ^α-chloroacetyl-l-ornithine (1g) was the best inhibitor tested toward ArgE providing an IC₅₀ value of 85 μM while N ^α-trifluoroacetyl-l-ornithine (1f), N ^α-ethoxycarbonyl-l-ornithine (2b), and N ^α-acetyl-d-ornithine (1a) weakly inhibited ArgE activity providing IC₅₀ values between 200 and 410 μM. Weak inhibitory potency toward Bacillus subtilis-168 for N ^α-acetyl-d-ornithine (1a) and N ^α-fluoro- (1f), N ^α-chloro- (1g), N ^α-dichloro- (1h), and N ^α-trichloroacetyl-ornithine (1i) was also observed. These data correlate well with the IC₅₀ values determined for ArgE, suggesting that these compounds might be capable of getting across the cell membrane and that ArgE is likely the bacterial enzymatic target.     

Structural studies with weak oxytocin antagonists

Summary [Aib³,Thr⁵]OT, [Aib³,Thr(OMe)⁵]OT, [Aib³,Orn⁸]OT, [Thr(OMe)⁵,Orn⁸]OT and [Phe²,Thr(OMe)⁵,Orn⁸]OT were synthesized by solid-phase techniques. From the biological properties of these peptides, it seems that the simultaneous replacement of positions 3 and 5 of oxytocin with Aib and Thr(OMe) results in an analogue devoid of antagonistic activity in comparison with the singly substituted compounds. Simultaneous Orn⁸ substitution does the same in the case of the Aib³ analogue and even leads to agonistic activity in the case of the Thr(OMe)⁵ analogue. Replacement of Tyr² by Phe², e.g. [Phe²,Thr(OMe)⁵,Orn⁸]OT, again favors the appearance of minor antagonistic potency.     

Basidiochrome – A Novel Siderophore of the Orchidaceous Mycorrhizal Fungi Ceratobasidium and Rhizoctonia spp.

A novel trishydroxamate siderophore, named basidiochrome, was isolated as the principal siderophore from low-iron culture filtrates of Ceratobasidium and Rhizoctonia species which are known as mycorrhizal fungi associated with orchid roots. Ion-exchange chromatography and preparative HPLC yielded a pure compound which contained two components according to GC–MS analysis: l-N⁵-hydroxy-ornithine and 3-methyl-2-cis-pentenedioic acid (3-methyl-cis-glutaconic acid). FTICR-ESI-MS of both the iron-free and ferric form indicated an elemental composition of C₃₃H₄₇N₆O₁₆Fe (MW = 839) for the ferric form of basidiochrome. The connectivity was further elucidated by 2D-NMR techniques (HSQC, HMBC, COSY, NOESY) indicating that basidiochrome is a novel linear tripeptide consisting of three l-N⁵-hydroxy-ornithines each linked to 3-methyl-2-cis-pentenedioic acid residues.     

Improving cell-free protein synthesis for stable-isotope labeling

Cell-free protein synthesis is suitable for stable-isotope labeling of proteins for NMR analysis. The Escherichia coli cell-free system containing potassium acetate for efficient translation (KOAc system) is usually used for stable-isotope labeling, although it is less productive than other systems. A system containing a high concentration of potassium l-glutamate (l-Glu system), instead of potassium acetate, is highly productive, but cannot be used for stable-isotope labeling of Glu residues. In this study, we have developed a new cell-free system that uses potassium d-glutamate (d-Glu system). The productivity of the d-Glu system is approximately twice that of the KOAc system. The cross peak intensities in the ¹H–¹⁵N HSQC spectrum of the uniformly stable-isotope labeled Ras protein, prepared with the d-Glu system, were similar to those obtained with the KOAc system, except that the Asp intensities were much higher for the protein produced with the d-Glu system. These results indicate that the d-Glu system is a highly productive cell-free system that is especially useful for stable-isotope labeling of proteins. Electronic Supplementary Material The online version of this article (doi: ) contains supplementary material, which is available to authorized users.     

