Enhanced insect resistance in Thai rice varieties generated by particle bombardment

We used particle bombardment to transform two elite Thai rice varieties, Khao Dawk Mali 105 (KDML105) and Supanburi 60 (SP60), with the snowdrop lectin gene gna (Galanthus nivalis agglutinin). This gene confers resistance to sap-sucking insects such as the brown planthopper (BPH; Nilaparvata lugens), which is one of the most damaging pests of rice. Traditionally, KDML105 and SP60 have been regarded as recalcitrant to transformation, and this is the first account of successful gene transfer to these varieties. By molecular analysis, we confirmed the recovery of over thirty gna-transgenic lines. GNA protein expression was characterised by western blot analysis, and we achieved expression levels of up to 0.25% total soluble protein. GNA-producing R₁ transgenic plants were significantly more resistant to BPH than control plants (P<0.0001), with 37% and 42% reduction in nymphal survival for constitutive and phloem-specific expression, respectively. Transferring the gna gene to these superior rice varieties thus represents a major step forward for crop improvement in Thailand, and should help to reduce the damage caused by rice pests, and hence increase yields for this vital domestic and export market.     

Detrimental effects of 2,5-Dihydroxymethyl-3,4-dihydroxypyrrolidine in some tropical legume seeds on larvae of the bruchid Callosobruchus maculatus

The secondary plant compound 2,5-Dihydroxymethyl-3,4-dihydroxypyrrolidine (DMDP), an analogue of -D-fructofuranose, is lethal to the larvae of the bruchid beetle Callosobruchus maculatus F. when incorporated into artificial diets at levels greater than 0.03%. In the range 0.003% to 0.03% the compound reduces larval survival in a dose-dependent manner. The -D-glucosidase digestive enzyme demonstrated in homogenates of the alimentary tract of the larvae is strongly inhibited by the compound in a competitive manner.

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Résumé La substance secondaire 2,5-dihydroxyméthyl-3,4-dihydroxypyrrolidine (DMDP), analogue du -fructofuranose, est létale pour les larves de C. maculatus lorsqu'elle est incorporée dans des régimes alimentaires à des taux supérieurs à 0.03%. Entre 0.003% et 0.03%, la substance réduit la survie larvaire proportionnellement à la dose. L'enzyme digestive -D-glucosidase observée dans les homogénats du tube digestif de la larve est fortement inhibée par la substance d'une façon compétitive.

     

Distribution of root mRNA species in other vegetative organs of pea (Pisum sativum L.)

Summary A cDNA library was prepared from, poly(A)⁺ RNA from roots of pea (Pisum sativum L.). Twenty five clones were selected by use of random numbers and used as probes on Northern blots to analyse the distribution of their corresponding mRNA species in other vegetative pea organs: leaf, stem and developing cotyledon. Fifteen cDNA inserts hybridised to single mRNA species, five hybridised to two mRNA species and one hybridised to five homologous mRNAs. Four cDNA clones (16% of those selected) gave no hybridization signals, indicating that the steady state levels of mRNAs were below the detection limit (i.e.less than 2.5 x 10^-5% of poly(A)⁺ RNA). Most of the root mRNAs were represented in all four pea organs as sequences of low and medium abundance. All but two cDNAs encoded mRNA species enhanced in root. However, cDNA clones appeared not to encode mRNA species expressed in a strictly organ-specific manner, as no mRNA unique to root was found. Thus, if organ-unique mRNA species are present, they are only present at a very low level of abundance in the poly(A)⁺RNA population.     

