首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
2.
Three soya-bean (Glycine max) cell-wall enzymes (ß-glucosidase,pectin methyl esterase and phosphatase) have been found to beglycoproteins. The polyclonal antibodies raised against pectinmethyl esterase and ß-glucosidase lacked specificity,cross-reacted highly with native enzymes and also both reactedwith pure soya-bean phosphatase, horseradish peroxidase andhoneybee venom phospholipase A2. They did not react with eithernon-glycosylated bacterial phosphatase or deglycosylated cell-wallenzymes. The two antisera contained both non-specific anti-glycanantibodies and specific anti-polypeptide antibodies that werequantified. Antiglycan antibodies specific to 1–3 fucoseand ß1–2 xylose were detected in both antiseraand were separated and quantified. The occurrence of terminalfucose (and mannose) was confirmed with specific lectins. Theseresults indicate that most of the common glycan epitopes probablycorrespond to the asparagine-linked complex glycan previouslydetected in several glycoproteins of plants as well as in thoseof molluscs and insects. (Received March 10, 1993; Accepted November 5, 1993)  相似文献   

3.
Several secretory and nonsecretory enzymes were localized histochemically in the main venom gland of 13 viperid snakes. All secretory cells show the intracellular oxidative enzymes succinate dehydrogenase and monoamine oxidase. The granular reactions obtained for both enzymes resemble mitochondria in distribution. Distinctive cells with a very high succinate dehydrogenase activity are dispersed among the secretory cells of all species except Atractaspis. Nonspecific acid phosphatase activity is found in the supranuclear region of the secretory cells in species that do not secrete this enzyme and throughout the cytoplasm in snakes that secrete the enzyme. Nonspecific alkaline phosphatase activity occurs in the secretory cells of those snakes whose venom shows this activity. Leucine amino peptidase (aryl amidase) activity is found in the venom and in the secretory cells of all the species. In Vipera palaestinae both the venom and the secretory cells of the main venom gland contain nonspecific esterase, L-amino acid oxidase and phosphodiesterase activities. The localization of phosphodiesterase and L-amino acid oxidase do not show major differences between glands at different intervals from an initial milking. Adenosine-monophosphate phosphatase activity is localized in the supranuclear region of the secretory cells in the glands of Vipera palaestinae and Aspis cerastes. Its activity is found in the venom of Aspis only.  相似文献   

4.
A paradoxical task of the venom gland of snakes is the synthesis and storage of an instantly available suite of toxins to immobilize prey and the protection of the snake against its own venom components. Furthermore, autolysis of the venom constituents due to the action of venom metalloproteases is an additional problem, particularly among viperid venoms, which are typically rich in lytic enzymatic proteins. To address questions concerning these problems, the structure of the venom gland was investigated using light microscopy, SEM and TEM. The composition of the venom originating from the intact venom apparatus or from the main venom gland alone was analyzed by electrophoresis, and the pH of freshly expressed venom as well as pH optima of several representative enzymes was evaluated. Results from several species of rattlesnakes demonstrated that the venom gland is structurally complex, particularly in its small rostral portion called the accessory gland, which may be a site of activation of venom components. Secreted venom is stable in extremes of temperature and dilution, and several proximate mechanisms, including pH and endogenous inhibitors, exist which inhibit enzymatic activity of the venom during storage within the venom gland but allow for spontaneous activation upon injection into prey. Whereas acid secretion by the parietal cells activates digestive enzymes in the stomach, within the venom gland acidification inhibits venom enzymes. We propose that the mitochondria-rich cells of the main venom gland, which are morphologically and histochemically very similar to the parietal cells of the mammalian gastric pit, play a central role in the stabilization of the venom by secreting acidic compounds into the venom and maintaining the stored venom at pH 5.4. Hence, our results indicate yet another trophic link between the processes of venom production and of digestion, and demonstrate that the venom glands of snakes may represent an excellent model for the study of protein stability and maintenance of toxic proteins.  相似文献   