Altered <Emphasis Type="SmallCaps">d</Emphasis>-methionine kinetics in rats with renal impairment

d-Amino acids are now recognized to be widely present in mammals. In rats, exogenously administered d-methionine is almost converted into the l-enantiomer via 2-oxo-4-methylthiobutylic acid as an intermediate. d-Amino acid oxidase is associated with conversion of d-methionine into the 2-oxo acid. Since d-amino acid oxidase is present at the highest activity in the kidney compared to other organ, kidney injury is suggested to cause accumulation of d-methionine. The purpose of the present study is to assess the role of kidney in the elimination of d-methionine and metabolic conversion into l-methionine in rats using a stable isotope methodology. After a bolus i.v. administration of d-[²H₃]methionine to 5/6-nephrectomized rats, plasma concentrations of d-[²H₃]methionine, l-[²H₃]methionine, and endogenous l-methionine were determined by a stereoselective GC–MS method. Renal mass reduction slowed down the elimination of d-[²H₃]methionine. The clearance values of conversion of d-[²H₃]methionine into the l-enantiomer in 5/6-nephrectomized rats were one-sixth of those in sham-operated rats. The elimination behavior of d-[²H₃]methionine observed in rats demonstrated that kidney was the principal organ responsible for chiral inversion of d-methionine.     

Substrate specificity of a recombinant ribose-5-phosphate isomerase from <Emphasis Type="Italic">Streptococcus pneumoniae</Emphasis> and its application in the production of <Emphasis Type="SmallCaps">l</Emphasis>-lyxose and <Emphasis Type="SmallCaps">l</Emphasis>-tagatose

A putative ribose-5-phosphate isomerase (RpiB) from Streptococcus pneumoniae was purified with a specific activity of 26.7 U mg⁻¹ by Hi-Trap Q HP anion exchange and Sephacryl S-300 HR 16/60 gel filtration chromatographies. The native enzyme existed as a 96-kDa tetramer with activity maxima at pH 7.5 and 35°C. The RpiB exhibited isomerization activity with l-lyxose, l-talose, d-gulose, d-ribose, l-mannose, d-allose, l-xylulose, l-tagatose, d-sorbose, d-ribulose, l-fructose, and d-psicose and exhibited particularly high activity with l-form monosaccharides such as l-lyxose, l-xylulose, l-talose, and l-tagatose. With l-xylulose (500 g l⁻¹) and l-talose (500 g l⁻¹) substrates, the optimum concentrations of RpiB were 300 and 600 U ml⁻¹, respectively. The enzyme converted 500 g l⁻¹ l-xylulose to 350 g l⁻¹ l-lyxose after 3 h, and yielded 450 g l⁻¹ l-tagatose from 500 g l⁻¹ l-talose after 5 h. These results suggest that RpiB from S. pneumoniae can be employed as a potential producer of l-form monosaccharides.     

Syntheses of dopa glycosides using glucosidases

Syntheses of l-dopa 1a glucoside 10a,b and dl-dopa 1b glycosides 10–18 with d-glucose 2, d-galactose 3, d-mannose 4, d-fructose 5, d-arabinose 6, lactose 7, d-sorbitol 8 and d-mannitol 9 were carried out using amyloglucosidase from Rhizopus mold, β-glucosidase isolated from sweet almond and immobilized β-glucosidase. Invariably, l-dopa and dl-dopa gave low to good yields of glycosides 10–18 at 12–49% range and only mono glycosylated products were detected through glycosylation/arylation at the third or fourth OH positions of l-dopa 1a and dl-dopa 1b. Amyloglucosidase showed selectivity with d-mannose 4 to give 4-O-C1β and d-sorbitol 8 to give 4-O-C6-O-arylated product. β-Glucosidase exhibited selectivity with d-mannose 4 to give 4-O-C1β and lactose 7 to give 4-O-C1β product. Immobilized β-glucosidase did not show any selectivity. Antioxidant and angiotensin converting enzyme inhibition (ACE) activities of the glycosides were evaluated glycosides, out of which l-3-hydroxy-4-O-(β-d-galactopyranosyl-(1′→4)β-d-glucopyranosyl) phenylalanine 16 at 0.9 ± 0.05 mM and dl-3-hydroxy-4-O-(β-d-glucopyranosyl) phenylalanine 11b,c at 0.98 ± 0.05 mM showed the best IC₅₀ values for antioxidant activity and dl-3-hydroxy-4-O-(6-d-sorbitol)phenylalanine 17 at 0.56 ± 0.03 mM, l-dopa-d-glucoside 10a,b at 1.1 ± 0.06 mM and dl-3-hydroxy-4-O-(d-glucopyranosyl)phenylalanine 11a-d at 1.2 ± 0.06 mM exhibited the best IC₅₀ values for ACE inhibition. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Induction of aldose reductase and polyol dehydrogenase activities in Aureobasidium pullulans by d-xylose,l-arabinose and d-galactose

