A proenkephalin A-derived peptide analogous to bovine adrenal peptide E from frog brain: Purification, synthesis, and behavioral effects

A peptide derived from the posttranslational processing of proenkephalin A was isolated from an extract of the brain of the European green frog Rana ridibunda and its primary structure established as: Tyr-Gly-Gly-Phe-Met-Arg-Arg-Val-Gly-Arg¹⁰-Pro-Glu-Trp-Trp-Gln-Asp-Tyr-Gln-Lys-Arg²⁰-Tyr-Gly-Gly-Phe-Met. The structure was confirmed by chemical synthesis. The peptide represents an amphibian equivalent of bovine adrenal peptide E [preproenkephalin A (206–230)-peptide] but the sequence contains two amino acid substitutions (Met¹⁵ → Gln and Leu²⁵ → Met) compared with the mammalian peptide. The data support previous hypotheses that the Leu-enkephalin sequence is not present in preproenkephalin A of amphibians. Intracerebroventricular injections of frog peptide E (10 and 100 ng) in mice had no significant effect on horizontal locomotor activity. The peptide, in doses up to 1 μg, had no effect on latency of escape jumping in the hot plate test and the peptide (100 ng) did not modify responses (paw licking, rearing, and escape jumping) in morphine-treated mice.     

The structure of a polysaccharide isolated from Inonotus levis P. Karst. mushroom (Heterobasidiomycetes)

Inonotus levis biomass was extracted with 5% NaOH containing NaBH₄, the insoluble material was discarded and the solution dialyzed. It was further treated with proteinase and the polymeric fraction isolated by gel chromatography. It contained mostly a polysaccharide of the following structure:

β-GlcA-(1→2)--Gal-(1→6)--Gal3OMe-(1→[→6)--Gal-(1→6)--Gal3OMe-(1→]_5–10

where a non-reducing terminal glucuronic acid residue was present in about half of the molecules, making thus some of the chains acidic and others neutral. Methyl groups were present at about half of the galactose residues, however, no direct proof of the presence of defined repeating units was obtained due to NMR signals overlap. We believe that these short polymeric chains might be originally attached to a protein via serine or threonine residues and were cleaved off due to the alkaline conditions of extraction. Another polymer, co-extracted with this galactan, was a branched phosphorylated mannan with a structure similar to that of the mannan from Saccharomyces cerevisiae yeast.     

Tachykinins (Substance P, Neurokinin A and Neuropeptide γ) and Neurotensin from the Intestine of the Burmese Python, Python molurus

Conlon, J. M., T. E. Adrian and S. M. Secor. Tachykinins (substance P, neurokinin A and neuropeptide γ,) and neurotensin from the intestine of the burmese python, Python molurus. Peptides 18(10) 1505–1510, 1997.—Peptides with substance P-like immunoreactivity, neurokinin A-like immunoreactivity and neurotensin-like immunoreactivity were isolated in pure form from an extract of the intestine of the Burmese python (Python molurus). The primary structure of python substance P (Arg-Pro-Arg-Pro-Gln-Gln-Phe-Tyr-Gly-Leu-Met-NH₂) shows one amino acid substitution (Phe⁸ → Tyr) compared with chicken/alligator substance P and an additional substitution (Lys³ → Arg) as compared with mammalian substance P. The neurokinin A-like immunoreactivity was separated into two components. Python neuropeptide γ (Asp-Ala-Gly-Tyr-Ser-Pro-Leu-Ser-His-Lys-Arg-His-Lys-Thr-Asp-Ser-Phe-Val-Gly-Leu-Met-NH₂ shows three substitutions (Gly⁵ → Ser, Gln⁶ → Pro and Ile⁷ → Leu) compared with alligator neuropeptide γ and an additional substitution (His⁴ → Tyr) compared with mammalian neuropeptide γ. Python neurokinin A (His-Lys-Thr-Asp-Ser-Phe-Val-Gly-Leu-Met.NH₂) is identical to human/chicken/alligator neurokinin A. Python neurotensin (pGlu-Leu-Val-His-Asn-Lys-Ala-Arg-Pro-Tyr-Ile-Leu) is identical to chicken/alligator neurotensin. The data are indicative of differential evolutionary pressure to conserve the amino acid sequences of reptilian gastrointestinal peptides.     