<Emphasis Type="Italic">OXI1</Emphasis> kinase plays a key role in resistance of Arabidopsis towards aphids (<Emphasis Type="Italic">Myzus persicae</Emphasis>)

Plants have co-evolved with a diverse array of pathogens and insect herbivores and so have evolved an extensive repertoire of constitutive and induced defence mechanisms activated through complex signalling pathways. OXI1 kinase is required for activation of mitogen-activated protein kinases (MAPKs) and is an essential part of the signal transduction pathway linking oxidative burst signals to diverse downstream responses. Furthermore, changes in the levels of OXI1 appear to be crucial for appropriate signalling. Callose deposition also plays a key role in defence. Here we demonstrate, for the first time, that OXI1 plays an important role in defence against aphids. The Arabidopsis mutant, oxi1-2, showed significant resistance both in terms of population build-up (p?<?0.001) and the rate of build-up (p?<?0.001). Arabidopsis mutants for β-1,3-glucanase, gns2 and gns3, showed partial aphid resistance, significantly delaying developmental rate, taking two-fold longer to reach adulthood. Whilst β-1,3-glucanase genes GNS1, GNS2, GNS3 and GNS5 were not induced in oxi1-2 in response to aphid feeding, GNS2 was expressed to high levels in the corresponding WT (Col-0) in response to aphid feeding. Callose synthase GSL5 was up-regulated in oxi1-2 in response to aphids. The results suggest that resistance in oxi1-2 mutants is through induction of callose deposition via MAPKs resulting in ROS induction as an early response. Furthermore, the results suggest that the β-1,3-glucanase genes, especially GNS2, play an important role in host plant susceptibility to aphids. Better understanding of signalling cascades underpinning tolerance to biotic stress will help inform future breeding programmes for enhancing crop resilience.     

Antifeedant effects of plant lectins and an enzyme on the adult stage of the rice brown planthopper,Nilaparvata lugens

The feeding activity of adult rice brown planthopper,Nilaparvata lugens (Stal) on selected proteins incorporated into artificial diets was examined, based on quantitative analysis of honeydew excretion, in order to determine the mechanism of action of antimetabolic proteins towards homopteran pests. The lectinsGalanthus nivalis agglutinin (GNA), wheat germ agglutinin (WGA) and the enzyme soybean lipoxygenase (LPO), previously demonstrated to be toxic to this insect, reduced honeydew excretion levels of adultNilaparvata lugens over a 24 h period when incorporated into artificial diet at 0.1% {w:v}, indicating that these proteins acted as antifeedants. Of the proteins tested GNA was the most effective antifeedant, reducing honeydew droplet production by 96%, although after 24 h there was some recovery in the honeydew excretion levels and thus the insects appeared to tolerate the presence of the antifeedant with time. The lectinPisum sativum agglutinin (PSA), previously demonstrated to be non-toxic, showed no antifeedant properties.     

Transgenic potato plants with enhanced resistance to the tomato moth,Lacanobia oleracea: growth room trials

Insecticidal effects of three plant-derived genes, those encoding snowdrop lectin (GNA), bean (Phaseolus vulgaris) chitinase (BCH) and wheat -amylase (WAI), were investigated and compared with effects of the cowpea trypsin inhibitor gene (CpTI). Transgenic potato plants containing each of the three genes singly, and in pairwise combinations were produced. All the introduced genes were driven by the CaMV 35S promoter; expression was readily detectable at the RNA level in transformants, but not detectable accumulation of WAI could be detected in transgenic potatoes containing its encoding gene. GNA and BCH were accumulated at levels up to 2.0% of total soluble protein; both proteins were expressed in a functional form, and GNA was shown to undergo 'correct' N-terminal processing. Accumulation levels of individual proteins were higher in plants containing a single foreign gene than in plants containing two foreign genes.Resistance of the transgenic plants to insect attack was assayed by exposing the plants to larvae of the tomato moth, Lacanobia oleracea. All the plants tested which were expressing GNA showed an enhanced level of resistance. Leaf damage was reduced by more than 50% compared to controls; total insect biomass per plant was reduced by 45-65%, but larval survival was only slightly reduced (20%). These results support the hypothesis that GNA has a significant antifeedant effect on insects. Expression of BCH had no protective effect against this insect. Expression of CpTI in transgenic potatoes had similar effects to expression of GNA on total insect biomass and survival, but did not afford protection against insect damage to the plant.     