5.
6.
Amino acid sequence of Trimeresurus flavoviridis phospholipase A2   总被引:3,自引:0,他引:3  
The amino acid sequence of phospholipase A2 from the venom of Trimeresurus flavoviridis (the Habu snake) was determined. The enzyme subunit has a molecular weight of 13,764 and consists of a single polypeptide chain of 122 amino acids and seven disulfide bonds. The fragmentation was conducted by digesting the reduced and S-carboxymethylated derivative of the protein with Achromobacter protease I, chymotrypsin, and trypsin, respectively. Achromobacter protease I peptides were used for alignment and to establish overlaps over chymotryptic and tryptic peptides. The automated Edman degradation of the S-carboxymethylated protein, which was extended to the N-terminal 30 amino acid residues, supplemented the deletions found with the enzymatic peptides alone. T. flavoviridis phospholipase A2 was found to be highly (65-67%) homologous in sequence to the enzymes from T. okinavensis, Crotalus adamanteus, and Crotalus atrox (viperid family) and less (35-44%) homologous to those from elapid snakes and mammalian pancreas. The T. flavoviridis enzyme appears to be similar in secondary structure composition to the C. atrox enzyme.  相似文献   

7.
This protocol details the optimal conditions to establish a long-term primary culture of secretory cells from the venom gland of the Bothrops jararaca snake. Furthermore, these conditions allow the production and secretion of venom into the culture medium. Snake venom is a rich source of active molecules and has been used for bioprospection studies. However, obtaining enough venom from snakes is a major obstacle. Secretory cells of venom glands are capable of producing active toxins. Therefore, a culture of secretory cells is a good in vitro system to acquire the venom of snakes without capturing the animal from the wild. The protocol described here provides a rapid (approximately 4 h) and reproducible means of producing sufficient amounts of snake venom for biological investigations.  相似文献   

8.
Snake venoms are a rich source of enzymes including many hydrolytic enzymes. Some enzymes such as phospholipase A2, proteolytic enzymes, and phosphodiesterases are well characterized. However many enzymes, such as the glycosidase, hyaluronidase, have not been studied extensively. Here we describe the characterization of snake venom hyaluronidase. In order to determine which venom was the best source for isolation of the enzyme, the hyaluronidase activity of 19 venoms from Elapidae, Viperidae, and Crotalidae snakes was determined. Since Agkistrodon contortrix contortrix venom showed the highest activity, this venom was used for purification of hyaluronidase. Molecular weight was determined by matrix-assisted laser desorption ionization mass spectroscopy and was found to be 59,290 Da. The molecular weight value as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis was 61,000 Da. Substrate specificity studies indicated that the snake venom enzyme was specific only for hyaluronan and did not hydrolyze similar polysaccharides of chondroitin, chondroitin sulfate A (chondroitin 4-sulfate), chondroitin sulfate B (dermatan sulfate), chondroitin sulfate C (chondroitin 6-sulfate), chondroitin sulfate D, chondroitin sulfate E, or heparin. The enzyme is an endo-glycosidase without exo-glycosidase activity, as it did not hydrolyze p-nitrophenyl-beta-D-glucuronide or p-nitrophenyl-N-acetyl-beta-D-glucosaminide. The main hydrolysis products from hyaluronan were hexa- and tetrasaccharides with N-acetylglucosamine at the reducing terminal. The cleavage point is at the beta1,4-glycosidic linkage and not at the beta1,3-glycosidic linkage. Thus, snake venom hyaluronidase is an endo-beta-N-acetylhexosaminidase specific for hyaluronan.  相似文献   

