Laurence N. Gatehouse

Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

The range of sap-sucking insect pests to which GNA, (the mannose specific lectin from snowdrops (Galanthus nivalis) has been shown to be insecticidal in artificial diets has been extended to include the peach potato aphid (Myzus persicae). A gene construct for constitutive expression of GNA from the CaMV35S gene promoter has been introduced into tobacco plants. A transgenic tobacco line which expresses high levels of GNA has been shown to have enhanced resistance toM. persicae in leaf disc and whole plant bioassays,demonstrating the potential for extending transgenic plant technology to the control of sap-sucking insect pests.

Characterization of major midgut proteinase cDNAs from Helicoverpa armigera larvae and changes in gene expression in response to four proteinase inhibitors in the diet

A Helicoverpa armigera larval midgut cDNA library from larvae raised on an artificial, protein-rich, inhibitor-free diet contained very large numbers of serine proteinase positive clones. DNA sequencing of six random positive cDNAs and 12 PCR derived products identified trypsin genes classifiable into three families, and chymotrypsin and elastase genes classifiable into a single family each. Genomic blots established that the most highly expressed of the trypsin families contained about 18 genes, and that the chymotrypsin and elastase families contained about 14 and 2 genes respectively. The levels of mRNA corresponding to the highly expressed trypsin and chymotrypsin families were determined following chronic ingestion of four proteinase inhibitors. Compared to insects on an inhibitor-free diet, chymotrypsin mRNA was increased by all inhibitors, and trypsin mRNA levels decreased. This occurred independent of whether the inhibitor was solely a trypsin inhibitor (aprotinin), an inhibitor of both trypsin and chymotrypsin (proteinase inhibitor II, soybean trypsin inhibitor) or predominantly a chymotrypsin inhibitor (proteinase inhibitor I). Changing the protein level of the diet did not affect trypsin mRNA levels, but chymotrypsin mRNA levels decreased with increasing dietary protein.

A gene from pea (Pisum sativum L.) with homology to metallothionein genes

While searching for ‘organ‐specific’ genes in pea (Pisum sativum L.) we have isolated a gene (designated PsMT A) which has an ORF encoding a predicted protein with some similarity to metallothioneins (MTs). The PsMT A transcript is abundant in roots which have not been exposed to elevated concentrations of trace metals.

The inhibitory effects of the cysteine protease inhibitor, oryzacystatin, on digestive proteases and on larval survival and development of the southern corn rootworm (Diabrotica undecimpunctata howardi)

At least eight proteolytic activities have been identified in the midgut contents of larval Southern corn rootworm (Diabrotica undecimpunctata howardi). Around 70% of protease activity could be arrested by the cysteine protease inhibitors E‐64 and chicken egg‐white cystatin, while the aspartic acid protease inhibitor pepstatin caused 30% inhibition. The cysteine protease activity was found to be highly sensitive to inhibition by both chicken egg‐white cystatin and the rice cystatin, oryzacystatin I. Oryzacystatin I, expressed as a fully functional fusion protein in E. coli, was found to strongly inhibit larval gut protease activity. This recombinant oryzacystatin, incorporated into artificial diet at concentrations of 10 mM and above, caused significant decreases in larval survival and weight gain. E‐64 was also shown to cause a significant antimetabolic in vivo effect. These results demonstrate the great potential for cysteine protease inhibitors, such as oryzacystatin, as tools for exploitation in the control of the Southern corn rootworm.

Influence of plant development and environment on transgene expression in potato and consequences for insect resistance

Clonal replicates of different transformed potato plants expressing transgene constructs containing the constitutive Cauliflower Mosaic Virus (CaMV) 35S promoter, and sequences encoding the plant defensive proteins snowdrop lectin (Galanthus nivalis agglutinin; GNA), and bean chitinase (BCH) were propagated in tissue culture. Plants were grown to maturity, at first under controlled environmental conditions, and later in the glasshouse. For a given transgene product, protein accumulation was found to vary between the different lines of clonal replicates (where each line was derived from a single primary transformant plant), as expected. However, variability was also found to exist within each line of clonal replicates, comparable to the variation of mean expression levels observed between the different clonal lines. Levels of GNA, accumulated in different parts of a transgenic potato plant, also showed variation but to a lesser extent than plant–plant variation in expression. With the majority of the clonal lines investigated, accumulation of the transgene product was found to increase as the potato plant developed, with maximum levels found in mature plants. The variation in accumulation of GNA among transgenic plants within a line of clonal replicates was exploited to demonstrate that the enhanced resistance towards larvae of the tomato moth, Lacanobia oleracea L., caused by expression of this protein in potato, was directly correlated with the level of GNA present in the plants, and that conditions under which the plants were grown affect the levels of GNA expression and subsequent levels of insect resistance.

