Decreased frequency of the rat growth hormone transgene in mouse populations with or without selection for increased adult body weight

Summary Frequencies of mice with the rat growth hormone (rGH) transgene were examined in lines derived from two genetic bases (P/W and P/C). The genetic bases were developed from males (P) with the rGH transgene, mated with non-transgenic females of different origin: a line previously selected for large body size (W) and a corresponding unselected control line (C). They were maintained for six generations under random mating with or without selection for increased 42-day body weight. The frequencies of P/W and P/C males with the rGH transgene wer 0.075 and 0.300, respectively at generation 0 of the genetic bases. They were significantly (P<0.05) lower than the expected frequency (about 0.5). At generation 6, the frequencies had decreased further both in selected and unselected lines (ranging from 0.025 to 0.125). Decreased frequencies of mice with the transgene were confirmed in a separate experiment testing segregation of the transgene. The reasons for these decreases are not clear. The results suggest that transgenes need to be monitored when transgenic animals are mated with animals of different origin.Animal Research Centre Contribution No. 1697     

Actions and interactions of growth hormone and insulin-like growth factor-II: body and organ growth of transgenic mice

To characterize long-term actions and interactions of growth hormone (GH) and insulin-like growth factor-II (IGF-II) on postnatal body and organ growth, hemizygous phosphoenolpyruvate carboxykinase (PEPCK)-human IGF-II transgenic mice were crossed with hemizygous PEPCK-bovine GH transgenic mice. The latter are characterized by two-fold increased serum levels of IGF-I and exhibit markedly increased body, skeletal and organ growth. Four different genetic groups were obtained: mice harbouring the IGF-II transgene (I), the bGH transgene (B), or both transgenes (IB), and non- transgenic controls (C). These groups of mice have previously been studied for circulating IGF-I levels (Wolf et al., 1995a), whereas the present study deals with body and organ growth. Growth curves (week 3 to 12) were estimated by regression with linear and quadratic components of age on body weight and exhibited significantly (p < 0.001) greater linear coefficients in B and IB than in I and C mice. The linear coefficients of male I and C mice were significantly (p < 0.001) greater than those of their female counterparts, whereas this sex-related difference was absent in the bGH transgenic groups. The weights of internal organs as well as the weights of abdominal fat, skin and carcass were recorded from 3.5- to 8- month-old mice. In addition, organ weight-to-body weight-ratios (relative organ weights) were calculated. Except for the weight of abdominal fat, absolute organ weights were as a rule significantly greater in B and IB than in I and C mice. IGF-II overproduction as a tendency increased the weights of kidneys, adrenal glands, pancreas and uterus both in the absence and presence of the bGH transgene. Analysis of relative organ weights demonstrated significant (p < 0.05) effects of elevated IGF- II on the relative growth of kidneys (males and females) and adrenal glands (females), confirming our previous report on organ growth of PEPCK-IGF-II transgenic mice. In females, IGF-II and GH overproduction were additive in stimulating the growth of spleen and uterus, providing evidence for tissue-specific postnatal growth promoting effects by IGF-II in the presence of elevated IGF-I     

The influence of matrix attachment regions on transgene expression in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> wild type and gene silencing mutants

Many studies in both animal and plant systems have shown that matrix attachment regions (MARs) can increase the expression of flanking transgenes. However, our previous studies revealed no effect of the chicken lysozyme MARs (chiMARs) on transgene expression in the first generation transgenic Arabidopsis thaliana plants transformed with a β-glucuronidase gene (uidA) unless gene silencing mutants were used as genetic background for transformation. In the present study, we investigated why chiMARs do not influence transgene expression in transgenic wild-type Arabidopsis plants. We first studied the effect of chiMARs on transgene expression in the progeny of primary transformants harboring chiMAR-flanked T-DNAs. Our data indicate that chiMARs do not affect transgene expression in consecutive generations of wild-type A. thaliana plants. Next, we examined whether these observed results in A. thaliana transformants are influenced by the applied transformation method. The results from in vitro transformed A. thaliana plants are in accordance with those from in planta transformed A. thaliana plants and again reveal no influence of chiMARs on transgene expression in A. thaliana wild-type transformants. The effect of chiMARs on transgene expression is also examined in in vitro transformed Nicotiana tabacum plants, but as for A. thaliana, the transgene expression in tobacco transformants is not altered by the presence of chiMARs. Taken together, our results show that the applied method or the plant species used for transformation does not influence whether and how chiMARs have an effect on transgene expression. Finally, we studied the effect of MARs (tabMARs) of plant origin (tobacco) on the transgene expression in A. thaliana wild-type plants and suppressed gene silencing (sgs2) mutants. Our results clearly show that similar to chiMARs, the tobacco-derived MARs do not enhance transgene expression in a wild-type background but can be used to enhance transgene expression in a mutant impaired in gene silencing. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users. Miguel F.C. De Bolle, Katleen M.J. Butaye Contributed equally to this work     

