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The major storage protein of jackbean (Canavalia ensiformis) has been purified by a protocol involving ammonium-sulphate precipitation, gel filtration and ion-exchange chromatography. The protein was shown by partial amino-acid-sequence data to be homologous to vicilin, a major storage protein of pea (Pisum sativum), and is thus a member of the family of legume 7S proteins exemplified by pea vicilin. This protein is thus referred to as jack-bean vicilin rather than canavalin or precanavalin as previously used. Other properties of the jack-bean vicilin (e.g. subunit relative molecular mass (Mr) and structure, resistance to proteolysis) show similarity to phaseolin, the major 7S storage protein ofPhaseolus vulgaris. Jack-bean vicilin contained no detectable -mannosidase activity, either as isolated from mature or germinating seeds, or after proteolytic treatment. -Mannosidase was also purified from jack beans, and was shown to have a subunit Mr of approx. 120,000; it was separated completely from jack-bean vicilin by a similar protocol to that used for purifying the latter. The -mannosidase was proteolytically cleaved after seed germination, but did not give polypeptides of the same Mr as jackbean vicilin. It was concluded that -mannosidase and jack-bean vicilin are not related proteins.Abbreviations DE
diethylaminoethyl
- M
relative molecular mass
- SDS
sodium dodecyl sulphate
- PAGE
polyacrylamide-gel electrophoresis 相似文献
105.
F Özdal-Kurt I Tuğlu HS Vatansever S Tong BH Şen SI Deliloğlu-Gürhan 《Biotechnic & histochemistry》2016,91(6):412-422
We investigated the effects of different implant biomaterials on cultured canine bone marrow stromal cells (BMSC) undergoing differentiation into osteoblasts (dBMSC). BMSC were isolated from canine humerus by marrow aspiration, cultured and differentiated on calcium phosphate scaffold (CPS), hydroxyapatite, hydroxyapatite in gel form and titanium mesh. We used the MTT method to determine the effects of osteogenic media on proliferation. The characteristics of dBMSC were assessed using alizarin red (AR), immunocytochemistry and osteoblastic markers including alkaline phosphatase/von Kossa (ALP/VK), osteocalcin (OC) and osteonectin (ON), and ELISA. The morphology of dBMSC on the biomaterials was investigated using inverted phase contrast microscopy and scanning electron microscopy. We detected expression of ALP/VK, AR, OC and ON by day 7 of culture; expression increased from day 14 until day 21. CPS supported the best adhesion, cell spreading, proliferation and differentiation of BMSCs. The effects of the biomaterials depended on their surface properties. Expression of osteoblastic markers showed that canine dBMSCs became functional osteoblasts. Tissue engineered stem cells can be useful clinically for autologous implants for treating bone wounds. 相似文献
106.
Background
Phloem feeding insects, such as aphids, feed almost continuously on plant phloem sap, a liquid diet that contains high concentrations of sucrose (a disaccharide comprising of glucose and fructose). To access the available carbon, aphids hydrolyze sucrose in the gut lumen and transport its constituent monosaccharides, glucose and fructose. Although sugar transport plays a critical role in aphid nutrition, the molecular basis of sugar transport in aphids, and more generally across all insects, remains poorly characterized. Here, using the latest release of the pea aphid, Acyrthosiphon pisum, genome we provide an updated gene annotation and expression profile of putative sugar transporters. Finally, gut expressed sugar transporters are functionally expressed in yeast and screened for glucose and fructose transport activity.Results
In this study, using a de novo approach, we identified 19 sugar porter (SP) family transporters in the A. pisum genome. Gene expression analysis, based on 214, 834 A. pisum expressed sequence tags, supports 17 sugar porter family transporters being actively expressed in adult female aphids. Further analysis, using quantitative PCR identifies 4 transporters, A. pisum sugar transporter 1, 3, 4 and 9 (ApST1, ApST3, ApST4 and ApST9) as highly expressed and/or enriched in gut tissue. When expressed in a Saccharomyces cerevisiae hexose transporter deletion mutant (strain EBY.VW4000), only ApST3 (previously characterized) and ApST4 (reported here) transport glucose and fructose resulting in functional rescue of the yeast mutant. Here we characterize ApST4, a 491 amino acid protein, with 12 predicted transmembrane regions, as a facilitative glucose/fructose transporter. Finally, phylogenetic reconstruction reveals that ApST4, and related, as yet uncharacterized insect transporters are phylogenetically closely related to human GLUT (SLC2A) class I facilitative glucose/fructose transporters.Conclusions
The gut enhanced expression of ApST4, and the transport specificity of its product is consistent with ApST4 functioning as a gut glucose/fructose transporter. Here, we hypothesize that both ApST3 (reported previously) and ApST4 (reported here) function at the gut interface to import glucose and fructose from the gut lumen.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2164-15-647) contains supplementary material, which is available to authorized users. 相似文献107.
