Studies of peptide antibiotics. XLIII. Syntheses of gramicidin S analogs containing D-serine or dehydroalanine in place of D-phenylalanine and asymmetric hydrogenation of the dehydroalanine residue

Gramicidin S (GS) analogs, [D-Ser4,4']-GS and its precursor [O-benzyl-D-Ser4,4']-GS, were synthesized by the conventional method in order to evaluate the role of the hydroxymethyl side chains in D-Ser at 4,4' positions on the biological activity. Another analog [L-Orn(delta-Boc)2,2',delta Ala4,D-Ser4']-GS was prepared from [D-Ser4,4']-GS by t-butyloxycarbonylation and successive dehydration using dicyclohexylcarbodiimide-CuCl as dehydrating reagent. The delta Ala residue was asymmetrically hydrogenated to D-Ala in the presence of Pd-black. On the microbial assays, [O-benzyl-D-Ser4,4']-GS showed high antimicrobial activity as natural GS, but [D-Ser4,4']-GS showed low activity; the structure-activity relationships of the analogs were discussed.     

Conformation of cyclic analogs of enkephalin. II. Analogs containing a cystine bridge

A systematic survey has been made, using molecular mechanics, of the conformation of the ring entity of the enkephalin analogs, [D -Cys²-L -Cys⁵]-enkephalinamide and [D -Cys²-D -Cys⁵]enkephalinamide. These molecules are considerably more flexible than the analog Tyr-cyclo(N^γ-D -A₂bu-Gly-Phe-Leu-), but the favored conformations of all three are very similar. The results of these studies are compatible with a Gly³-Phe⁴ type II′ bend in the active conformation of enkephalin.     

Some analogs of luteinizing hormone releasing hormone (LH-RH) having intense ovulation-inducing activity

Five new analogs of luteinizing hormone releasing hormone (LH-RH), des-Gly¹⁰-[Ala⁶]-LH-RH-ethylamide, des-Gly¹⁰-[D-Ala⁶]-LH-RH-ethylamide, des-Gly¹⁰-[α-aminoisobutyric acid⁶]-LH-RH-ethylamide, des-Gly¹⁰-[Phe⁵, D-Ala⁶]-LH-RH-ethylamide and des-Gly¹⁰-[Ile⁵, D-Ala⁶]-LH-RH-ethylamide were synthesized and evaluated for the ovulation-inducing activity in the rat, and it was found that the analogs, des-Gly¹⁰-[D-Ala⁶]-LH-RH-ethylamide and des-Gly¹⁰-[Phe⁵, D-Ala⁶]-LH-RH-ethylamide, were 50 times or more active than the original molecule.     

1H-NMR studies on substance P hexapeptide analogs

¹H-nmr studies of [pGlu⁶]SP_6–11, [gpGlu⁶,mPhe⁷]SP_6–11, and [pGlu⁶,N-CH₃Phe⁷]SP_6–11 in DMSO-d₆ reveal characteristic chemical shifts, ³J_NH-αCH, temperature dependence, as well as deuterium exchange half-times. Marked similarities are revealed for the two first analogs, whereas the N-methylated analog is clearly different. Possible conformations are considered.     

Studies of peptide antibiotics. XLIV. Syntheses and biological activities of gramicidin S analogs containing delta-hydroxy-L-norvaline or glycine

The antibiotic gramicidin S (GS) has the structure of cyclo (-L-Val1-L-Orn2-L-Leu3-D-Phe4-L-Pro5-L-Val1'-L-Orn2'-L-Leu3'-D-Phe4'-L-Pro5'-) and is basic in character. Five GS analogs including [Gly1,1']-GS and the neutral [L-Hnv2,2']-GS (Hnv represents delta-hydroxynorvaline) were synthesized by the solid-phase method to evaluate the role of L-Val1,1' and L-Orn2,2' residues in GS. The hybrid analogs [( Gly1]-GS and [L-Hnv2]-GS) and [D-Tyr4,4']-GS showed high antibacterial activities, whereas [Gly1,1']-GS and [L-Hnv2,2']-GS possessed no activity. Inhibitory effects by these analogs for the adsorption of 14C-labeled GS on cells of bacteria sensitive to GS were determined. The structure-activity relationship of GS is discussed on the basis of the results on these GS analogs.     