Strategies to obtain stable transgenic plants from non-embryogenic lines: complementation of the nn 1 mutation of the NORK gene in Medicago sativa MN1008

Strategies to introduce genes into non-embryogenic plants for complementation of a mutation are described and tested on tetraploid alfalfa (Medicago sativa). Genes conditioning embryogenic potential, a mutant phenotype, and a gene to complement the mutation can be combined using several different crossing and selection steps. In the successful strategy used here, the M. sativa genotype MnNC-1008(NN) carrying the recessive non-nodulating mutant allele nn ₁ was crossed with the highly embryogenic alfalfa line Regen S and embryogenic hybrid individuals were identified from the F1 progeny. After transformation of these hybrids with the wild-type gene (NORK), an F2 generation segregating for the mutation and transgene were produced. Plants homozygous for the mutant allele and carrying the wild-type NORK transgene could form root nodules after inoculation with Sinorhizobium meliloti demonstrating successful complementation of the nn ₁ mutation.     

FLPe functions in zebrafish embryos

To assay the efficiency of the FLP/FRT site-specific recombination system in Danio rerio, a construct consisting of a muscle-specific promoter driving EGFP flanked by FRT sites was developed. FLPe capped RNA was microinjected into transgenic single cell stage zebrafish embryos obtained by crossing hemizygous transgenic males with wild-type females. By 48 h post fertilization (hpf), the proportion of embryos displaying green fluorescence following FLPe RNA microinjection was significantly lower (7.7%; P < 0.001) than would be expected from a cross in the absence of the recombinase (50%). Embryos that retained fluorescence displayed marked mosaicism. Inheritance of the excised transgene in non-fluorescent, transgenic embryos was verified by PCR analysis and FLPe-mediated recombination was confirmed by DNA sequencing. Sperm derived from confirmed transgenic males in these experiments was used to fertilize wild-type eggs to determine whether germline excision of the transgene had occurred. Clutches sired by FLPe-microinjected males contained 0–4% fluorescent embryos. Transgenic males that were phenotypically wild-type produced no fluorescent progeny, demonstrating complete excision of the transgene from their germline. FLPe microinjected males that retained some fluorescent muscle expression produced a small proportion of fluorescent offspring, suggesting that in mosaic males not all germline cells had undergone FLPe-mediated transgene excision. Our results show that FLPe, which is derived from Saccharomyces cerevisiae, is an efficient recombinase in zebrafish maintained at 28.5°C.     

Analysis of growth and yield of inbred and crossbred maize

In experiments with young widely spaced plants grown in sand culture, net assimilation rate (E) of two single-cross hybrids, N x S and W x M, was respectively > 20% and 13–19% greater than that of their parental inbreds, N and S, and W and M. Relative growth rate (R) of W x M exceeded that of W or M, and R of N x S exceeded that of S, but not that of N because leaf area ratio (F) of this inbred was greater than that of N x S. E of N x S was about 10% greater than that of an open-pollinated variety, OP. When the size of plants of N x S was varied by sowing seeds of different sizes, E was little affected but R increased as plant size decreased, because F increased with decrease in plant size. In a field experiment total dry weights at final harvest of N, S and OP were respectively 66, 46 and 98% of that of N x S; their respective grain weights were 47, 20 and 70% of that of N x S. N, S and OP flowered later than N x S and accumulated respectively 56, 26 and 89% as much dry matter after flowering as N x S. Grain formed 71, 65, 83 and 65% of the dry matter accumulated after flowering in N, S, N x S and OP, respectively. Up to about the time of flowering, E and R of the relatively small N and S plants were greater than those of N x S plants, but later E of N and S was smaller than that of N x S. Before flowering, when leaf area of OP was less than that of N x S, E was greater in OP than in N x S. After flowering leaf area was greater, and E smaller, in OP than in N x S.     