Mg2+ ion effect on conformational equilibrium of poly A . 2 poly U and poly A poly U in aqueous solutions

Differential UV spectroscopy and thermal denaturation were used to study the Mg²⁺ ion effect on the conformational equilibrium in poly A · 2 poly U (A2U) and poly A · poly U (AU) solutions at low (0.01 M Na⁺) and high (0.1 M Na⁺) ionic strengths. Four complete phase diagrams were obtained for Mg²⁺–polynucleotide complexes in ranges of temperatures 20–96 °C and concentrations (10⁻⁵–10⁻²) M Mg²⁺. Three of them have a ‘critical’ point at which the type of the conformational transition changes. The value of the ‘critical’ concentration ([Mg_t²⁺]_cr=(4.5±1.0)×10⁻⁵ M) is nearly independent of the initial conformation of polynucleotides (AU, A2U) and of Na⁺ contents in the solution. Such a value is observed for Ni²⁺ ions too. The phase diagram of the (A2U+Mg²⁺) complex with 0.01 M Na⁺ has no ‘critical’ point: temperatures of (3→2) and (2→1) transitions increase in the whole Mg²⁺ range. In (AU+Mg²⁺) phase diagram at 0.01 M Na⁺ the temperature interval in which triple helices are formed and destroyed is several times larger than at 0.1 M Na⁺. Using the ligand theory, a qualitative thermodynamic analysis of the phase diagrams was performed.     

Effects of temperature, irradiance, and daylength on the marine diatom Leptocylindrus danicus Cleve. IV. Growth

Growth and dark respiration rates of the marine diatom Leptocylindrus danicus Cleve were measured in axenic batch culture under 49 combinations of temperature (5, 10, 15, 20°C), daylength(15:9, 12:12, 9:15 LD), and irradiance (at least four irradiances per daylength). Cell division rates exhibited a temperature-dependent daylength effect. Optimal temperatures occurred between 15 and 20°C. Both the initial slope () and the growth rate at light saturation (μ_max) were strongly influenced by temperature; increased five-fold and μ_max by an order of magnitude between 5 and 20°C. The compensation irradiance (I_c) was independent of temperature. μ_max was 2.7 div day⁻¹ at 20°C, 2.6 at 15°C, 1.1 at 10°C, and 0.3 at 5 °C. Cells grown under 15:9 and 12:12 LD exhibited similar growth-light curves at 20°C and at 15°C. μ_max of cells grown under 9:15 LD at these temperatures were substantially lower than μ_max under longer daylengths. Growth at 10 and 5°C was independent of daylength.

Dark respiration rates were a linear function of cell division rates at 10, 15, and 20°C, and support the concept that growth rate is dependent on dark respiration rate. These relationships were not influenced by daylength. A detectable relationship between dark respiration and growth at 5°C was not observed.

Photosynthesis and excretion showed temperature-dependent curvilinear relationships with growth rate, reflecting the lower saturation irradiance for growth compared to light saturation of photosynthesis and excretion. The relationship between Chl a-specific photosynthesis and growth was controlled by the C:Chl a ratio, which showed a positive correlation with cell division rate. At 15 and 20°C, light saturation of growth was associated with C:Chl a ratios of 40 to 60; at 5 and 10°C, cells growing at μ_max contained C:Chl a in ratios of 80 to 110.     

Chemical structure and conformational features of cell-wall polysaccharides isolated from Aphanoascus mephitalus and related species

The structures of cell-wall mannans isolated from Aphamoascus mephitalus, A. Fulvescens, A. verrucosus, and A. reticulisporus have been investigated by chemical analyses and 1D and 2D ¹H and ¹³C NMR techniques. It was found that all of them consists of a relatively simple comb-like structure of the disaccharide repeating block {→ 6)-[-Man p-(1 → 2)]--Man p-(1 →}. The conformations around the -(1 → 2) and -(1 → 6) linkages in thes kinds of polymers were also studied by using molecular mechanics and dynamics calculations, together with NOE data. The results are similar to those found within the oligosaccharide chains of glycoproteins, with a well-defined conformation for the -(1 → 2) linkage and a certain restriction around the -(1 → 6) bonding imposed by the 2-substitution.     

