Genetic aspects of the relationship between isoquinoline alkaloids and mineral elements in greater celandine (Chelidonium majus L.)

Interrelations between the total content of isoquinoline alkaloids, concentrations of quaternary protoberberines and benzophenanthridines, and the amount of K, Cu, Co, Al, Ba, and Zn in aerial parts of individual celandine plants were revealed, within a single cenopopulation, using correlation analysis and regression analysis. Mathematical models describing the regulation of isoquinoline metabolism by some of the mineral elements were obtained in the analytical form. The results suggest that this process is genetically determined.     

Isolation and Partial Characterization of a New Lectin from Seeds of the Greater Celandine (Chelidonium majus)

Seeds of the greater celandine (Chelidonium majus L.) contain a lectin which could be isolated using a combination of affinity chromatography on chitin and ion exchange chromatography on sulphopropyl-Sephadex. The purified lectin was partially characterized with respect to its biochemical and physicochemical properties. It is a small dimeric protein composed of two different subunits of M_r 9,500 and 11,500, respectively. Its amino acid composition is typified by high contents of glycine and cysteine. No covalently bound carbohydrate could be detected. Hapten inhibition experiments indicated that the lectin exhibits specificity towards oligomers of N-acetylglucosamine, the potency of inhibition increasing with chain length up to four residues. The greater celandine lectin is the first lectin to be isolated from a species belonging to the plant family Papaveraceae (poppy family). Although it represents a new type of plant lectin, resemblances to phytohemaglutinins from diverse taxonomic origin are obvious.     

Force-induced unfolding of human telomeric G-quadruplex: A steered molecular dynamics simulation study

We study the unfolding of a parallel G-quadruplex from human telomeric DNA by mechanical stretching using steered molecular dynamics (MD) simulation. We find that the force curves and unfolding processes strongly depend on the pulling sites. With pulling sites located on the sugar-phosphate backbone, the force-extension curve shows a single peak and the unfolding proceeds sequentially. Pulling sites located on the terminal nucleobases lead to a force-extension curve with two peaks and the unfolding is more cooperative. Simulations of the refolding of partially unfolded quadruplexes show very different behavior for the two different pulling modalities. In particular, starting from an unfolded state prepared by nucleobase pulling leads to a long-lived intermediate state whose existence is also corroborated by the free energy profile computed with the Jarzynski equation. Based on this observation, we propose a novel folding pathway for parallel G-quadruplexes with the human telomere sequence.     

Complexes of antiparallel telomeric G-quadruplex d(TTAGGG)4 with carboxymethyl tetracationic porphyrins

Porphyrins are a chemical class that is widely used in drug design. Cationic porphyrins may bind to DNA guanine quadruplexes. We report the parameters of the binding of 5,10,15,20-tetrakis(N-carboxymethyl-4-pyridinium) porphyrin (P1) and 5,10,15,20-tetrakis(N-etoxycarbonylmethyl-4-pyridinium) porphyrin (P2) to antiparallel telomeric G-quadruplex formed by d(TTAGGG)₄ sequence (TelQ). The binding constants (K _i ) and the number of binding sites (N _j ) were determined from absorption isotherms generated from the absorption spectra of complexes of P1 and P2 with TelQ. Compound P1 demonstrated a high affinity to TelQ (K _i = (40 ± 6) × 10⁶ M^?1, N ₁ = 1; K ₂ = (5.4 ± 0.4) × 10⁶ M^?1, N ₂ = 2). In contrast, the binding constants of P2-TelQ complexes (K ₁ = (3.1 ± 0.2) × 10⁶ M^?1, N ₁ = 1; K ₂ = (1.2 ± 0.2) × 10⁶ M^?1, N ₂ = 2) were one order of magnitude smaller than the corresponding values for P2-TelQ complexes. Measurements of the quantum yield and fluorescence lifetime of the drug’s TelQ complexes revealed two types of binding sites for P1 and P2 on the quadruplex oligonucleotide. We concluded that strong complexes can result from the interaction of the porphyrins with TTA loops whereas the weaker complexes are formed with G-quartets. The altered TelQ conformation detected by the circular dichroism spectra of P1-TelQ complexes can be explained by the disruption of the G-quartet. We conclude that peripheral carboxy groups contribute to the high affinity of P1 for the antiparallel telomeric G-quadruplex.     