Solubilization of High-Affinity, Guanine Nucjeotide-Sensitive μ-Opioid Receptors from 7315c Cell Membranes

Abstract: High-affinity μ-opioid receptors have been solubilized from 7315c cell membranes. Occupancy of the membrane-associated receptors with morphine before their solubilization in the detergent 3-[(3-cholamidopropyl) dimethyl]-1-propane sulfonate was critical for stabilization of the receptor. The solubilized opioid receptor bound [³H]-etorphine with high affinity (K_D= 0.304 ± 0.06 nM; B_max= 154 ± 33 fmol/mg of protein). Of the membrane-associated [³H]etorphine binding sites, 40 ± 5% were recovered in the solubilized fraction. Both μ-selective and non-selective enkephalins competed with [³H]etorphine for the solubilized binding sites; in contrast, 5- and K-opioid enkephalins failed to compete with [³H]etorphine for the solubilized binding sites at concentrations of <1 μM.The μ-selective ligand [³H][D-Ala²,A/-Me-Phe⁴,Gly⁵-ol]enkephalin also bound with high affinity (K_D= 0.79 rM; B_max= 108±17 fmol/mg of protein) to the solubilized material. Of the membrane-associated [³H][D-Ala²,N-Me-Phe⁴,Gly⁵-ol]-enkephalin binding sites, 43 ± 3% were recovered in the solubilized material. Guanosine 5′-O-(3-thiotriphosphate), GTP, and guanosine 5′-O-(2-thiodiphosphate), but not adenylylimidodiphosphate, diminished [³H][D-Ala²,N-Me-Phe⁴,Gly⁵-ol]enkephalin binding in a concentration-dependent manner. Finally, μ-opioid receptors from rat brain membranes were also solubilized in a high-affinity, guanine nucleotide-sensitive state if membrane-associated receptors were occupied with morphine before and during their solubilization with the detergent 3-[(3-cholamidopropyl) dimethyl]-1-propane sulfonate.     

A CD and an nmr study of multiple bradykinin conformations in aqueous trifluoroethanol solutions

CD and nmr studies have been carried out on aqueous trifluoroethanol (TFE) solutions of bradykinin (BK) and a bradykinin antagonist. The CD results exhibit a striking effect of TFE on the spectra of BK, with sequence Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg, and the BK antagonist, with sequence D -Arg-Arg-Pro-Hyp-Gly-Thi-D -Ser-D -Cpg-Cpg-Arg [where Hyp is 4-hydroxy-L -proline; Thi refers to β-(2-thienyl)-L -alanine and Cpg refers to α-cyclopentylglycine]. The effect of increasing concentration of TFE in water on the difference ellipticity at 222 nm was examined and showed that BK may be a mixture of at least two different conformers, one of which largely forms when the TFE concentration is increased beyond 80%. The linear extrapolation of 100% of the difference ellipticity of BK at low TFE concentrations yields a value in agreement with that shown by the BK antagonist, indicating that the conformation of BK at the lower TFE concentrations is similar to that of the BK antagonist. The conformational analysis was carried out using both one-dimensional and two-dimensional ¹H-nmr techniques. The total correlation spectroscopy (TOCSY) spectrum of BK in a 60/40% (v/v) TFE/H₂O solution at 10°C and a nuclear Overhauser effect spectroscopy (NOESY) spectrum that shows only sequential H_α(i) – NH(i + 1) or the H_α(i) – H_δδ′(i + 1) NOEs indicate that the majority of the molecules adopt an all-trans extended conformation. The TOCSY for BK in the 95/5% (v/v) TFE/H₂O solution shows that there are two major conformations in the solution with about equal population. The NOESY experiment shows two new important cross peaks for one conformation, namely Pro²(α)-Pro³ (α) and the Pro²(α)-Gly⁴(NH), indicating a cis Pro²-Pro³ bond and a type VI β-turn between residues Arg¹ and Gly⁴ involving cis proline at position 3, respectively. The low temperature coefficient of Gly⁴ for this conformation suggests the presence of an intramolecular hydrogen bond, therefore a type VIa β-turn is present. The other conformation is all trans and extended. The BK antafonist shows difference CD spectra in TFE solutions referred to H₂O that are superficially indicative of a β-bend. However, nmr speaks against this possibility, as only one set of peaks were observed in the TOCSY and NOESY experiments, indicating an all-trans extended confirmation over the range of TFE concentrations. The BK-antagonist CD data suggest that solvent perturbation of the CD of an extended confirmation perturbation of the optical activity of the thienyl moiety of the peptide since the CD spectrum of N-acetyl-β-thienyl-L -alanine N-methylamide is strongly perturbed by TFE. The present results again demonstrate the complementary relationship between CD and nmr. © 1994 John Wiley & Sons, Inc.     