Excitation and deexcitation processes of Eu(III) benzo-15-crown-5 complex studied on comparing with its first coordination sphere

The coordination sphere and the deexcitation mechanism of the Eu(III) benzo-15-crown-5 complex, Eu(B15C5), were studied with references of the Eu(III) complexes with a similar coordination sphere; the dibenzo-18-crown-6 complex, Eu₃(B₂18C6)₂, and the cryptand[2.2.1] complex, Eu([2.2.1]). NMR spectroscopy reveals that the Eu(B15C5) complex is quite stable in acetonitrile solution whereas only 40% of the Eu(III) ion forms the complex in the equimolar Eu(NO₃)₃ and B₂18C6 acetonitrile solution. The coordination sphere of the Eu(III) complexes in acetonitrile solutions were also discussed by the degenerate ⁷F₀→⁵D₀ transition energy levels. The Eu(B15C5) have a negative shift compared with the europium(III) nitrate in acetonitrile and it is explained by the coordination of both nitrate ions and the crown ether ligand. Energy transfer from the n–π* excited state located in the catechol structure to the central europium ion was first observed as the sensitized luminescence of ⁵D₀→⁷F_J. The excited state lifetime of the Eu(B15C5) complex was first determined as 201 μs in the present study.     

Pustulan and branched β-galactofuranan from the phytopathogenic fungus Guignardia citricarpa, excreted from media containing glucose and sucrose

Guignardia citricarpa is a phytopathogenic fungus and the causal agent of citrus black spot. Incubation in a semi-defined media resulted in formation of exopolysaccharides [EPS(s)]. A medium containing glucose gave rise to a (1→6)-linked β-glucan (200 kD), pustulan, which was characterized by NMR and methylation analysis. A sucrose-containing medium provided a homogalactan (376 kD) and methylation analysis showed nonreducing end- (20%), 6-O- (53%) and 5,6-di-O-substituted Galf units (27%). An HMQC spectrum of the homogalactan showed C-1/H-1 signals at δ 108.2/4.820, 108.3/4.820 and 107.1/5.079, corresponding to three types of β- -Galf units. A DEPT analysis showed inverted signals (CH₂) at δ 67.8 and 67.2, corresponding to 6-O-substituted β- -Galf units, whereas a C-5 signal at δ 77.0 suggests 5-O-substitution, confirming a novel structure for a β-galactofuranan.     

Energy transfer within the isolated light-harvesting B800–850 pigment-protein complex of Rhodobacter sphaeroides

We have used picosecond absorption spectroscopy with low intensity (5 · 10¹¹–5 · 10¹² photons · pulse⁻¹ · cm⁻²) continuously tunable infrared (800–900 nm) pulses to study the energy transfer dynamics in the isolated B800–850 pigment-protein complex of Rhodobacter sphaeroides. Our results suggest the following picture of the energy transfer dynamics: (i) a fast transfer, within approx. 1 ps, from BChl 800 to BChl 850; (ii) transfer among different BChl 800's with a rate which is at the most of the same order of magnitude as that of BChl 800 → BChl 850 transfer; (iii) very fast transfer (k > 1 · 10¹² s⁻¹) between BChl 850 molecules. Assuming Förster type of energy transfer maximum distances of about 22 and 15 Å are obtained for the BChl 800–BChl 850 and BChl 850–BChl 850 separations, respectively.     

Spectrophotometric and kinetic studies of the binding of Ni, Co, and Mg to poly(dG-dC) · poly(dG-dC). Determination of the stoichiometry of the Ni-induced B → Z transition

Data are reported for the binding of Ni²⁺, Co²⁺, and Mg²⁺ to the B-form of double-stranded poly(dG-dC) at ionic strength conditions I = 0.001 M, 0.01 M, and 0.1 M. The apparent binding constants for Ni²⁺ and Co²⁺ are about the same and are 2- to 3-fold higher than those for Mg²⁺. Kinetic studies indicate that Mg²⁺ binds to the polynucleotide mainly (or solely) as a mobile cloud (electrostatically, outer-sphere), whereas the transition metal ions undergo site binding (inner-sphere coordination) with poly(dG-dC). The kinetic data suggest that an Ni²⁺ ion coordinates to more than one binding site at the polynucleotide, presumably to G-N₇ and a phosphate group.

