Transgene copy number can be positively or negatively associated with transgene expression

Two different types of T-DNA insert were found in tobacco plants transformed with Agrobacterium tumefaciens. High-expressing (H) types had one copy of the T-DNA at a locus and produced high expression of the transgene uidA, as measured by uidA RNA levels and -glucuronidase activity; low-expressing (L) types had inverted repeats of the T-DNA at a locus and produced low uidA expression. H-types from different transformants acted additively, and cross-fertilization between two different homozygous transformants with H-type inserts produced F₁ plants with GUS activity that equalled the parents and individual F₂ plants with 50%, 100%, 150% and 200% of parental values. However, the L-type inserts worked in trans to suppress uidA expression from H-type inserts when both were present in the same genome. Hence when a transformant homozygous for the L-type insert was crossed to one homozygous for the H-type, all plants in the F₁ and F₂ generations with both types of insert had low GUS activity while F₂ segregants that only had the H-type inserts had high GUS activity again. Suppression of the H-type gene was associated with increased methylation of the insert. Particle acceleration was used to introduce further copies of uidA into tissues of the transformants. Regardless of the promoter used, those plants with endogenous L-type inserts showed none of the distinct loci of GUS activity readily visible in material with no inserts, showing that L-type inserts could suppress not only the uidA expression of genomic homologues, but also of copies added in vitro.     

Molecular and genetic analysis of nitrite reductase co-suppression in transgenic tobacco plants

Silencing ofNia host genes and transgenes (encoding nitrate reductase) was previously achieved by introducing into tobacco plants the tobaccoNia2 cDNA cloned downstream of the cauliflower mosaic virus (CaMV) 35S promoter. To check whetherNii host genes and transgenes (encoding nitrite reductase, the second enzyme of the nitrate assimilation pathway) were also susceptible to silencing, a transgene consisting of the tobaccoNii1 gene with two copies of the enhancer of the 35S promoter cloned 1 kb upstream of theNii promoter region was introduced into tobacco plants. Among nine independent transformants analysed, two showed silencing ofNii host genes and transgenes in some descendants after selfing, but never after back-crossing with wild-type plants, suggesting that silencing depends on the number of transgene loci and/or on certain allelic or ectopic combinations of transgene loci. In one transformant carrying a single transgene locus in a homozygous state, silencing was triggered in all progeny plants of each generation, 20 to 50 days after germination. Field trial analysis confirmed that silencing was not triggered when the transgene locus of this latter line was present in a hemizygous state. In addition, it was revealed that silencing can be triggered, albeit at low frequency and later during the development, when this transgene locus is brought into the presence of a non-allelic transgene locus by crossing, suggesting that a homozygous state is not absolutely required.     

The relationship between homozygous and hemizygous transgene expression levels over generations in populations of transgenic rice plants

Segregating T₁, T₂ and T₃ transgenic rice populations, derived from independent particle-bombardment-mediated transformation events were examined in order to assess the effect of gene dosage on transgene expression levels and stability. The expression level of the unselected β-glucuronidase (gusA) reporter gene was quantified in plants from these populations. The gusA gene dosage was determined by segregation analysis of progeny seedlings at the structural level (by PCR) and at the expression level. For some transformation events a gene dosage effect on transgene expression was observed, leading to higher transgene expression levels in homozygous progeny than in hemizygous progeny or primary transgenic plants. However, in many other transformation events, the homozygous state appears to be disadvantageous, being associated with lower transgene expression levels, gene silencing or counter-selection of homozygous plants across generations. Change of gene dosage is probably one of the key factors influencing transgene expression levels and stability in transgenic rice. This is particularly important when considering molecular genetic studies and crop improvement programmes. The possible influence of matrix attachment regions (MARs) in increasing the likelihood of an additive effect on transgene expression level is discussed. Received: 21 March 2001 / Accepted: 29 June 2001     

Phenotypic changes associated with RNA interference silencing of chalcone synthase in apple (Malus × domestica)

We have identified in apple (Malus × domestica) three chalcone synthase (CHS) genes. In order to understand the functional redundancy of this gene family RNA interference knockout lines were generated where all three of these genes were down‐regulated. These lines had no detectable anthocyanins and radically reduced concentrations of dihydrochalcones and flavonoids. Surprisingly, down‐regulation of CHS also led to major changes in plant development, resulting in plants with shortened internode lengths, smaller leaves and a greatly reduced growth rate. Microscopic analysis revealed that these phenotypic changes extended down to the cellular level, with CHS‐silenced lines showing aberrant cellular organisation in the leaves. Fruit collected from one CHS‐silenced line was smaller than the ‘Royal Gala’ controls, lacked flavonoids in the skin and flesh and also had changes in cell morphology. Auxin transport experiments showed increased rates of auxin transport in a CHS‐silenced line compared with the ‘Royal Gala’ control. As flavonoids are well known to be key modulators of auxin transport, we hypothesise that the removal of almost all flavonoids from the plant by CHS silencing creates a vastly altered environment for auxin transport to occur and results in the observed changes in growth and development.     