9.
For decades frequent mass mortalities of Lesser Flamingos (Phoeniconaiasminor Geoffroy) have been observed at alkaline-saline KenyanRift Valley lakes. To estimate the potential influence of toxiccyanobacteria on these mass deaths, the phytoplankton communitieswere investigated in Lakes Bogoria, Nakuru and Elmenteita. Cyanobacterialtoxins were analyzed both in the phytoplankton from the threelakes and in isolated monocyanobacterial strains of Arthrospirafusiformis, Anabaenopsis abijatae, Spirulina subsalsa and Phormidiumterebriformis. Lake Bogoria was dominated by the cyanobacteriumA. fusiformis. In L. Nakuru and L. Elmenteita the phytoplanktonmainly consisted of A. fusiformis, A. abijatae and Anabaenopsisarnoldii, and in L. Nakuru an unknown Anabaena sp. was alsofound. Furthermore, this is the first time A. abijatae and theunknown Anabaena sp. have been found in Kenyan lakes. Phytoplanktonwet weight biomass was found to be high, reaching 777 mg L–1in L. Bogoria, 104 mg L–1 in L. Nakuru and 202 mg L–1in L. Elmenteita. Using HPLC, the cyanobacterial hepatotoxinsmicrocystin-LR, -RR -YR, -LF and -LA and the neurotoxin anatoxin-awere detected in phytoplankton samples from L. Bogoria and L.Nakuru. Total microcystin concentrations amounted to 155 µgmicrocystin-LR equivalents g–1 DW in L. Bogoria, and 4593µg microcystin-LR equivalents g–1 DW in L. Nakuru,with anatoxin-a concentrations at 9 µg g–1 DW inL. Bogoria and 223 µg g–1 DW in L. Nakuru. In L.Elmenteita phytoplankton, no cyanobacterial toxins were found.A. fusiformis was identified as one source of the toxins. Theisolated strain of A. fusiformis from L. Bogoria was found toproduce both microcystin-YR (15.0 µg g–1 DW) andanatoxin-a (10.4 µg g–1 DW), whilst the A. fusiformisstrain from L. Nakuru was found to produce anatoxin-a (0.14µg g–1 DW). Since A. fusiformis mass developmentsare characteristic of alkaline-saline lakes, health risks towildlife, especially the Arthrospira-consuming Lesser Flamingo,may be expected.  相似文献   

10.
Peptide toxins have been valuable probes in efforts to identify amino acid residues that line the permeation pathway of cation-selective channels. However, no peptide toxins have been identified that interact with known anion-selective channels such as the cystic fibrosis transmembrane conductance regulator (CFTR). CFTR channels are expressed in epithelial cells and are associated with several genetic disorders, including cystic fibrosis and polycystic kidney disease. Several organic inhibitors have been used to investigate the structure of the Cl permeation pathway in CFTR. However, investigations of the wider cytoplasmic vestibule have been hindered by the lack of a high-affinity blocker that interacts with residues in this area. In this study we show that venom of the scorpion Leiurus quinquestriatus hebraeus reversibly inhibits CFTR, in a voltage-independent manner, by decreasing single-channel mean burst duration and open probability only when applied to the cytoplasmic surface of phosphorylated channels. Venom was able to decrease burst duration and open probability even when CFTR channels were locked open by treatment with either vanadate or adenosine 5'-(,-imido)triphosphate, and block was strengthened on reduction of extracellular Cl concentration, suggesting inhibition by a pore-block mechanism. Venom had no effect on ATP-dependent macroscopic opening rate in channels studied by inside-out macropatches. Interestingly, the inhibitory activity was abolished by proteinase treatment. We conclude that a peptide toxin contained in the scorpion venom inhibits CFTR channels by a pore-block mechanism; these experiments provide the first step toward isolation of the active component, which would be highly valuable as a probe for CFTR structure and function. cystic fibrosis; anion channel; cystic fibrosis transmembrane conductance regulator; ion channel block  相似文献   

11.
Partially purified homoserine dehydrogenase was prepared frompea seedlings. The optimum pH for this enzyme is approximately 5.4. The Kmvaluesfor ASA and TPNH are 4.6xl0–4Af and 7.7xl0–5M, respectively.This enzyme can also utilize DPNH but less effectively thanTPNH. In contrast with yeast homoserine dehydrogenase whichis insensitive to — SH reagents, the pea enzyme is inhibitedalmost completely by 10–4MPCMB and 10–5MHgCl2, theinhibition being removed by 10–2M thioglycolate. Homoserinedehydrogenase was found not only in decotylized seedlings, butalso in cotyledons. The significance of this enzyme in homoserine biosynthesis ingerminating pea seeds has been discussed. (Received February 20, 1961; )  相似文献   