Synthesis and opioid activities of stereoisomers and other D-amino acid analogs of methionine-enkephalin

A series of D-amino acid-substituted analogs of the opiate peptide, methionine⁵-enkephalin, were synthesized by solid-phase methods and tested for their abilities to inhibit electrically-evoked contractions of mouse vasa deferentia and to compete with tritiated enkephalin for opiate receptors on particulate fractions isolated from homogenates of rat brain. [D-Ala²]-enkephalin and [D-Ala²]-enkephalin amide were found to be the most potent peptides in both assay systems, being about 1000% active in the vas deferens bioassay and 120% and 150% active, respectively, in the stereospecific binding test relative to methionine⁵-enkephalin itself. In comparison, [D-Met⁵]-, [D-Tyr¹]-, [D-Leu²]-, [D-Phe²]-, [D-Ala³]-, and [D-Phe⁴]-enkephalin had not more than 10% activity. The stabilization of the β-bend conformation of methionine⁵-enkephalin by the substitution of D-alanine in position 2 of the peptide chain may contribute to the high activities of the [D-Ala²]-analogs.     

Synthesis,biological activity,and conformational analysis of [pGlu6, N-MePhe8, Aib9] substance P (6–11): A selective agonist for the NK-3 receptor

A highly potent and selective agonist to the tachykinin NK-3 receptor, [pGlu⁶, N-MePhe⁸, Aib⁹] substance P (6–11) ( I ), was synthesized via the solid phase method. The ED₅₀ of I was 4n M in the guinea pig ileum in the absence of atropine (NK-1 + NK-3 receptors) and this agonist was 5000-fold less potent in the presence of atropine (NK-1 receptor). The analogue was virtually inactive in the rat vas deferens (NK-2 receptor). A detailed analysis of the solution conformation of this analogue in DMSO-d₆ and in a DMSO-d₆ H₂O cryornixture was carried out by a combination of ¹H-nmr 2D techniques (DQF-COSY, TOCSY, NOESY and ROESY) and model building based on empirical energy calculations. Peptide I exists as a mixture of isomers containing cis and trans Phe-N-MePhe peptide bonds. The main isomer, containing a cis Phe-N-MePhe peptide bond, shows a preferred folded conformation characterized by a type VI β-turn with Phe and N-MePhe in the i + 1 and i + 2 positions. The turn is followed by a helical segment extending to the C-terminal. This conformation is compared to previously reported conformations of other selective tachykinin agonists and may be a promising lead for the design of novel NK-3 agonists with additional conformational constraints. © 1993 John Wiley & Sons, Inc.     