Analysis of mosaic expression of the nptII gene in transgenic tobacco plant lines contrasting in mosaicism

Differences in the mosaic plants occurence frequency between the Nu5 and Nu6 lines of transgenic tobacco (Nicotiana tabacum) plants remained irrespective of the nptII marker gene allelic state. nptII gene transition from the hemizygous state (T₃) to the homozygous one (T₄) was accompanied by an increase in the frequency of mosaics in both lines. Transition from the homozygous state (T₄) into the hemizygous one (F₁) resulted in a further increase in the frequency of mosaic plants in the Nu5 line, whereas this parameter remained at a high level in the Nu6 line. pMAS promoter hypermethylation in plants of both lines, as well as differences in the 5??-part truncated nptII gene copy cytosin methylation level between the Nu5 and Nu6 lines, pointed to nptII gene mosaic expression epigenetic regulation.     

Regulated inactivation of homologous gene expression in transgenic Nicotiana sylvestris plants containing a defense-related tobacco chitinase gene.

Summary The class I chitinases are vacuolar proteins implicated in the defense of plants against pathogens. Leaves of transgenic Nicotiana sylvestris plants homozygous for a chimeric tobacco (Nicotiana tabacum) chitinase gene with Cauliflower Mosaic Virus (CaMV) 35S RNA expression signals usually accumulate high levels of chitinase relative to comparable leaves of non-transformed plants. Unexpectedly, some transgenic plants accumulated lower levels of chitinase than nontransformed plants. We call this phenomenon silencing. The incidence of silencing depends on the early rearing conditions of the plants. When grown to maturity in a greenhouse, 25% of plants raised as seedlings in closed culture vessels were of the silent type; none of the plants raised from seed in a greenhouse showed this phenotype. Silencing is also developmentally regulated. Plants showed three patterns of chitinase expression: uniformly high levels of expression in different leaves, uniformly low levels of expression in different leaves, and position-dependent silencing in which expression was uniform within individual leaves but varied in different leaves on the same plant. Heritability of the silent phenotype was examined in plants homozygous for the transgene. Some direct descendants exhibited a high-silent-high sequence of activity phenotypes in successive sexual generations, which cannot be explained by simple Mendelian inheritance. Taken together, the results indicate that silencing results from stable but potentially reversible states of gene expression that are not meiotically transmitted. Gene-specific measurements of chitinase and chitinase mRNA showed that silencing results from co-suppression, i.e. the inactivation of both host and transgene expression in trans. The silent state was not correlated with cytosine methylation of the transgene at the five restriction sites investigated.These authors have both made an equal contribution to this work     

Phenotypic and Genotypic Analysis of Rats with Cerebellar GABAA Receptors Composed from Mutant and Wild-Type α6 Subunits

Abstract: The alcohol-sensitive (ANT) rat line, developed for high behavioral sensitivity to ethanol, also exhibits enhanced sensitivity to benzodiazepines, such as diazepam. The rat line carries a point mutation in the cerebellum-specific γ-aminobutyric acid type A (GABA_A) receptor subunit α6, making their diazepam-insensitive (DIS) receptors sensitive to diazepam. We now report that phenotypes of individual ANT and alcohol-insensitive rats, classified on diazepam sensitivity of cerebellar [³H]Ro 15-4513 binding, correlated well with homozygous wild-type, homozygous mutant, and heterozygous genotypes, although some heterozygotes were biased toward the parental phenotypes. GABA down-modulated DIS [³H]Ro 15-4513 binding in mutant homozygotes but tended to up-modulate it in heterozygotes and wild-type homozygotes. Slopes for GABA inhibition of cerebellar t-butylbicyclophosphoro[³⁵S]thionate binding were larger in mutant than in wild-type homozygotes, with heterozygotes being intermediate. Diazepam displacement of [³H]Ro 15-4513 binding in heterozygotes revealed three components, with their affinities indistinguishable from those in combined wild-type and mutant homozygotes. This lack of interaction in DIS binding between wild-type and mutant α6 subunits was substantiated by experiments on recombinant receptors. The data suggest that the α6 subunit-containing GABA_A receptors in the heterozygotes are formed from individual mutant and wild-type subunits with their relative expression differing from animal to animal.     