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.     

Isolation and identification of blue light-induced growth inhibitor from light-grown <Emphasis Type="Italic">Arabidopsis</Emphasis> shoots

Phototropic stimulation of dark-grown hypocotyls of Arabidopsis thaliana increased a growth inhibitor in the wild-type but not in the non-phototropic nph3-101 mutant. From light-grown wild-type shoots the inhibitor was isolated and identified as indole-3-acetonitrile (IAN) from its ¹H NMR spectrum. The content of endogenous IAN in the hypocotyls of wild-type and mutant unilaterally exposed to blue light was determined using a physicochemical assay. The IAN concentration (28 M) in the phototropically stimulated wild-type hypocotyls was about three times larger than in the dark control. However, its content in the mutant hypocotyls did not change. IAN inhibited the hypocotyl growth of the nph3-101 to the same extent as in the wild-type at concentrations higher than 10 M. These results suggest that IAN plays a role in the phototropism of Arabidopsis thaliana hypocotyls.     

Quantitative GFP fluorescence as an indicator of recombinant protein synthesis in transgenic plants

The utility of green fluorescent protein (GFP) for biological research is evident. A fluorescence-based method was developed to quantify GFP levels in transgenic plants and protein extracts. Fluorescence intensity was linear with increasing levels of GFP over a range that encompasses transgene expression in plants by the cauliflower mosaic virus 35S promoter. Standard curves were used to estimate GFP concentration in planta and in protein extracts. These values were consistent with ELISA measurements of GFP in protein extracts from transgenic plants, indicating that the technique is a reliable measure of recombinant GFP expression. The levels of in planta GFP expression in both homozygous and hemizygous plants was then estimated. Homozygous transgenic plants expressed twice the amount of GFP than hemizygous plants, suggesting additive transgene expression. This methodology may be useful to simplify the characterization of transgene expression in plants.Abbreviations ELISA Enzyme-linked immunosorbent assay - HRP Horseradish peroxidase - GFP Green fluorescent protein Communicated by M.C. Jordan     

A New GA-Insensitive Semidwarf Mutant of Rice (Oryza sativa L.) with a Missense Mutation in the SDG Gene

A semidwarf line of Indica rice, Xinguiai, was derived from the progeny of a cross between the double dwarf mutant Xinguiaishuangai and the wild-type variety Nanjing 6. The semidwarf phenotype was controlled by the semidwarf gene, sdg. The second sheath and shoot elongation responses of the dwarf mutant to exogenous gibberellin (GA₃) showed that sdg was insensitive to gibberellin (GA), and its endogenous GAs content was higher than that in wild-type cultivars. The SDG gene was cloned by a map-based cloning method and sequencing analysis revealed that the coding region of sdg had a single nucleotide substitution resulting in a single amino acid change from alanine to threonine. A cleaved amplified polymorphic sequence marker was designed according to sequences from mutant and wild-type materials. This sequence marker could be used to distinguish wild types and mutants, and thus, could be used for molecular marker-assisted selection. The dwarf phenotype of the sdg mutant was restored to a normal phenotype by introducing the wild-type SDG gene. Rice transformation experiments and GUS staining demonstrated that the SDG gene was predominantly expressed in vegetative organs.     