The first derivative of a function of circular dichroism spectra: biophysical study of human telomeric G-quadruplex

Depending on conditions and base modifications, telomeric repeats can form many topological structures; parallel, antiparallel and hybrid forms. The influence of salts and some specific ligands on conformational changes has already been established. In this study, we analyze the human telomeric repeats 5′-GGG(TTAGGG)₃-3′ because this sequence forms topologically different structures under various conditions which have been well described by many authors. CD results are compared with electrophoretic and UV absorption spectroscopy results obtained under corresponding conditions in the presence of different ratios of sodium and potassium ions and polyethylene glycol (PEG). We confirmed that the most stable G-quadruplexes could only form under crowding conditions with PEG-200 and K⁺ ion, but the molecularity is increased. Other monovalent ions without the presence of K⁺ are unable to form the parallel quadruplex conformer and no change of stoichiometry is observed, even when PEG-200 is present. The first derivative of a function applied to CD spectra seems to be a powerful tool for spectra evaluation of any G-quadruplex, and could be more unambiguous than a direct analysis of original spectra.     

G-quadruplex DNA cleavage preference and identification of a perylene diimide G-quadruplex photocleavage agent using a rapid fluorescent assay

A rapid fluorescence assay for G-quadruplex DNA cleavage was used to investigate the preference of TMPyP4 photochemical and Mn·TMPyP4 oxidative cleavage. Both agents most efficiently cleave the c-Myc promoter G-quadruplex. Direct PAGE analysis of selected assay samples showed that for a given cleavage agent, different cleavage products are formed from different G-quadruplex structures. Cleavage assays carried out in the presence of excess competitor nucleic acid structures revealed the binding selectivity of cleavage agents, while comparisons with duplex cleavage efficiency employing a dual-labeled hairpin oligonucleotide revealed neither agent prefers G-quadruplex over duplex substrates. Finally, this assay was used to identify the perylene diimide Tel11 as a photocleavage agent for the c-Myc G-quadruplex.     

Fluorescence intercalator displacement assay for screening G4 ligands towards a variety of G-quadruplex structures

The potential formation of G-quadruplexes in many regions of the genome makes them an attractive target for drug design. A large number of small molecules synthesized in recent years display an ability to selectively target and stabilize G-quadruplexes. To screen for G4 ligands, we modified a G4-FID (G-quadruplex Fluorescent Intercalator Displacement) assay. This test is based on the displacement of an “on/off” fluorescence probe, Thiazole Orange (TO), from quadruplex or duplex DNA matrices by increasing amounts of a putative ligand. Selectivity measurements can easily be achieved by comparing the ability of the ligand to displace TO from various quadruplex and duplex structures. G4-FID requires neither modified oligonucleotides nor specific equipment and is an isothermal experiment. This test was adapted for high throughput screening onto 96-well plates allowing the comparison of more than twenty different structures. Fifteen different known G4 ligands belonging to different families were tested. Most compounds showed a good G4 vs duplex selectivity but exhibited little, if any, specificity for one quadruplex sequence over the others. The quest for the “perfect” specific G4 ligand is not over yet!     