Dedifferentiation-mediated changes in transposition behavior make the Activator transposon an ideal tool for functional genomics in rice

There is an inverse relationship between the level of cytosine methylation in genomic DNA and the activity of plant transposable elements. Increased transpositional activity is seen during early plant development when genomic methylation patterns are first erased and then reset. Prolonging the period of hypomethylation might therefore result in an increased transposition frequency, which would be useful for rapid genome saturation in transposon-tagged plant lines. We tested this hypothesis using transgenic rice plants containing Activator (Ac) from maize. R₁ seeds from an Ac-tagged transgenic rice line were either directly germinated and grown to maturity, or induced to dedifferentiate in vitro, resulting in cell lines that were subsequently regenerated into multiple mature plants. Both populations were then analyzed for the presence, active reinsertion and amplification of Ac. Plants from each population showed excision-reinsertion events to both linked and unlinked sites. However, the frequency of transposition in plants regenerated from cell lines was more than nine-fold greater than that observed in plants germinated directly from seeds. Other aspects of transposon behavior were also markedly affected. For example, we observed a significantly larger proportion of transposition events to unlinked sites in cell line-derived plants. The tendency for Ac to insert into transcribed DNA was not affected by dedifferentiation. The differences in Ac activity coincided with a pronounced reduction in the level of genomic cytosine methylation in dedifferentiated cell cultures. We used the differential transposon behavior induced by dedifferentiation in the cell-line derived population for direct applications in functional genomics and validated the approach by recovering Ac insertions in a number of genes. Our results demonstrate that obtaining multiple Ac insertions is useful for functional annotation of the rice genome.These authors contributed equally to the work     

Agrobacterium-mediated transformation of germinating seeds of Arabidopsis thaliana: A non-tissue culture approach

Summary Germinating seeds of Arabidopsis thaliana were cocultivated with an Agrobacterium tumefaciens strain (C58Clrif) carrying the pGV3850:pAK1003 Ti plasmid. This Ti plasmid contains the neomycin phosphotransferase II gene (NPT II) which confers resistance to kanamycin and G418. Seeds (T1 generation) imbibed for 12 h before a 24 h exposure to Agrobacterium gave rise to the highest number of transformed progeny (T2 generation). Over 200 kanamycin-resistant T2 seedlings were isolated. Some of the T2 seedlings and T3 families were characterized for genetic segregation of functional NPT II gene(s), NPT II activity, and the presence of T-DNA inserts (Southern analysis). Ninety percent of the T2 individuals transmitted the resistance factor to the T3 families in a Mendelian fashion. Of the T3 families segregating in a Mendelian fashion (n=111), 62% segregated for one functional insert, 29% for two unlinked or linked functional inserts, 5% for three unlinked inserts, 1% for four unlinked inserts, whereas 3% appeared to be homozygous for the insert(s). The 13 families that did not exhibit Mendelian segregation ratios fell into 2 classes, both of which had a deficiency of kanamycin-resistant seedlings. In the Group I T3 families (n=6) only 0%–2% of the seedlings were resistant to kanamycin (100 mg/l), whereas in the Group II families (n=7) 8%–63% of the seedlings were resistant. All of the kanamycin-resistant plants that were tested were found to possess NPT II activity. Southern analysis revealed that all of the resistant plants contained at least one copy of the T-DNA and that the majority of the plants had multiple inserts. Explants from kanamycin-resistant plants survived and formed callus when cultured on callus-inducing medium containg G418.     

In planta transformation of Arabidopsis thaliana

Transformants of Arabidopsis thaliana can be generated without using tissue culture techniques by cutting primary and secondary inflorescence shoots at their bases and inoculating the wound sites with Agrobacterium tumefaciens suspensions. After three successive inoculations, treated plants are grown to maturity, harvested and the progeny screened for transformants on a selective medium. We have investigated the reproducibility and the overall efficiency of this simple in planta transformation procedure. In addition, we determined the T-DNA copy number and inheritance in the transformants and examined whether transformed progeny recovered from the same Agrobacterium-treated plant represent one or several independent transformation events. Our results indicate that in planta transformation is very reproducible and yields stably transformed seeds in 7–8 weeks. Since it does not employ tissue culture, the in planta procedure may be particularly valuable for transformation of A. thaliana ecotypes and mutants recalcitrant to in vitro regeneration. The transformation frequency was variable and was not affected by lower growth temperature, shorter photoperiod or transformation vector. The majority of treated plants gave rise to only one transformant, but up to nine siblings were obtained from a single parental plant. Molecular analysis suggested that some of the siblings originated from a single transformed cell, while others were descended from multiple, independently transformed germ-line cells. More than 90% of the transformed progeny exhibited Mendelian segregation patterns of NPTII and GUS reporter genes. Of those, 60% contained one functional insert, 16% had two T-DNA inserts and 15% segregated for T-DNA inserts at more than two unlinked loci. The remaining transformants displayed non-Mendelian segregation ratios with a very high proportion of sensitive plants among the progeny. The small numbers of transformants recovered from individual T₁ plants and the fact that none of the T₂ progeny were homozygous for a specific T-DNA insert suggest that transformation occurs late in floral development.National Research Council of Canada Publication No. 38003     