Transgene constructs in coho salmon (Oncorhynchus kisutch) are repeated in a head-to-tail fashion and can be integrated adjacent to horizontally-transmitted parasite DNA

Currently, little information is available regarding the molecular organization of integrated transgenes in genetically-engineered fish. We performed a detailed structural analysis of an inserted transgene in one strain (M77) of transgenic coho salmon (Oncorhynchus kisutch) containing a salmon growth hormone gene construct (OnMTGH1). Microinjected DNA was found to have inserted into a single site in the coho salmon genome, and was organized with four complete internal copies and two partial terminal copies of the OnMTGH1 construct. All construct copies were organized in a direct-tandem (head-to-tail) repeat fashion in strain M77 and five additional strains (one also possessed a second recombinant junction fragment). For strain M77, the junctions between the transgene insert and the insertion point within the wild-type genome were cloned from strain-specific cosmid libraries and sequenced, revealing that the transgene insertion was accompanied by a deletion of 587 bp of wild-type DNA as well as a small insertion (19 bp) of unknown DNA upstream and a 14 bp direct- tandem duplication of sequence downstream. Upstream and downstream wild-type DNA sequence contained several repetitive sequence elements based on Southern blot analysis and homology to repetitive sequences in GenBank. In the downstream flank, a pseudogene sequence was also identified which has high homology to the CA membrane protein gene from Schistosoma japonicum, a parasite closely related to Sanguinicola sp. parasites which infect salmonids. Whether the presence of an inserted transgene and the presence of potentially horizontally-transmitted DNA are indicative of a genomic region with a predisposition for insertion of foreign DNA requires further study. The information derived from this transgene structure provides information useful for comparison to other transgenic organisms and for determination of the mechanism of transgene integration in lower vertebrates.     

Effects of variation in individual growth on plant species coexistence

Abstract. Both size structure and variability (spatial heterogeneity, disturbance, stochasticity, variation in species attributes, etc.) are regarded as regulatory mechanisms of species coexistence. However, none of the models so far proposed consider both size structure and variability simultaneously. A size-structured variation model for plant-community dynamics is proposed, which is based on the diffusion model for growth dynamics of plant populations. This model has four functions: (1) mean growth rate of individuals of size x at time t, G(t, x) (species-specific mean traits, e.g. competitive ability); (2) variance in growth rate of individuals of size x at time t, D(t, x) (stochastic factors due to genetic variation, environmental heterogeneity, spatial variation of individuals, etc.); (3) mortality rate of individuals of size x at time t, M(t, x); and (4) recruitment rate at time t, R(t), as a boundary condition. The interference function for individuals of size x at time t, C(t, x), is introduced, which expresses the degree of interactions between individuals and hence averaged effects of local neighbourhood competition; the G(t, x), D(t, x), M(t, x) and R(t) functions are given in terms of C(t, x). These four functions describe the growth dynamics of individuals of each species in the plant community. Effects of the G(t, x), D(t, x), M(t, x) and R(t) functions on species coexistence in plant communities were evaluated by simulation and the relative importance of the D(t, x) function as well as size structure was shown for species coexistence especially in plant communities where competition among species is non-transitive or niche limitation does not work.     

Genetic analysis of stunted growth by nuclear-cytoplasmic interaction in interspecific hybrids of Capsicum by using RAPD markers

When eight cultivars of Capsicum annuum were used as female parents in interspecific crosses with two accessions of C. chinense, dwarfism occurred in hybrids originating from 10 out of 16 combinations, while hybrids of the remaining 6 combinations grew normally. In contrast, when C. chinense was used as female parent, all of the hybrids showed severely stunted growth as if affected by a virus. These results suggested that the stunted growth expressed in the cross of C. chinense x C. annuum is caused by an interaction between nuclear gene(s) from C. annuum and the cytoplasm of C. chinense. To examine the number of nuclear gene(s) which cause(s) the stunted growth, we backcrossed F₁ hybrids of C. annuum x C. chinense to C. chinense. About one-quarter of the progeny in the backcrossed hybrids of C. chinense x (C. annuum x C. chinense) showed the same stunted growth shown by the f₁ hybrids of C. chinense x C. annuum, suggesting that two complementary genes of C. annuum cause the stunted growth. However, the higher abortion rates of ovules and lower germination percentage of seeds in C. chinense x C. annuum than in the selfed C. chinense implied that the genetic ratio of the stunted type would have been higher than that observed in the C. chinense x (C. annuum x C. chinense) progeny. We then attempted a linkage analysis between the stunted growth and randomly amplified polymorphic DNA (RAPD) of C. chinense x (C. annuum x C. chinense) progeny. A RAPD marker that associated with 94% of the stunted plants but not with 94% of the normal one was identified. This confirmed that a single nuclear gene of C. annuum which is linked to the RAPD marker with a recombination value of 6% causes the stunted growth in an interaction with the cytoplasm of C. chinense.     