Xyloglucan endotransglycosylases (XETs) from germinating nasturtium (Tropaeolum majus) seeds: Isolation and characterization of the major form

Five forms of xyloglucan endotransglycosylase/hydrolase (XTH) differing in their isoelectric points (pI) were detected in crude extracts from germinating nasturtium seeds. Without further fractionation, all five forms behaved as typical endotransglycosylases since they exhibited only transglycosylating (XET) activity and no xyloglucan-hydrolysing (XEH) activity. They all were glycoproteins with identical molecular mass, and deglycosylation led to a decrease in molecular mass from approximately 29 to 26.5 kDa. The major enzyme form having pI 6.3, temporarily designated as TmXET(6.3), was isolated and characterized. Molecular and biochemical properties of TmXET(6.3) confirmed its distinction from the XTHs described previously from nasturtium. The enzyme exhibited broad substrate specificity by transferring xyloglucan or hydroxyethylcellulose fragments not only to oligoxyloglucosides and cello-oligosaccharides but also to oligosaccharides derived from β-(1,4)-d-glucuronoxylan, β-(1,6)-d-glucan, mixed-linkage β-(1,3; 1,4)-d-glucan and at a relatively low rate also to β-(1,3)-gluco-oligosaccharides. The transglycosylating activity with xyloglucan as donor and cello-oligosaccharides as acceptors represented 4.6%, with laminarioligosaccharides 0.23%, with mixed-linkage β-(1,3; 1,4)-d-gluco-oligosaccharides 2.06%, with β-(1,4)-d-glucuronoxylo-oligosaccharides 0.31% and with β-(1,6)-d-gluco-oligosaccharides 0.69% of that determined with xyloglucan oligosaccharides as acceptors. Based on the sequence homology of tryptic fragments with the sequences of known XTHs, the TmXET(6.3) was classified into group II of the XTH phylogeny of glycoside hydrolase family GH16.     

A comparative study on the anti-inflammatory,antinociceptive and antipyretic effects of isoquinoline alkaloids from the roots of Turkish Berberis species

Roots and barks of various Berberis species are used as folk remedy for the treatment of various inflammatory diseases such as lumbago, rheumatism and to reduce fever. Six isoquinoline alkaloids namely berberine, berbamine, palmatine, oxyacanthine, magnoflorine, and columbamine were isolated as the main components of alkaloidal fraction from the roots of Turkish Berberis species and effects were studied using various in vivo models in mice. All alkaloids inhibited inflammations in varying degrees, among them berberine, berbamine and palmatine were shown to possess significant and dose-dependent inhibitory activity against serotonin-induced hind paw oedema both on oral and topical applications and acetic acid-induced increase in vascular permeability on oral administration. Moreover, these three alkaloids were also shown to possess dose-dependent antinociceptive activity, which assessed by using the model based on the inhibition of p-benzoquinone-induced writhing movements as well as antipyretic activity on FCA-induced increased rectal temperature on subacute administration. However, all alkaloids induced gastric lesions in varying degrees.     

A fluorescence-based helicase assay: application to the screening of G-quadruplex ligands

Helicases, enzymes that unwind DNA or RNA structure, are present in the cell nucleus and in the mitochondrion. Although the majority of the helicases unwind DNA or RNA duplexes, some of these proteins are known to resolve unusual structures such as G-quadruplexes (G4) in vitro. G4 may form stable barrier to the progression of molecular motors tracking on DNA. Monitoring G4 unwinding by these enzymes may reveal the mechanisms of the enzymes and provides information about the stability of these structures. In the experiments presented herein, we developed a reliable, inexpensive and rapid fluorescence-based technique to monitor the activity of G4 helicases in real time in a 96-well plate format. This system was used to screen a series of G4 structures and G4 binders for their effect on the Pif1 enzyme, a 5′ to 3′ DNA helicase. This simple assay should be adaptable to analysis of other helicases and G4 structures.     