The extensin gene family in oilseed rape (Brassica napus L.): Characterisation of sequences of representative members of the family

SummaryA family of cross-hybridising cDNA clones has been isolated from a cDNA library produced with poly(A)+ RNA from the roots of oilseed-rape (Brassica napus L.). The clones were selected as abundantly expressed in root by differential screening of the root cDNA library with cDNA probes prepared from root, green leaf, etiolated leaf and developing seed. mRNA species corresponding to the selected abundant clones were expressed in roots at levels of at least 400 times those in other organs, as shown by Northern blot analysis and RNase protection assays. Complete nucleotide sequence determination of the cDNA clones showed that they encoded proteins homologous to carrot extensin and were the products of at least three different genes. An extensin gene, designated extA, was obtained from an oilseed rape (B. napus L.) genomic library screened with a cDNA species encoding a protein expressed abundantly in roots. The gene is a member of a multigene family, consisting of about 3 members per haploid genome with strong homology to the probe, and a further 20 or so members with weaker homology. The isolated gene, although not identical to the cDNA probe, was also found to be specifically expressed in roots, and was transcribed into a mRNA species approximately 1300 nucleotides in size. A single transcription start was identified by S1 mapping. The complete nucleotide sequence of the extA gene and its flanking regions has been determined and shown to encode a protein homologous to carrot and tomato extensins.

The expression of a mammalian proteinase inhibitor, bovine spleen trypsin inhibitor in tobacco and its effects on Helicoverpa armigera larvae

The cDNA for bovine spleen trypsin inhibitor (SI), a homologue of bovine pancreatic trypsin inhibitor (BPTI), including the natural mammalian presequence was expressed in tobacco using Agrobacterium tumefaciens-mediated transformation. Stable expression required the N-terminal targeting signal presequence although subcellular localization was not proven. SI was found to exist as two forms, one coinciding with authentic BPTI on western blots and the second marginally larger due to retention of the C-terminal peptide. Both were retained on a trypsin-agarose affinity gel and had inhibitory activity. Newly emergent leaves contained predominantly the large form whereas senescent leaves had little except the fully processed form present. Intermediate-aged leaves showed a gradual change indicating that a slow processing of the inhibitor peptide was occurring. The stability of SI was shown by the presence of protein at high levels in completely senescent leaves. Modifications to the cDNA (3′ and 5′ changes and minor codon changes) resulted in a 20-fold variation in expression. Expression of modified SI in transgenic tobacco leaves at 0.5% total soluble protein reduced both survival and growth of Helicoverpa armigera larvae feeding on leaves from the late first instar. In larvae surviving for 8 days, midgut trypsin activity was reduced in SI-tobacco fed larvae, while chymotrypsin activity was increased. Activities of leucine aminopeptidase and elastase-like chymotrypsin remained unaltered. The use of SI as an insect resistance factor is discussed.

The effects of Phaseolus vulgaris erythro- and leucoagglutinating isolectins (PHA-E and PHA-L) delivered via artificial diet and transgenic plants on the growth and development of tomato moth (Lacanobia oleracea) larvae; lectin binding to gut glycoproteins in vitro and in vivo.

Red kidney bean, Phaseolus vulgaris, contains a lectin phytohemagglutinin (PHA) with toxicity towards higher animals. PHA exists in the isoforms PHA-E and PHA-L, which agglutinate erythrocytes and lymphocytes, respectively. Lacanobia oleracea larvae were reared from hatch on artificial diets containing PHA-E or PHA-L at 2% (w/w) dietary protein, and on transgenic Arabidopsis plants expressing either lectin at 0.4-0.6% of total soluble proteins. In artificial diet bioassays neither lectin affected larval survival, development, growth nor consumption. In transgenic plant bioassays both PHA-E and PHA-L promoted larval growth and development. This effect was greatest for PHA-E. Mean larval biomass of insects fed on plants expressing PHA-E was significantly greater (up to two-fold) than controls during the final two instars and the insects developed at a significantly greater rate so that after 26 days 83% of PHA-E exposed insects were in the final instar compared to 44% for control insects. PHA-E and PHA-L were detected by Western blotting in haemolymph, sampled from insects fed diets or plant material containing the lectins. However, despite the demonstrated potential for both isolectins to bind to gut glycopolypeptides in vitro neither was found to accumulate in vivo in the guts of exposed insects. Since lectin binding to gut polypeptides is thought to be necessary for insecticidal activity the failure of PHA-E and PHA-L to bind in vivo may account for their lack of toxicity to L. oleracea.

Expression of a Brassica napus extensin gene in the vascular system of transgenic tobacco and rape plants

The organs and tissues where the Brassica napus extA extensin gene is expressed have been identified. The extA gene with 3.75 kb of 5′ flanking sequence was transferred to tobacco via disarmed Agrobacterium tumefaciens vectors and transgenic plants regenerated. The gene was found to be inactive in transgenic tobacco leaf, but was active as measured by RNA transcript assays in both stem and root tissues. To determine the cell-specific expression pattern of the extA gene, a promoter-reporter gene fusion construct was made consisting of 1.0 kb of 5′ extA sequence fused to the coding region of the glucuronidase (GUS) gene. This fusion construct was introduced into B. napus via Agrobacterium rhizogenes, and expression of GUS in transgenic rape hairy roots was examined. GUS activity was only seen in the vascular tissues of the rape root, and was found to be specifically localised in the phloem.

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

SummaryA 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.