Studies of peptide antibiotics. XLVI. Syntheses of gramicidin S analogs containing D-alpha,beta-diaminopropionic acid or alpha,beta-dehydroalanine

A gramicidin S (GS) analog ([D-Dpr4,4'] GS) containing D-alpha,beta-diaminopropionic acid (D-Dpr) in place of D-Phe at 4,4' positions was derived from [L-Orn(delta-formyl)2,2', D-Dpr(beta-Z)4,4']GS, which was synthesized by conventional method in solution. An analog [delta Ala4,4']GS was synthesized from [L-Orn(delta-Boc)2,2', D-Dpr4,4']GS through Hofmann degradation of the D-Dpr residues. Antimicrobial activities of these analogs were tested; [D-Dpr(beta-Z)4,4']GS and [delta Ala4,4']GS showed high antimicrobial activities against Gram-positive bacteria. [D-Dpr4,4']-GS showed an appreciable activity against Gram-negative bacteria such as Escherichia coli. Four semigramicidin S (semiGS) analogs such as [delta Ala4]semiGS were synthesized; these had no antimicrobial activity. Analogs containing delta Ala residues were hydrogenated, and the formation of L-Ala or D-Ala residues was determined. The delta Ala residues in [delta Ala4,4'] GS were reduced to DL-Ala, and delta Ala in [delta Ala4]semiGS mostly to L-Ala. The relationships of the antimicrobial activity, CD curves and asymmetric hydrogenation to the structure were discussed.     

Crystal structures of two cyclic pseudopentapeptides containing ψ[CH2S] and ψ[CH2SO] backbone surrogates

The solid state conformations of cyclo[Gly–Proψ[CH₂S]Gly–D –Phe–Pro] and cyclo[Gly–Proψ[CH₂–(S)–SO]Gly–D –Phe–Pro] have been characterized by X-ray diffraction analysis. Crystals of the sulfide trihydrate are orthorhombic, P2₁2₁2₁, with a = 10.156(3) Å, b = 11.704(3) Å, c = 21.913(4) Å, and Z = 4. Crystals of the sulfoxide are monoclinic, P2₁, with a = 10.662(1) Å, b = 8.552(3) Å, c = 12.947(2) Å, β = 94.28(2), and Z = 2. Unlike their all-amide parent, which adopts an all-trans backbone conformation and a type II β-turn encompassing Gly-Pro-Gly-D -Phe, both of these peptides contain a cis Gly¹-Pro² bond and form a novel turn structure, i.e., a type II′ β-turn consisting of Gly–D –Phe–Pro–Gly. The turn structure in each of these peptides is stabilized by an intramolecular H bond between the carbonyl oxygen of Gly¹ and the amide proton of D -Phe⁴. In the cyclic sulfoxide, the sulfinyl group is not involved in H bonding despite its strong potential as a hydrogen-bond acceptor. The crystal structure made it possible to establish the absolute configuration of the sulfinyl group in this peptide. The two crystal structures also helped identify a type II′ β-turn in the DMSO-d₆ solution conformers of these peptides. © 1993 John Wiley & Sons, Inc.     

Synthesis,in vitro stability,and antiproliferative effect of d‐cysteine modified GnRH‐doxorubicin conjugates

Overexpression of gonadotropin‐releasing hormone (GnRH) receptor in many tumors but not in normal tissues makes it possible to use GnRH analogs as targeting peptides for selective delivery of cytotoxic agents, which may help to enhance the uptake of anticancer drugs by cancer cells and reduce toxicity to normal cells. The GnRH analogs [d ‐Cys⁶, desGly¹⁰, Pro⁹‐NH₂]‐GnRH, [d ‐Cys⁶, desGly¹⁰, Pro⁹‐NHEt]‐GnRH, and [d ‐Cys⁶, α‐aza‐Gly¹⁰‐NH₂]‐GnRH were conjugated with doxorubicin (Dox), respectively, through N‐succinimidyl‐3‐maleimidopropionate as a linker to afford three new GnRH‐Dox conjugates. The metabolic stability of these conjugates in human serum was determined by RP‐HPLC. The antiproliferative activity of the conjugates was examined in GnRH receptor‐positive MCF‐7 human breast cancer cell line by MTT assay. The three GnRH‐Dox conjugates showed improved metabolic stability in human serum in comparison with AN‐152. The antiproliferative effect of conjugate II ([d ‐Cys⁶, desGly¹⁰, Pro⁹‐NHEt]‐GnRH‐Dox) on MCF‐7 cells was higher than that of conjugate I ([d ‐Cys⁶, desGly¹⁰, Pro⁹‐NH₂]‐GnRH‐Dox) and conjugate III ([d ‐Cys⁶, α‐aza‐Gly¹⁰‐NH₂]‐GnRH‐Dox), and the cytotoxicity of conjugate II against GnRH receptor‐negative 3T3 mouse embryo fibroblast cells was decreased in comparison with free Dox. GnRH receptor inhibition test suggested that the antiproliferative activity of conjugate II might be due to the cellular uptake mediated by the targeting binding of [d ‐Cys⁶‐des‐Gly¹⁰‐Pro⁹‐NHEt]‐GnRH to GnRH receptors. Our study indicates that targeting delivery of conjugate II mediated by [d ‐Cys⁶‐des‐Gly¹⁰‐Pro⁹‐NHEt]‐GnRH is a promising strategy for chemotherapy of tumors that overexpress GnRH receptors.     