At low ionic strength conditions the addition of Ni²⁺ induces a B → Z conformational transition in poly(dG-dC). As demonstrated by UV absorption and CD spectroscopy, the transition occurs at I = 0.001 M already when 3 × 10⁻⁵ – 7 × 10⁻⁵ M of Ni²⁺ are added to 8 × 10⁻⁵ M (in monomeric units) of poly(dG-dC), and at I = 0.01 M between 2.5 × 10⁻⁴ and 4.5 × 10⁻⁴ M of Ni²⁺. Using murexide as an indicator of the concentration of free Ni²⁺ ions, the amount of Ni²⁺ which is bound to the polynucleotide could be determined. At I = 0.001 M it was established that the B → Z transition begins when 1 Ni²⁺ is bound coordinatively per four base pairs, and the transition is complete when 1 Ni²⁺ is bound coordinatively per three base pairs. It is this coordinated Ni²⁺ which induces the B → Z transition.     

Structure of the serine-containing capsular poly-saccharide K40 antigen from Escherichia coli O8:K40:H9

The structure of the K40 antigenic capsular polysaccharide (K40 antigen) of E. coli O8:K40:H9 was elucidated by determination of the composition, ¹H- and ¹³C-n.m.r. spectroscopy, periodate oxidation and Smith degradation, and methylation analysis. The K40 polysaccharide consists of [(O-β- -glucopyranosyluronic acid)-(1→4)-O-(2-acetamido-2-deoxy-- -glucopyranosyl)-(1→6)-O-(2-acetamido-2-deoxy-- -glucopyranosyl)-(1→4)] repeating units. All of the glucuronic acid residues are substituted amidically with -serine.     

Specificity of mutations induced by carbon ions in budding yeast Saccharomyces cerevisiae

To investigate the nature of mutations induced by accelerated ions in eukaryotic cells, the effects of carbon-ion irradiation were compared with those of γ-ray irradiation in the budding yeast Saccharomyces cerevisiae.

The mutational effect and specificity of carbon-ion beams were studied in the URA3 gene of the yeast. Our experiments showed that the carbon ions generated more than 10 times the number of mutations induced by γ-rays, and that the types of base changes induced by carbon ions include transversions (68.7%), transitions (13.7%) and deletions/insertions (17.6%). The transversions were mainly G:C → T:A, and all the transitions were G:C → A:T. In comparison with the surrounding sequence context of mutational base sites, the C residues in the 5′-AC(A/T)-3′ sequence were found to be easily changed. Large deletions and duplications were not observed, whereas ion-induced mutations in Arabidopsis thaliana were mainly short deletions and rearrangements. The remarkable feature of yeast mutations induced by carbon ions was that the mutation sites were localized near the linker regions of nucleosomes, whereas mutations induced by γ-ray irradiation were located uniformly throughout the gene.     

Six-coordinate phosphorus compounds. Crystal structures and dynamic NMR studies of phosphoranes containing chelating ligands

Hexacoordination of the neutral phosphorus compounds 4–6 is evidenced by their high field ³¹P NMR chemical shifts and is further substantiated by the crystal structure of 5 and 6.5 contains the potentially bis-chelating ligand Ar = (C₆H₃(CH₂NMe₂)₂-2,6) and 6 the same ligand with a protonated amino group. In both cases the compounds exhibit slightly distorted octahedral geometry. In compound 5, only one NMe₂ group is coordinated to the phosphorus atom with an N → P bond of 2.063 Å. In compound 6, the NMe₂ group is coordinated to the phosphorus atom with an N → P bond of 2.007 Å while the dimethylammonium substituent is pointing away from the phosphorus atom forming a hydrogen bridge with two oxygen atoms. The fluxional behavior of these three novel six-coordinate phosphorus compounds was studied by dynamic ¹H NMR spectroscopy.     