Antifeeding activity of isoquinoline alkaloids identified in Coptis japonica roots against Hyphantria cunea (Lepidoptera: Arctiidae) and Agelastica coerulea (Coleoptera: Galerucinae)

The anti-feeding activity of 3 isoquinoline alkaloids identified from roots of Coptis japonica Makino toward 4th-instar larvae of Hyphantria cunea Drury and adults of Agelastica coerulea Baly was examined using the leaf-dipping bioassay. The biologically active constituents of the Coptis roots were characterized as the isoquinoline alkaloids berberine, palmatine and coptisine by spectroscopic analysis. In a test with H. cunea larvae, the anti-feeding activity was much more pronounced in an application of a mixture of palmatine iodide and berberine chloride (1:1, wt:wt) at 250 ppm (82.3%) and 500 ppm (100%), compared with palmatine iodide (76.0%) and berberine chloride (75.4%) alone at 500 ppm. These results indicate a synergistic effect. With A. courulea adults, berberine chloride showed 57.5 and 91.1% anti-feeding activity at 125 and 250 ppm, respectively; whereas, weak activity was obtained in application of 500 ppm of palmatine iodide (41.4%) and coptisine chloride (52.4%) alone. The Coptis root-derived compounds merit further study as potential insect-control agents.     

Correlation of the cytotoxic activity of four different alkaloids, from Chelidonium majus (greater celandine), with their DNA intercalating properties and ability to induce breaks in the DNA of NK/Ly murine lymphoma cells

The purpose of this study was to examine the relationship between the DNA intercalating characteristics and the DNA damaging capacity of four alkaloids extracted from Chelidonium majus L, as well as their toxicity towards murine NK/Ly lymphoma cells. Chelerythrine, sanguinarine and coptisine were found to be intercalated into the DNA isolated from NK/Ly cells, meanwhile, chelidonine exhibited no affinity to DNA. Sanguinarine exhibited the greatest toxicity toward NK/Ly cells, and the toxicity of the other three decreased in descending order: chelerythrine, coptisine and chelidonine. Chelerythrine and sanguinarine caused DNA damage, illustrated by the formation of comets of the third class. Coptisine was less toxic than chelerythrine and sanguinarine, and affected the formation the same class of comets in higher concentration. The quantity of comets induced by chelidonine were negligible, a finding consistent with its inability to intercalate into DNA structure. The ability of four main alkaloids of Chelidonium majus L., to intercalate into DNA isolated from murine NK/Ly lymphoma cells, correlated with their ability to induce breaks in cellular DNA and with their toxic effect towards those cells.     

8-Oxo-7,8-dihydrodeoxyadenosine: the first example of a native DNA lesion that stabilizes human telomeric G-quadruplex DNA

Native DNA lesions in general destabilize DNA secondary structures such as duplex and G-quadruplex because they disrupt optimized interactions in DNA defined by nature. In this paper, we report the first example of a native DNA lesion (8-oxo-7,8-dihydrodeoxyadenosine, OxodA) that stabilizes human telomeric G-quadruplex DNA. CD thermal denaturation studies explicitly displayed increased melting temperatures of telomeric G-quadruplex DNAs that contain OxodA(s) in different DNA loops, suggesting enhanced thermal stability. Conformation studies of G-quadruplex DNAs containing OxodA(s) in the loops using CD and native PAGE revealed that they adopt a similar antiparallel conformation in Na(+) but have much more versatile conformations in K(+). According to computational calculations, the observed stabilization may result from the tight binding of K(+) into the pocket formed by the O8 of OxodA and its loop. The study reported here may provide better understanding of the effect of DNA lesions on G-quadruplex stability and conformation.     

Structure-activity relationship study of host-specific phytotoxins (AM-toxin analogs) using a new assay method with leaves from apple meristem culture

AM-toxins are host-specific phytotoxins of the Alternaria alternata apple pathotype, which induce necrosis on apple leaves. In this study, we developed a new assay to measure the necrotic activity of AM-toxin analogs using cultured leaves from meristem cells. This method was not only more sensitive to AM-toxin I, but also more reliable than the previous one that used tree leaves due to the homogeneous nature of cultured leaves and to the method of application of toxins. Using this assay method we investigated a structure-activity relationship of AM-toxin analogs synthesized in this study. Most residues and the macrocyclic ring structure were strictly recognized by AM-toxin putative receptor, whereas the L-Ala binding subsite of the receptor allowed for side chain structures with various stereoelectronic properties. These findings are important for designing ligands for further experimental probing of the nature of the receptor.     