Enkephalin dimers: Regulation of cyclic AMP levels in NG108-15 cells

Intracellular cyclic AMP levels were determined for dimeric and monomeric enkephalins interacting with PGE₁-stimulated NG108-15 cells. The dimeric pentapeptide enkephalin (DPE₂), [D-Ala², Leu⁵ -NH-CH₂]₂, displaying very high affinity (K = 4.2 ± 0.3 nM^?1) for the δ-opiate receptor, inhibited cyclic AMP production by 70%. Its IC₅₀-value was between 0.1 and 0.2 nM, similar to that of the potent δ-agonist [D-Ala², D-Leu⁵] enkephalin (DADLE) with K = 1.0 ± 0.1 nM^?1. [D-Ala², Leu⁵] enkephalin amide (DALEA), which is the monomer of DPE₂, showed an IC₅₀ = 4 nM. The dimeric tetrapeptide enkephalin (DTE₁₂), [D-Ala², des-Leu⁵-NH-(CH₂)₆]₂ and its monomer [D-Ala², desLeu⁵] enkephalin amide (DAPEA) showed IC₅₀ = 2 and 20 nM, respectively. These results indicate that the DPE₂ and DTE₁₂ enkephalin dimers are potent δ-agonists.     

Conformational energy studies on N-methylated analogs of thyrotropin releasing hormone, enkephalin, and luteinizing hormone-releasing hormone

Empirical conformational energy calculations have been carried out for N-methyl derivatives of alanine and phenylalanine dipeptide models and N-methyl-substituted active analogs of three biologically active peptides, namely thyrotropin-releasing hormone (TRH), enkephalin (ENK), and luteinizing hormone-releasing hormone (LHRH). The isoenergetic contour maps and the local dipeptide minima obtained, when the peptide bond (ω) preceding the N-methylated residue is in the trans configuration show that (1) N-methylation constricts the conformational freedom of both the ith and (i + 1)th residues; (2), the lowest energy position for both residues occurs around ? = ?135° ± 5° and ψ = 75° ± 5°, and (3) the α_L conformational state is the second lowest energy state for the (i + 1)th residue, whereas for the ith residue the C₅ (extended) conformation is second lowest in energy. When the peptide bond (ω_i) is in the cis configuration the ith residue is energetically forbidden in the range ? = 0° to 180° and ψ = ?180° to +180°. Conformations of low energy for ω_i = 0° are found to be similar to those obtained for the trans peptide bond. In all the model systems (irrespective of cis or trans), the α_R conformational state is energetically very high. Significant deviations from planarity are found for the peptide bond when the amide hydrogen is replaced by a methyl group. Two low-energy conformers are found for [(N-Me)His²]TRH. These conformers differ only in the ? and ψ values at the (N-Me)His² residue. Among the different low-energy conformers found for each of the ENK analogs [D -Ala²,(N-Me)Phe⁴, Met⁵]ENK amide and [D -Ala²,(N-Me)Met⁵]ENK amide, one low-energy conformer was found to be common for both analogs with respect to the side-chain orientations. The stability of the low-energy structures is discussed in the light of the activity of other analogs. Two low-energy conformers were found for [(N-Me)Leu⁷]LHRH. These conformations differ in the types of bend around the positions 6 and 7 of LHRH. One bend type is eliminated when the active analog [D -Ala⁶,(M-Me)Leu⁷]LHRH is considered.     