Physiological genetics of the dominant gibberellin-nonresponsive maize dwarfs,Dwarf8 and Dwarf9

Maize (Zea mays L.) Dwarf8-1 (D8-1) is an andromonoecious dwarf mutant proposed to be involved in gibberellin (GA) reception (Fujioka et al. 1988b; Harberd and Freeling 1989). The mutant D8-1 is dominant and GA-nonresponsive (Phinney 1956). We show by map position and similarity of phenotype that five additional dwarf mutants are D8 alleles. We show by map position and similarity of phenotype that a second andromonoecious dwarf mutant, D9-1, defines a duplicate gene. Maize D9-1 and each dominant D8 allele specify a different plant stature, from very mild to very severe dwarfism. Plants of D9-1 and all dominant D8 alleles, except D8-1591, were GA-nonresponsive when treated with 7500 nmol GA₃. The behavior of the mild dwarf D8-1591 was unique in that a small but significant growth response was detected (37% for D8-1591 vs. 130% for the wild type) when treated with 7500 nmol GA₃. These results establish that all dwarf genotypes, except D8-1591, in one dose set a maximum limit on plant growth and block the normal response to GA. When treated with the GA-synthesis inhibitor paclobutrazol, plants of all dwarf genotypes and wild-type siblings were severely dwarfed. Plants of all dwarf genotypes treated with the GA-synthesis inhibitor paclobutrazol and GA₃ were returned to their normal dwarf phenotype. Dominant dwarfing, delayed flowering, increased tillering, and anther development in the ear are characteristic features of D9-1 and all D8 alleles. The GA-synthesis-deficient dwarfs also have these characteristic features. We discuss the function of the wild-type gene product in the context of the observed results.Abbreviations D8 Dwarf8 - D9 Dwarf9 - GA_(n) gibberellin A_(n) - GA₃ gibberellic acid - MNL Maize Genetics Cooperation Newsletter - NIL near-isogenic lines - RFLP restriction fragment length polymorphism - WT wild type This work was supported, in part, by a National Science Foundation Plant Postdoctoral Fellowship to R.G.W., by grants from NIH and ICI Seeds to M.F., the NSF Center for Plant Developmental Biology and the California Agriculture Experiment Station. Much of the work was done in the laboratory of Tim Helentjaris and was supported by a grant from Pioneer Hi-Bred Int'l. The generous gifts of the dominant dwarfing mutants from M.G. Neuffer and O.E. Nelson Jr. are gratefully acknowledged.     

Unbalanced growth as a normal feature of development of Bdellovibrio bacteriovorus

In this study we have investigated the rates and spatial patterns of chromosome replication and cell elongation during the growth phase of wild-type and facultatively prey-independent mutant strains of Bdellovibrio bacteriovorus. For the facultatively prey-independent mutants, the total DNA content of synchronously growing cultures was found to increase exponentially, as the multiple chromosomes within each filamentous cell replicated simultaneously. Cell mass, measured as total cellular protein, also increased exponentially during this period, apparently by means of multiple elongation sites along the filament wall. The relative rates of DNA and protein synthesis were unbalanced during growth, however, with the cellular concentration of DNA increasing slightly faster than that of protein. The original cellular DNA: protein ratio was restored in the progeny cells by continued protein synthesis during the septation period that follows the termination of DNA replication. Because of technical problems, these experiments could not be conducted on the wild-type cells, but similar results are assumed. This unusual pattern of unbalanced growth may represent an adaptation by bdellovibrios to maximize their progeny yield from the determinate amount of substrate available within a given prey cell.     