Summary The induction of aldose reductase and polyol dehydrogenase activities by d-xylose, l-arabinose, d-galactose and d-glucose was studied in the yeast-like organism Aureobasidium pullulans CCY 27-1-26. d-xylose and l-arabinose induced two distinct NADPH-dependent aldose reductases and the inducing saccharide was simultaneously the most efficient substrate for the corresponding enzymatic reaction. Polyol dehydrogenase induced by d-xylose, l-arabinose and d-galactose was strictly NAD⁺-dependent and required only xylitol as a substrate of the enzymatic reaction. l-Arabitol did not act as a substrate for l-arabinose-induced polyol dehydrogenase either in the presence of NAD⁺ or NADP⁺.     

Effects of conformational constraint in 2- and 8-cycloleucine analogues of oxytocin and [1-penicillamine] oxytocin examined by circular dichroism and biosassay

The analogues of oxytocin and [1-penicillamine]oxytocin, containing a cycloleucine (Cle) residue in position 2 or 8, were investigated by means of circular dichroism measurements in different solvents, and the results examined in terms of their biological activities. A cycloleucine residue in position 2 substantially reduces the free conformational space of the hormone 20-membered ring moiety (including the disulfide group), and stabilizes a conformation which is close to one of the possible conformations of oxytocin and involves a -turn. In position 8, the Cle residue affects the conformation of the Tyr² side chain, apparently forcing it away from the space above the 20-membered disulfide ring. However, it does not appear that the Cle residue has any significant effect on the overall backbone conformation of the hormone. The steric effect of the penicillamine residue in position 1 on the conformation of the disulfide group and Tyr² side chain from previous investigations is further confirmed. The synthesis and biological potency of [1-penicillamine, 8-cycloleucine]oxytocin is described. This analogue exhibits a strong inhibitory effect on the uterotonic activity of oxytocinin vitro. It also inhibited the vasopressor response to vasopressin.     

Synthesis,conformation, and membrane modifying properties of the trikoningin KB lipopeptaibols: Effect of hydrophobicity and chirality in position 1

Summary We synthesized by solution-phase methods the naturally occurring, 10-amino acid residue lipopeptaibol antibiotics trikoningins KBI and KBII, and the [l-Iva¹] KB analogue, in which the amino acid in position 1 is different, with the aim at investigating the effect of hydrophobicity and chirality in that position. A solution conformational analysis, using FT-IR absorption and CD techniques, indicated that all of the three decapeptides are predominantly helical in a membrane-mimetic environment. Permeability measurements showed an increase of the activity from the [Aib¹] peptide to the more hydrophobic [Iva¹] peptides. Conversely, the effect of a change in chirality, obtained by replacingd-Iva¹ withl-Iva, turned out to be of minor significance.     

Characterization of ribose-5-phosphate isomerase of <Emphasis Type="Italic">Clostridium thermocellum</Emphasis> producing <Emphasis Type="SmallCaps">d</Emphasis>-allose from <Emphasis Type="SmallCaps">d</Emphasis>-psicose

The rpiB gene, encoding ribose-5-phosphate isomerase (RpiB) from Clostridium thermocellum, was cloned and expressed in Escherichia coli. RpiB converted d-psicose into d-allose but it did not convert d-xylose, l-rhamnose, d-altrose or d-galactose. The production of d-allose by RpiB was maximal at pH 7.5 and 65°C for 30 min. The half-lives of the enzyme at 50°C and 65°C were 96 h and 4.7 h, respectively. Under stable conditions of pH 7.5 and 50°C, 165 g d-allose l⁻¹ was produced without by-products from 500 g d-psicose l⁻¹ after 6 h.