LH-releasing activity of potent LH-RH analogs in vitro

The LH-releasing activity of eight superactive analogs of LH-RH was measured in pituitary cells in primary culture. Introduction of the C-terminal ethylamide modification into [D-Ala⁶]- and [D-Leu⁶]-LH-RH (two peptides already 3 times more active than LH-RH) increases their activities 10-fold. [D-Phe⁶]- and [D-Trp⁶]-LH-RH are 90 and 100 times more active than LH-RH, respectively. The ethylamide derivatives of these two compounds are however approximately six times less active than the parent peptides.     

Conformationally Restricted 2-Substituted Wyosine Derivatives. 1H, 13C,and 15N NMR Study

Abstract

It was found by ¹H, ¹³C and ¹⁵N NMR study that substitution of 4,9-dihydro-4, 6-dimethyl-9-oxo-3-(2′,3′,5′-tri-O-acetyl-β-D-ribofuranosyl) imidazo [1,2-a]purine (wyosine triacetate, 1) at C2 position with electronegative groups CH₃O and C₆H₅CH₂O results in a noticeable electron distribution disturbance in the “left-hand” imidazole ring and a significant increase in the North conformer population of the sugar moiety.     

Antiplasmodial activity study of angiotensin II via Ala scan analogs

Angiotensin II (AII) as well as analog peptides shows antimalarial activity against Plasmodium gallinaceum and Plasmodium falciparum, but the exact mechanism of action is still unknown. This work presents the solid‐phase synthesis and characterization of eight peptides corresponding to the alanine scanning series of AII plus the amide‐capped derivative and the evaluation of the antiplasmodial activity of these peptides against mature P. gallinaceum sporozoites. The Ala screening data indicates that the replacement of either the Ile⁵ or the His⁶ residues causes minor effects on the in vitro antiplasmodial activity compared with AII, i.e. AII (88%), [Ala⁶]‐AII (79%), and [Ala⁵]‐AII (75%). Analogs [Ala³]‐AII, [Ala¹]‐AII, and AII‐NH₂ showed antiplasmodial activity around 65%, whereas the activity of the [Ala⁸]‐AII, [Ala⁷]‐AII, [Ala⁴]‐AII, and [Ala²]‐AII analogs is lower than 45%. Circular dichroism data suggest that AII and the most active analogs adopt a β‐fold conformation in different solutions. All AII analogs, except [Ala⁴]‐AII and [Ala⁸]‐AII, show contractile responses and interact with the AT₁ receptor, [Ala⁵]‐AII and [Ala⁶]‐AII. In conclusion, this approach is helpful to understand the contribution of each amino acid residue to the bioactivity of AII, opening new perspectives toward the design of new sporozoiticidal compounds. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Altered Kinetic Properties of Tyrosine-183 to Cysteine Mutation in Glutamine Synthetase of <Emphasis Type="Italic">Anabaena variabilis</Emphasis> Strain SA1 Is Responsible for Excretion of Ammonium Ion Produced by Nitrogenase