The Frequency of Silencing in Arabidopsis Thaliana Varies Highly Between Progeny of Siblings and can be Influenced by Environmental Factors

In a collection of 111 transgenic Arabidopsis thaliana lines, silencing of the nptII gene was observed in 62 (56%) of the lines and three distinct nptII-silencing phenotypes were identified. Two T-DNA constructs were used, which differed in distance and orientation of the marker gene relative to the border sequences. Comparison of the sets of lines generated with each vector, indicate that the T-DNA construct configuration influence the incidence of lines displaying silencing, as well as the distribution of silencing phenotypes. Twenty lines were investigated more thoroughly. The frequency of silencing varied between siblings in 19 lines, including three lines containing a single T-DNA copy. The last line showed 100% silencing. The gus gene present in both constructs could be expressed in the presence of a silenced nptII gene. Investigation of methylation at a single site in the pnos promoter revealed partial methylation in multi-copy lines, but no methylation in single-copy lines. For 16 lines, the overall frequencies of silencing differed significantly between control plants and plants exposed to temperature stress; in 11 of these lines at the 0.1% level. In several cases, the frequency of silencing in progeny of stress-treated plants was higher than for the control group, while other lines showed higher frequencies of kanamycin-resistant progeny for the stress-treated sibling plants.     

nir1, a conditional-lethal mutation in barley causing a defect in nitrite reduction

Summary Eleven green individuals were isolated when 95000 M₂ plants of barley (Hordeum vulgare L.), mutagenised with azide in the M₁, were screened for nitrite accumulation in their leaves after nitrate treatment in the light. The selected plants were maintained in aerated liquid culture solution containing glutamine as sole nitrogen source. Not all plants survived to flowering and some others that did were not fertile. One of the selected plants, STA3999, from the cultivar Tweed could be crossed to the wild-type cultivar and analysis of the F₂ progeny showed that leaf nitrite accumulation was due to a recessive mutation in a single nuclear gene, which has been designated Nir1. The homozygous nir1 mutant could be maintained to flowering in liquid culture with either glutamine or ammonium as sole nitrogen source, but died within 14 days after transfer to compost. The nitrite reductase cross-reacting material seen in nitrate-treated wild-type plants could not be detected in either the leaf or the root of the homozygous nir1 mutant. Nitrite reductase activity, measured with dithionite-reduced methyl viologen as electron donor, of the nitrate-treated homozygous nir1 mutant was much reduced but NADH-nitrate reductase activity was elevated compared to wild-type plants. We conclude that the Nir1 locus determines the formation of nitrite reductase apoprotein in both the leaf and root of barley and speculate that it represents either the nitrite reductase apoprotein gene locus or, less likely, a regulatory locus whose product is required for the synthesis of nitrite reductase, but not nitrate reductase. Elevation of NADH-nitrate reductase activity in the nir1 mutant suggests a regulatory perturbation in the expression of the Narl gene.     

A Regulatory Gene for Phenoloxidase Activity in Drosophila melanogaster

A recessive lethal mutationl(2)hemocausing the occurrence of melanotic tumors in homozygous Drosophilalarvae was found. The study of phenoloxidase (PO) activity revealed that the number of hemocytes with PO activity in homozygous larvae was significantly reduced (0.4 ± 0.24%), compared to wild-type larvae (6.3 ± 0.5%). On injury followed by injection with bacterial cells, the formation of melanotic thrombus did not occurred and hemocytes with PO activity were not recorded in homozygotes of line P103. Suppression of the activity of PO isozymes A₁and A₃was detected by means of electrophoretic analysis of homozygotes. According to gene mapping data, the localization of this mutation did not match any structural gene for known PO forms and is therefore related to a regulatory gene controlling the activity of the immune system ofDrosophila.