Induction of lacI mutations in Big Blue Rat-2 cells treated with 1-(2-hydroxyethyl)-1-nitrosourea: a model system for the analysis of mutagenic potential of the hydroxyethyl adducts produced by 1,3-bis (2-chloroethyl)-1-nitrosourea.

We have investigated the genotoxic effects of 1-(2-hydroxyethyl)-1-nitrosourea (HENU). We have chosen this agent because of its demonstrated ability to produce N7-(2-hydroxyethyl) guanine (N7-HOEtG) and O⁶-(2-hydroxyethyl) 2′-deoxyguanosine (O⁶-HOEtdG); two of the DNA alkylation products produced by 1,3-bis (2-chloroethyl)-1-nitrosourea (BCNU). For these studies, we have used the Big Blue Rat-2 cell line that contains a lambda/lacI shuttle vector. Treatment of these cells with HENU produced a dose dependent increase in the levels of N7-HOEtG and O⁶-HOEtdG as quantified by HPLC with electrochemical detection. Treatment of Big Blue Rat-2 cells with either 0, 1 or 5 mM HENU resulted in mutation frequencies of 7.2±2.2×10⁻⁵, 45.2±2.9×10⁻⁵ and 120.3±24.4×10⁻⁵, respectively. Comparison of the mutation frequencies demonstrates that 1 and 5 mM HENU treatments have increased the mutation frequency by 6- and 16-fold, respectively. This increase in mutation frequency was statistically significant (P<0.001). Sequence analysis of HENU-induced mutations have revealed primarily G:C→A:T transitions (52%) and a significant number of A:T→T:A transversions (16%). We propose that the observed G:C→A:T transitions are produced by the DNA alkylation product O⁶-HOEtdG. These results suggest that the formation of O⁶-HOEtdG by BCNU treatment contributes to its observed mutagenic properties.     

Binding activities by propiverine and its N-oxide metabolites of L-type calcium channel antagonist receptors in the rat bladder and brain

The present study was undertaken to characterize the binding activities of propiverine and its N-oxide metabolites (1-methyl-4-piperidyl diphenylpropoxyacetate N-oxide: P-4(N → O), 1-methyl-4-piperidyl benzilate N-oxide: DPr-P-4(N → O)) toward L-type calcium channel antagonist receptors in the rat bladder and brain. Propiverine and P-4(N → O) inhibited specific (+)-[³H]PN 200–110 binding in the rat bladder in a concentration-dependent manner. Compared with that for propiverine, the K_i value for P-4(N → O) in the bladder was significantly greater. Scatchard analysis has revealed that propiverine increased significantly K_d values for bladder (+)-[³H]PN 200–110 binding. DPr-P-4(N → O) had little inhibitory effects on the bladder (+)-[³H]PN 200–110 binding. Oxybutynin and N-desethyl-oxybutynin (DEOB) also inhibited specific (+)-[³H]PN 200–110 binding in the rat bladder. Propiverine, oxybutynin and their metabolites inhibited specific [N-methyl-³H]scopolamine methyl chloride ([³H]NMS) binding in the rat bladder. The ratios of K_i values for (+)-[³H]PN 200–110 to [³H]NMS were markedly smaller for propiverine and P-4(N → O) than oxybutynin and DEOB. Propiverine and P-4(N → O) inhibited specific binding of (+)-[³H]PN 200–110, [³H]diltiazem and [³H]verapamil in the rat cerebral cortex in a concentration-dependent manner. The K_i values of propiverine and P-4(N → O) for [³H]diltiazem were significantly smaller than those for (+)-[³H]PN 200–110 and [³H]verapamil. Further, their K_i values for [³H]verapamil were significantly smaller than those for (+)-[³H]PN 200–110. The K_i values of propiverine for each radioligand in the cerebral cortex were significantly (P < 0.05) smaller than those of P-4(N → O). In conclusion, the present study has shown that propiverine and P-4(N → O) exert a significant binding activity of L-type calcium channel antagonist receptors in the bladder and these effects may be pharmacologically relevant in the treatment of overactive bladder after oral administration of propiverine.     