Ferry N Mulligan EA Stewart CN Tabashnik BE Port GR Gatehouse AM 《Transgenic research》2006,15(4):501-514
Transgenic plants producing insecticidal proteins from Bacillus thuringiensis (Bt) can control some major insect pests and reduce reliance on sprayed insecticides. However, large scale adoption of this
technology has raised concerns about potential negative effects, including evolution of pest resistance to Bt toxins, transgene
flow from Bt crops to other plants, and harm to non-target beneficial organisms. Furthermore, concern has also been expressed
over the effects this technology may have on biodiversity in general. Ecologically relevant risk assessment is therefore required
(Risk = Hazard × Exposure). Transgenic plants that produce Bt toxins to kill insect pests could harm beneficial predators.
This might occur directly by transmission of toxin via prey, or indirectly by toxin-induced reduction in prey quality (Hazard).
To test these hypotheses, we determined the effects of Bt-producing canola on a predatory ground beetle (Pterostichus madidus) fed larvae of diamondback moth (Plutella xylostella) that were either susceptible or resistant to the Bt toxin. Survival, weight gain, and adult reproductive fitness did not
differ between beetles fed prey reared on Bt-producing plants and those fed prey from control plants. Furthermore, while Bt-resistant
prey was shown to deliver high levels of toxin to the beetle when they were consumed, no significant impact upon the beetle
was observed. Subsequent investigation showed that in choice tests (Exposure), starved and partially satiated female beetles
avoided Bt-fed susceptible prey, but not Bt-fed resistant prey. However, in the rare cases when starved females initially
selected Bt-fed susceptible prey, they rapidly rejected them after beginning to feed. This prey type was shown to provide
sufficient nutrition to support reproduction in the bioassay suggesting that Bt-fed susceptible prey is acceptable in the
absence of alternative prey, however adults possess a discrimination ability based on prey quality. These results suggest
that the direct effects of Bt-producing canola on predator life history was minimal, and that predators’ behavioural preferences
may mitigate negative indirect effects of reduced quality of prey caused by consumption of Bt-producing plants. The results
presented here therefore suggest that cultivation of Bt canola may lead to conservation of non-target predatory and scavenging
organisms beneficial in pest control, such as carabids, and may therefore provide more sustainable agricultural systems than
current practices. In addition, minimal impacts on beneficial carabids in agro-ecosystems suggest that Bt canola crops are
likely to be compatible with integrated pest management (IPM) systems. 相似文献
108.
Hogervorst PA Ferry N Gatehouse AM Wäckers FL Romeis J 《Journal of insect physiology》2006,52(6):614-624
Plants genetically modified to express Galanthus nivalis agglutinin (GNA) have been found to confer partial resistance to homopteran pests. Laboratory experiments were conducted to investigate direct effects of GNA on larvae of three species of aphid predators that differ in their feeding and digestive physiology, i.e. Chrysoperla carnea, Adalia bipunctata and Coccinella septempunctata. Longevity of all three predator species was directly affected by GNA, when they were fed a sucrose solution containing 1% GNA. However, a difference in sensitivity towards GNA was observed when comparing the first and last larval stage of the three species. In vitro studies revealed that gut enzymes from none of the three species were able to break down GNA. In vivo feed-chase studies demonstrated accumulation of GNA in the larvae. After the larvae had been transferred to a diet devoid of GNA, the protein stayed present in the body of C. carnea, but decreased over time in both ladybirds. Binding studies showed that GNA binds to glycoproteins that can be found in the guts of larvae of all three predator species. Immunoassay by Western blotting of haemolymph samples only occasionally showed the presence of GNA. Fluorescence microscopy confirmed GNA accumulation in the midgut of C. carnea larvae. Implications of these findings for non-target risk assessment of GNA-transgenic crops are discussed. 相似文献
109.