Genetic effect of mottled locus on reproduction and preweaning growth in laboratory mice

Summary An experiment was conducted to study the maternal and fetal effects of the sex-linked gene tortoise on litter size, birth weight, body weight from birth to 30-day of age, and mortality in normal (N) and mutant (M) mice (Mus musculus). The experiment involved two mating types: (1) N x N (dam x sire) which produced normal male and normal female offspring and (2) M X N which produced mutant males that died in utero, mutant females and normal male and female offspring. Comparison 1 consisted of all phenotypically normal male and female offspring from both N X N and M X N mating types born in 2 parities. The data supports the hypothesis that the tortoise gene, when present in the dam, did not significantly affect the body weight of normal progeny prior to 18 days old. There is also evidence for a negative maternal effect of the tortoise gene on body weight from 21 to 30 days of age postpartum. Mating type X parity interaction was not significant prior to 9 day postpartum. Sex of mice did not influence body weight of siblings prior to 18 day old, but males were heavier than females there-after. Normal and mutant females born in six parities from the M X N mating type constituted Comparison 2. The birth weight of the offspring in Comparison 2 was not significantly influenced by the presence of the tortoise gene. All other body weight measurements, however, were lower for mutant females when compared to normal females. Parity affected all body weight measurements in both comparisons. Mortality rate of the offspring was not influenced by parental mating type or parity, but sex differences were observed. Mutant females had higher mortality than normal sisters. This study provides evidence that the mottled locus in the tortoise dam and progeny influences growth and survival.Reference to a company and/or product named by the USDA is only for purposes of information and does not imply approval or recommendation of the product to the exclusion of others     

Transgene Containment Using Cytokinin-Reversible Male Sterility in Constitutive, Gibberellic Acid–Insensitive (Δgai) Transgenic Tobacco

Mechanisms are needed to prevent gene flow from transgenic crops, and the later establishment of these transgenes in populations of other varieties, weeds, or wild relatives. Such prevention can be achieved by containing the transgene within a crop, and then mitigating the effects of the inherent leakage and unidirectionality of containment systems. Mitigation lowers the fitness of recipients below that of the wild-type so that transgenes cannot spread. Transplastomic and male-sterility systems suppress transgene outflow, but not the influx of pollen from relatives, requiring mitigation. The Arabidopsis thaliana Δgai (gibberellic acid–insensitive) gene, driven by its own promoter, induced male sterility in transgenic tobacco (Nicotiana tabacum), which is chemically reversible by kinetin applications. Female reproduction was not affected. Kinetin-treated sterile hemizygous and homozygous dwarf tobacco produced viable pollen, becoming self-fertile with copious viable seed, restoring the small amount of seed production needed for such a crop. Thus, Δgai, under its endogenous promoter, can be used as a containment mechanism to prevent transgene outflow. This application is in addition to the previously described highly effective role of Δgai as a dwarfing mitigator gene, which renders the rare transgenic tobacco hybrids unfit and unable to compete with the wild-type in the mixed cultures. Δgai is unique in that it can be used both to prevent transgene outflow and to mitigate the flow should containment fail or should gene influx occur, a dual role for the gene, not previously reported.     

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     

Modification by gibberellin of the growth-temperature relationship in mutant and normal genotypes of several cereals

High-resolution growth measurements were conducted using a linear variable displacement transformer in conjunction with a temperature-programmed meristem-cooling collar. Chilling and rewarming profiles were determined for a range of Gramineae, in the presence and absence of varying concentrations of gibberellic acid (GA₃). In wheat (Triticum aestivum L.) seedlings, the growth-constraining temperature (P_e) was progressively lowered by increasing GA₃ concentration, with a difference of-4.8°C between controls and material treated with 10^–4 M GA₃. Dwarf-5 maize (Zea mays L.) seedlings had a higher P_e than tall segregates and the difference was markedly reduced by exposure to a saturating concentration of GA₃. A similar effect was observed with Tanginbozu dwarf rice (Oryza sativa L.). The growth ratetemperature responses of Rht3 gibberellin-insensitive dwarf wheat seedlings were unaffected by GA₃ and the P_e values for these segregates were around 5° C higher than for normals. Slender (s1) barley (Hordeum vulgare L.) genotypes had P_e values of-7° C, compared with +4° C for wild-type material, and did not show positive hysteresis for growth rate during the rewarming phase. These studies indicate that GA₃ modifies the thermal sensitivity of meristem function in Gramineae in a manner which enhances low-temperature growth.Abbreviations GA gibberellin - GA₃ gibberellic acid - LVDT linear variable displacement transducer