12.
ELAROSI  HUSSEIN 《Annals of botany》1958,22(3):399-416
The greatest activity of protopectinase obtained from the growthof Rhizoctonia solani and Fusarium solani on autoclaved potatoplugs occurred at pH 6.5, and greatest activity of the ‘lossof viscosity’ enzyme was found at 6–5 for Rhizoctonia,and between 6.5 and 8.3 for Fusarium. Protopectinase enzymeobtained from double infections of the Fusarium spp. with Rhizoctonia,or by mixing the enzymes of individual Fusarium spp. with Rhizoctoniaenzyme, were more active than the enzymes from single inoculations.Cylindrocarpon radicicola enzyme was more active when obtainedfrom a pure culture than from double infection. Similarly, mixingthis enzyme with the enzyme of Rhizoctonia reduced its activity.The evidence indicated that the protopectinase of Rhizoctoniawas similar to that of Cylindrocarpon and differed from thatof the Fusarium spp. Using paper partition chromatography, two bands from Rhizoctoniacrude enzyme had a stimulatory effect on Fusarium enzyme, whileonly one band from Fusarium enzyme stimulated Rhizoctonia enzyme. The purified enzyme of Rhizoctonia degraded pectin to galacturonicacid. Fusarium pure enzyme degraded pectin to an intermediatestage. A mixture of the two enzymes degraded pectin to galacturonicacid, without the intermediate stage formed by Fusarium alonebeing detected. The role played by pectic enzymes upon the synergistic relationof Rhizoctonia solani and Fusarium solani on rotting potatotubers is discussed.  相似文献   

13.
We analyzed the origin and evolution of snake venom toxin families represented in both viperid and elapid snakes by means of phylogenetic analysis of the amino acid sequences of the toxins and related nonvenom proteins. Out of eight toxin families analyzed, five provided clear evidence of recruitment into the snake venom proteome before the diversification of the advanced snakes (Kunitz-type protease inhibitors, CRISP toxins, galactose-binding lectins, M12B peptidases, nerve growth factor toxins), and one was equivocal (cystatin toxins). In two others (phospholipase A(2) and natriuretic toxins), the nonmonophyly of venom toxins demonstrates that presence of these proteins in elapids and viperids results from independent recruitment events. The ANP/BNP natriuretic toxins are likely to be basal, whereas the CNP/BPP toxins are Viperidae only. Similarly, the lectins were recruited twice. In contrast to the basal recruitment of the galactose-binding lectins, the C-type lectins were shown to be Viperidae only, with the alpha-chains and beta-chains resulting from an early duplication event. These results provide strong additional evidence that venom evolved once, at the base of the advanced snake radiation, rather than multiple times in different lineages, with these toxins also present in the venoms of the "colubrid" snake families. Moreover, they provide a first insight into the composition of the earliest ophidian venoms and point the way toward a research program that could elucidate the functional context of the evolution of the snake venom proteome.  相似文献   

14.
Non-competitive inhibition of snake venom phospholipase A2 which has been exhibited by bovine plasma phospholipase A inhibitor, a kind of lipoprotein, was not observed unless the inhibitor was preincubated with the enzyme. The inhibition seemed to be due to the formation of the enzyme-inhibitor complex, which was identified by immunoelectrophoresis. The enzyme-inhibitor interaction was observed maximally on incubation at physiological pH, but not below pH 5. The inhibitor was inactivated by trypsin digestion and heat treatment. It suppressed the phospholipase A2 activities of rat blood plasma as well as of the snake venom and porcine pancreas, but not the enzyme activities such as those of phospholipase C of Bacillus cereus, lipase of porcine pancreas, trypsin, and papain. The inhibitor also showed the ability to decrease membrane-bound phospholipase A1 and A2 activities in intracellular organelles such as plasma membranes, mitochondria, lysosomes, and microsomes. In view of these facts, it was concluded that the plasma inhibitor is specific for phospholipase A.  相似文献   

15.
16.
Proteolytic activities of venoms of vipers kept in a serpentarium for three years or captured in various environmental regions were estimated. Gurza venom contained considerable amounts of protein (830-930 μg/mg venom) and displayed a high proteolytic activity by tyrosine (80-140 μg/m in mg protein). The proteolytic activity did not depend on season or the age or physiological state of snakes in the reproductive period. The proteolytic activity of venom in gurza offspring was similar to that in parent specimens. Proteolytic activities (by tyrosine) of venoms produced by Radde’s vipers and common vipers were 77–90 and 18–36 μg/m in mg protein, respectively. The proteolytic activity of venom in common vipers native to the north European part of Russia was 20–30% higher than that in common vipers inhabiting southern European Russia. An inhibition assay found various ratios of metalloendopeptidase and serine endopeptidase activities in venoms of gurza, Radde’s viper, and common viper.  相似文献   