H.S. Gatehouse J.T. Christeller S.D.G. Marshall 《Journal of invertebrate pathology》2009,101(3):215-221
Amber disease of the New Zealand grass grub Costelytra zealandica (Coleoptera: Scarabaeidae) is caused by ingestion of pADAP plasmid carrying isolates of Serratia entomophila or Serratia proteamaculans (Enterobacteriaceae) and causes infected larvae to cease feeding and clear their midgut to a pale amber colour where midgut serine protease activities are virtually eliminated. Using bacterial strains and mutants expressing combinations of the anti-feeding (afp) and gut clearance (sep) gene clusters from pADAP, we manipulated the disease phenotype and demonstrated directly the relationship between gene clusters, phenotype and loss of enzyme activity. Treatment with afp-expressing strains caused cessation of feeding without gut clearance where midgut protease activity was maintained at levels similar to that of healthy larvae. Treatment with strains expressing sep-genes caused gut clearance followed by a virtual elimination of trypsin and chymotrypsin titre in the midgut indicating both the loss of pre-existing enzyme from the lumen and a failure to replenish enzyme levels in this region by secretion from the epithelium. Monitoring of enzymatic activity through the alimentary tract during expression of disease showed that loss of serine protease activity in the midgut was matched by a surge of protease activity in the hindgut and frass pellets, indicating a flushing and elimination of the midgut contents. The blocking of enzyme secretion through amber disease appears to be selective as leucine aminopeptidase and α-amylase were still detected in the midgut of diseased larvae. 相似文献
110.
RNA interference in Lepidoptera: an overview of successful and unsuccessful studies and implications for experimental design 总被引:5,自引:0,他引:5
Terenius O Papanicolaou A Garbutt JS Eleftherianos I Huvenne H Kanginakudru S Albrechtsen M An C Aymeric JL Barthel A Bebas P Bitra K Bravo A Chevalier F Collinge DP Crava CM de Maagd RA Duvic B Erlandson M Faye I Felföldi G Fujiwara H Futahashi R Gandhe AS Gatehouse HS Gatehouse LN Giebultowicz JM Gómez I Grimmelikhuijzen CJ Groot AT Hauser F Heckel DG Hegedus DD Hrycaj S Huang L Hull JJ Iatrou K Iga M Kanost MR Kotwica J Li C Li J Liu J Lundmark M Matsumoto S Meyering-Vos M Millichap PJ 《Journal of insect physiology》2011,57(2):231-245
Gene silencing through RNA interference (RNAi) has revolutionized the study of gene function, particularly in non-model insects. However, in Lepidoptera (moths and butterflies) RNAi has many times proven to be difficult to achieve. Most of the negative results have been anecdotal and the positive experiments have not been collected in such a way that they are possible to analyze. In this review, we have collected detailed data from more than 150 experiments including all to date published and many unpublished experiments. Despite a large variation in the data, trends that are found are that RNAi is particularly successful in the family Saturniidae and in genes involved in immunity. On the contrary, gene expression in epidermal tissues seems to be most difficult to silence. In addition, gene silencing by feeding dsRNA requires high concentrations for success. Possible causes for the variability of success in RNAi experiments in Lepidoptera are discussed. The review also points to a need to further investigate the mechanism of RNAi in lepidopteran insects and its possible connection to the innate immune response. Our general understanding of RNAi in Lepidoptera will be further aided in the future as our public database at http://insectacentral.org/RNAi will continue to gather information on RNAi experiments. 相似文献