A simple, post-additional antioxidant capacity assay using adenosine triphosphate-stabilized 2,2'-azinobis(3-ethylbenzothiazoline)-6-sulfonic acid (ABTS) radical cation in a G-quadruplex DNAzyme catalyzed ABTS-H2O2 system

The scavenging of 2,2'-azinobis(3-ethylbenzothiazoline)-6-sulfonic acid (ABTS) radical cation (ABTS(+)) by antioxidants has been widely used in antioxidant capacity assay. Because of ABTS(+) disproportionation, however, this radical cannot be prepared on a large scale and stored long-term, making it unsuitable for high-throughput detection and screening of antioxidants. We developed a modified "post-additional" antioxidant capacity assay. This method possessed two remarkable features: First, instead of natural peroxidases, an artificial enzyme, G-quadruplex DNAzyme, was used for the preparation of ABTS(+), thus greatly reducing the cost of the assay, and eliminating the strict demand for the storage of enzymes. Second, an ABTS(+) stabilizer, adenosine triphosphate (ATP), was used. In the presence of ATP, the disproportionation of ABTS(+) was effectively inhibited, and the lifetime of this radical cation was prolonged about 6-fold (12 days versus 2 days), making the large-scale preparation of ABTS(+) possible. Utilizing this method, the antioxidant capacities of individual antioxidants and real samples can be quantified and compared easily. In addition, this method can be developed as a high-throughput screening method for antioxidants. The screening results could even be judged by the naked eye, eliminating the need for expensive instruments.     

Indole alkaloids from Rauvolfia bahiensis A.DC. (Apocynaceae)

Four indole alkaloids, 12-methoxy-N(a)-methyl-vellosimine, demethoxypurpeline, 12-methoxyaffinisine, and 12-methoxy-vellosimine, in addition to picrinine, vinorine, raucaffrinoline, normacusine B, norseredamine, seredamine, 10-methoxynormacusine B, norpurpeline and purpeline, were isolated from the bark or leaf extracts of Rauvolfia bahiensis.     

A new record of Tanysphyrus (Tanysphyroides) major Roelofs (Coleoptera: Curculionidae) from Korea

The species Tanysphyrus (Tanysphyroides) major Roelofs is recorded for the first time from Korea. This paper reports the diagnostic characters, and some remarks on its systematics and notes on its biology are also provided.     

Platination of the (T2G4)4 telomeric sequence: a structural and cross-linking study.

The telomeric sequence (T(2)G(4))(4) was platinated in aqueous solutions containing 50 mM LiClO(4), NaClO(4), or KClO(4). The identification of the guanines which reacted with [Pt(NH(3))(3)(H(2)O)](2+) revealed that the same type of folding exists in the presence of the three cations and that the latter determine the relative stabilities of the G-quadruplex structures in the order K(+) > Na(+) > Li(+). The tri-ammine complex yielded ca. 40--90% of adducts, mono- and poly-platinated, bound to 4 guanines out of the 16 guanines in the sequence, in the decreasing amounts G9 > G15 > G3 > G21. The formation of these adducts was interpreted with a G-quadruplex structure obtained by restrained molecular dynamics (rMD) simulations which confirms the schematic model proposed by Williamson et al. [(1989) Cell 59, 871--880]. The bifunctional complexes cis- and trans-[Pt(NH(3))(2)(H(2)O)(2)](2+) also first reacted with G9 and G15 and gave cross-linked adducts between two guanines, which did not exceed 5% each of the products formed. Both the cis and trans isomers formed a G3-G15 platinum chelate, and the second also formed bis-chelates at both ends of the G-quadruplex structure: G3-G15/G9-G21 and G3-G15/G9-G24. The rMD simulations showed that the cross-linking reactions by the trans complex can occur without disturbing the stacking of the three G-quartets.