17.
The fine structure of the tubular and acinous salivary glandsof Nucella lapillus (L.) has been studied and some histochemicaland enzyme tests have been carried out. The clusters of subepithelialcells of the tubular glands secrete a glycoprotein composedof chains of tubular macromolecules resembling secretions knownto have adhesive properties which may assist in boring. Thesecretion is rich in disulphide groups, as are many toxins,and is believed to be responsible for the recently demonstratedpharmacological activity of the glands. It is proposed thatflaccid paralysis is induced in prey by envenomation with thissecretion during rasping, after soft parts have been exposedby an ‘anti-predator’ reaction to secretion fromthe hypobranchial gland of Nucella. The secretory vesicles ofboth types of gland cells in the acinous glands have heterogeneouscontents indicating that their secretions are complex. The majorcomponent in those of the mucous cells is an acid mucopolysaccharidetypical of a lubricant or releasing agent. The ciliated basalcells resemble typical enzyme-secreting cells and the majorconstituent of their secretion is a finely granular glycoprotein. (Received 8 January 1990; accepted 5 June 1990)  相似文献   

18.
The venom glands and related muscles of sea snakes conform in their general structure to those of the terrestrial elapids. The venom gland, however, is smaller in size and the accessory gland is considerably reduced. A similar pattern is found in the Australian elapid Notechis. The musculus compressor glandulae is well developed in the sea snakes and in some species its posterior-medial portion runs uninterruptedly from the origin to the insertion of the muscle. This might be considered as a primitive condition suggesting an early divergence of the sea snakes from an ancestral elapid stock. Three species of sea snakes, Aipysurus eydouxi, Emydocephalus annulatus, and E. ijimae, feed on fish eggs and have very small, but still functioning, venom glands. The reduced accessory gland of the sea snakes is apparently connected with their aquatic environment, as a similar condition is found also in the elapine Boulengerina annulata which lives in large lakes of Central Africa. The similarity in structure of the venom gland between sea snakes and Notechis scutatus may point to a possible phylogenetic relationship between this group of Australian elapids and hydrophiine snakes.  相似文献   

19.
The kinetics of phospholipid hydrolysis by cobra venom phospholipase A2 were examined and compared to those of phospholipase A2 from porcine pancreas, Crotalus adamanteus (rattlesnake) venom, and bee venom. Only the enzyme from Naja naja naja (cobra) venom was found to be activated significantly by phosphorylcholine-containing compounds when hydrolyzing phosphatidylethanolamine. The cobra venom enzyme was also the only one in which these activators induced protein aggregation. The parallel specificity for activators and aggregators suggests that these two phenomena are linked. Product effects were also shown to vary between these four phospholipases. These effects manifest themselves in nonlinear time courses, in changes in steady state velocity, and in the differential effects of serum albumin on reaction rates. Different effects were even seen for the same enzyme when acting on different substrates. A model is presented to account for these observations; its main features are enzyme activation by an activator molecule, whose specificity depends on the enzyme, and an activator-induced aggregation of the enzyme.  相似文献   

20.
Fusarium moniliforme secreted macerating enzymes in liquid mediaonly when these contained certain natural extracts, pectic substances,or galacturonic acid. Apple extract was unsuitable for enzymesecretion and also inhibited enzyme secretion in synthetic mediaotherwise suitable. Protopectinase activity of solutions was highest in the pH range8·0–9·0, was rapidly lost at temperaturesabove 50–60° C., and was reduced by concentrationsof phosphate higher than 0·02 M. The enzyme was partiallypurified by precipitation in 60 per cent. acetone at pH 6·0. Protopectinase solutions also contained an enzyme which reducedthe viscosity of solutions of various pectic substances. Theproperties of this enzyme were, in general, similar to thoseof protopectinase. When activity of enzyme solutions was measured by the liberationof reducing groups, pectate solutions were more rapidly degradedthan were solutions of a high methoxyl pectin, particularlyin the early stages of the reaction. Paper chromatography ofthe products formed showed that pectate and pectin were degradedin different ways. Although the pathogen readily secreted protopectinase in potatoextract, potato tubers were not readily parasitized. In contrast,Fusarium avenaceum which readily attacked tubers, secreted littleprotopectinase in potato extract.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号