Physical properties of methylcelluloses in relation with the conditions for cellulose modification

A high molecular weight glycoprotein antigen was isolated by size exclusion chromatography on Sepharose 4B from an extract of the yeast Saccharomyces cerevisiae. The glycoprotein antigen Sc 500 was shown to be identical to the antigen termed gp200 previously isolated (Heelan et al., 1991). The MW of Se 500 was determined to be about 500 kDa by size exclusion chromatography on Superose 6 and 460 kDa ± 20k Da by size-exclusion chromatography/multi-angle laser light scattering (SEC/MALLS). Sc 500 contained 90% mannose and traces of N-acetylglucosamine. The amino acid composition revealed that serine and threonine were the most abundant amino acids of the protein part. By alkaline borohydride treatment some, but not all bonds between protein and carbohydrate were broken. This indicates that the main type of linkage between protein and carbohydrate is O-glycosidic and that a minor type is of N-glycosidic nature. Methylation analysis revealed that the mannose residues were connected by 1 → 2 and 1 → 3 linkages with 1 → 2, 1→ 6 linked branch points.

Purified Sc 500 was subjected to a series of chemical and enzymatic modifications followed by studies of antibody binding activity. Treatments with both periodate and alkaline sodium borohydride reduced the human serum IgA, IgG and monoclonal IgM antibody binding activity of Sc 500 whereas trypsin and pronase did not affect its ability to bind these antibodies. The mannosidase Man1 → 2,3,6Man reduced the IgM binding to Sc 500 while the other enzymes included in this experiment (Man1→2 Man, Manβ1 →4GlcNAc and PNGase F) had no effect on the antibody binding.     

Evaluation of oat bran as a soluble fibre source. Characterization of oat β-glucan and its effects on glycaemic response

Oat β-glucan, present in oat bran in greater concentrations than in the whole oat groat, is mainly composed of β-(1 → 3)-linked cellotriosyl and cellotetraosyl units, present at 52 and 34% by weight of the molecule, respectively. The remaining structure consits of β-(1 → 3)-linked blocks composed of four or more consecutive β-(1 → 4)-linked -glucopyranosyl units. Size-exclusion chromatography indicated a molecular weight for oat β-glucan of 2–3 × 10⁶. This was significantly reduced during digestion in the small intestine of rats and chicks. In healthy human volunteers, oat β-glucan reduced the postprandial glucose response to an oral glucose load similarly to guar gum. The effectiveness of oat β-glucan was proportional to the logarithm of the viscosity of the solution fed.     

Structure elucidation of the core octasaccharide from Citrobacter PCM 1487 with the aid of 500-MHz, two-dimensional phase-sensitive correlated, relayed-coherence transfer, double-quantum, triple-quantum filtered, and N.O.E. H-n.m.r. spectra

The main features of the primary structure of the octasaccharide, - -Glcp-(1→2)-- -Glcp-(1→2)-[- -GalpNAc- (1→3)]-- -Galp-(1→3)-- -Glcp-(1→3)-[- -Hepp-(1→7)]-- -Hepp-(1→3)-- -Hep, have been determined in the ab initio manner by ¹H-n.m.r. spectroscopy without resorting to biochemical methods of analysis. Several nontypical interresidue n.O.e. values point to a preferred solution conformation of the molecule.     

Synthesis of 21-amino-5-pregnene-3,20-dione bysethylene ketal

21-Amino-5-pregnene-3,20-dione bisethylene ketal was obtained in good yield by lithium aluminum hydride reduction of 21-azido-5-pregnene-3,20-dione bisethylene ketal. The azido bisethylene ketal was synthesized by the sequence: deoxycorticosterone → deoxycorticosterone 21-p-toluene-sulfonate → 21-azidoprogesterone → 21-azido-5-pregnene-3, 20-dione bisethylene ketal. The structure of the title compound was confirmed by its conversion to the known 21-acetylaminoprogesterone. 21-Amino-5-pregnene-3,20-dione bisethylene ketal is a stable aminosteroid which is a useful intermediate for the synthesis of C-21 nitrogen derivatives of progesterone.