A L-methionine-D,L-sulfoximine-resistant mutant of the cyanobacterium Anabaena variabilis, strain SA1, excreted the ammonium ion generated from N₂ reduction. In order to determine the biochemical basis for the NH₄ ⁺-excretion phenotype, glutamine synthetase (GS) was purified from both the parent strain SA0 and from the mutant. GS from strain SA0 (SA0-GS) had a pH optimum of 7.5, while the pH optimum for GS from strain SA1 (SA1-GS) was 6.8. SA1-GS required Mn⁺² for optimum activity, while SA0-GS was Mg⁺² dependent. SA0-GS had the following apparent K _m values at pH 7.5: glutamate, 1.7 mM; NH₄ ⁺, 0.015 mM; ATP, 0.13 mM. The apparent K _m for substrates was significantly higher for SA1-GS at its optimum pH (glutamate, 9.2 mM; NH₄ ⁺, 12.4 mM; ATP, 0.17 mM). The amino acids alanine, aspartate, cystine, glycine, and serine inhibited SA1-GS less severely than the SA0-GS. The nucleotide sequences of glnA (encoding glutamine synthetase) from strains SA0 and SA1 were identical except for a single nucleotide substitution that resulted in a Y183C mutation in SA1-GS. The kinetic properties of SA1-GS isolated from E. coli or Klebsiella oxytoca glnA mutants carrying the A. variabilis SA1 glnA gene were also similar to SA1-GS isolated from A. variabilis strain SA1. These results show that the NH₄ ⁺-excretion phenotype of A. variabilis strain SA1 is a direct consequence of structural changes in SA1-GS induced by the Y183C mutation, which elevated the K _m values for NH₄ ⁺ and glutamate, and thus limited the assimilation of NH₄ ⁺ generated by N₂ reduction. These properties and the altered divalent cation-mediated stability of A. variabilis SA1-GS demonstrate the importance of Y183 for NH₄ ⁺ binding and metal ion coordination. Received: 3 July 2002 / Accepted: 29 July 2002     

Interaction of Purine Nucleotides with Cobalt-Hexammine,Cobalt-Pentammine and Cobalt- Tetrammine Cations. Evidence for the Rigidity of Adenosine and Flexibility of Guanosine and Deoxyguanosine Sugar Conformations

Abstract

The interaction of adenosine-5′-monophosphate (5′-AMP), guanosine-5′-monophosphate (5′-GMP) and 2′-deoxyguanosine-5′-monophosphate (5′-dGMP) with the [Co(NH₃)₆]³⁺, [CO(NH₃)₅C1]²⁺ and [CO(NH₃)₄C1₂]⁺ cations has been investigated in aqueous solution with metal/nucleotide ratios (r) of 1/2, 1 and 2 at neutral pH. The solid complexes have been isolated and characterized by FT-IR and ¹H-NMR spectroscopy.

The complexes are polymeric in nature both in the crystalline solid and aqueous solution. The binding of the cobalt-hexammine cation is indirectly (via NH₃) through the N-7 and the PO₃ ^2- groups of the AMP and via O-6, N-7 and the PO₃ ^2- of the GMP and dGMP anions (outer-sphere). The cobalt-pentammine and cobalt-tetrammine bindings are through the phosphate groups (inner-sphere) and the N-7 site (outer-sphere) of these nucleotide anions. The ribose moiety shows C2′-endo/anti conformation, in the free AMP and GMP anions as well as in the cobalt-ammine - AMP complexes, whereas a mixture of the C2′-endo/anti and C3′-endo/anti sugar puckers were observed for the Co(NH₃)₆-GMP, Co(NH₃)₅-GMP and a C3′-endo/anti conformer for the Co(NH₃)₄-GMP complexes. The deoxyribose showed an O4′-endo/anti conformation for the free dGMP anion and a C3′-endo/anti for the Co(NH₃)₆-dGMP, Co(NH₃)₅-dGMP and Co(NH₃)₄-dGMP complexes.     

Plasmid-linked Galactose Utilization by Lactobacillus acidophilus TK8912

A gramicidin S analog ([Orn^1,1′]GS·4HCl) containing L-oroithine in place of L-valine at the 1,1′ positions was synthesized by the conventional solution method in order to examine whether this analog had antibacterial activity toward Gram-negative bacteria. In the synthesis of [Orn^1,1′]GS·4HCl, two intermediate analogs ([Orn^1,1′, Orn(For)^2,2′]GS·2HCl and [Orn(Z)^1,1′]GS·2HCl) were obtained. [Orn^1,1′]GS·4HCl and [Orn,^1,1′, Orn(For)^2,2′]GS·2HCl showed no activity toward either Gram-negative or Gram-positive bacteria, whereas [Orn(Z)^1,1′]GS 2HCl showed appreciable activity toward only Gram-positive bacteria.