Effects of long-term exposure to 900 megahertz electromagnetic field on heart morphology and biochemistry of male adolescent rats

The pathological effects of exposure to an electromagnetic field (EMF) during adolescence may be greater than those in adulthood. We investigated the effects of exposure to 900 MHz EMF during adolescence on male adult rats. Twenty-four 21-day-old male rats were divided into three equal groups: control (Cont-Gr), sham (Shm-Gr) and EMF-exposed (EMF-Gr). EMF-Gr rats were placed in an EMF exposure cage (Plexiglas cage) for 1 h/day between postnatal days 21 and 59 and exposed to 900 MHz EMF. Shm-Gr rats were placed inside the Plexiglas cage under the same conditions and for the same duration, but were not exposed to EMF. All animals were sacrificed on postnatal day 60 and the hearts were extracted for microscopic and biochemical analyses. Biochemical analysis showed increased levels of malondialdehyde and superoxide dismutase, and reduced glutathione and catalase levels in EMF-Gr compared to Cont-Gr animals. Hematoxylin and eosin stained sections from EMF-Gr animals exhibited structural changes and capillary congestion in the myocardium. The percentage of apoptotic myocardial cells in EMF-Gr was higher than in either Shm-Gr or Cont-Gr animals. Transmission electron microscopy of myocardial cells of EMF-Gr animals showed altered structure of Z bands, decreased myofilaments and pronounced vacuolization. We found that exposure of male rats to 900 MHz EMF for 1 h/day during adolescence caused oxidative stress, which caused structural alteration of male adolescent rat heart tissue.     

Variation in polypeptides of the major albumin protein of pea (Pisum sativum L.) : Inheritance and molecular analysis

Summary The variation in the polypeptides of the major albumin (MA) protein of different pea genotypes was studied. The two MA polypeptides, MA-L and MA-S, behave as products of single Mendelian genes at a single locus. The band patterns of fragments of restricted genomic DNA of four pea genotypes, detected by hybridisation with a cDNA encoding MA, revealed differences in the number and sizes of DNA fragments related to MA. This is discussed in relation to MA protein structure. The relative amount of MA protein in seeds appears to be strongly influenced by the total number of gene copies present in a genotype. Through molecular analysis at the protein, RNA and genomic DNA levels, a mutant line was identified which carries a deletion of the active MA structural genes.     

The bacterial mutagenicity of three naturally occurring indoles after reaction with nitrous acid

Three naturally occurring indoles were evaluated for potential nitrosatability using the Nitrosation Assay Procedure (NAP test) as recommended by the World Health Organisation. All three indoles i.e. tryptophan, tryptamine and 5-hydroxy-tryptamine were nitrosated to products which were directly mutagenic for S. typhimurium TA1537. In addition, the products of nitrosation of tryptamine and 5-hydroxytryptamine were also mutagenic for strains TA1538, TA98 and TA1535 without the need for metabolic activation. The sensitivities of the frameshift-detecting strains TA1537, TA1538 and TA98 were of particular interest, since nitroso compounds are characteristically base-substitution mutagens. The mutagenic effects of the products formed after nitrosation of each indole at pH 3.6, were eliminated in the presence of S9 mix. This was not the case when the nitrosation assay was carried out at pH 2.6. At this pH the mutagenicity of the nitrosated products varied in the presence of S9 mix and depended upon the nature of the indole undergoing nitrosation, and the bacterial test strain utilised for the mutagenicity assay. This indicated that more than one mutagenic product was responsible for the observed effects. As well as pH, a number of other factors influenced the formation of mutagenic nitroso products. Most notably, the concentrations of precursor compounds (sodium nitrite, and indole) present in the NAP test were of critical importance. As the sodium nitrite concentration was reduced from that recommended by the W.H.O. (40 mM), so the mutagenicity decreased. For all three compounds significant mutagenic effects were lost at sodium nitrite concentrations below 15 mM. In conclusion the data presented in this paper clearly demonstrates that individuals are chronically exposed to naturally occurring substances which readily nitrosate in excess nitrous acid and yield bacterial mutagens.