电击法诱导的欧白英原生质体转化和转化植株再生

本研究使用电击法成功地将带有标记基因NPTⅡ的质粒pCaMVNEO转入欧白英的原生质体,并获得了再生转化植株。通过用pDW2质粒进行的CAT基因短暂表达研究,确定了欧白英原生质体转化的电击条件为：电容30nF、电场强度l 500V／cm、时间衰变常数59．4微秒;质粒DNA浓度为20μg／2×10⁶原生质体。在以上条件下,欧白英原生质体的相对转化率为12．4％,绝对转化率为2.4×10^-4在大多数抗性愈伤组织和从抗性愈伤组织再生的植株中检测到新霉素磷酸转移酶活性。分子杂交结果也证明了在转化植株中存在NPTⅡ基因序列,而未转化的对照植株则没有。     

Transient gene expression in electroporated Solanum protoplasts

Electroporation was used to evaluate parameters important in transient gene expression in potato protoplasts. The protoplasts were from leaves of wild potato Solanum brevidens, and from leaves, tubers and suspension cells of cultivated Solanum tuberosum cv. Désirée. Reporter enzyme activity, chloramphenicol acetyl transferase (CAT) under the control of the cauliflower mosaic virus (CaMV) 35S promoter, depended on the field strength and the pulse duration used for electroporation. Using field pulses of 85 ms duration, the optimum field strengths for maximum CAT activity were: S. brevidens mesophyll protoplasts –250 V/cm; Désirée mesophyll protoplasts –225 V/cm; Désirée suspension culture protoplasts –225 V/cm; and Désirée tuber protoplasts –150 V/cm. The optimum field strengths correlated inversely with the size of the protoplasts electroporated; this is consistent with biophysical theory. In time courses, maximum CAT activity (in Désirée mesophyll protoplasts) occurred 36–48 h after electroporation. Examination at optimised conditions of a chimaeric gene consisting of a class II patatin promoter linked to the -glucuronidase (gus) gene, showed expression (at DNA concentrations between 0–10 pmol/ml) comparable to the CaMV 35S promoter in both tuber and mesophyll protoplasts. At higher DNA concentrations (20–30 pmol/ml) the patatin promoter directed 4–5 times higher levels of gus expression. Implications and potential contributions towards studying gene expression, in particular of homologous genes in potato, are discussed.     

Transient gene expression in electroporated bean cotyledon protoplasts

A protocol has been developed for the introduction of foreign DNA into cell protoplasts from immature bean cotyledons. The method yields high amounts of the reporter enzymes β-glucuronidase (GUS) and chloramphenicol acetyl transferase (CAT) when cognate genes are driven by the promoter and upstream sequences of a bean β-phas gene. Comparisons with expression in stable tobacco transformants indicate that transient assays can be used to investigate enhancer function. This techniques should be applicable to other gene systems as well.     

Flooding induction of alcohol dehydrogenase in shoots and roots of barley seedlings

Barley (Hordeum vulgare) seedlings were exposed to flooding and activities of alcohol dehydrogenase (ADH) and their isoform profiles were determined. The flooding increased ADH activities in shoots and roots of the seedlings. By day 3, the activity increased to 4 and 3 times that of the initial level for the shoots and the roots, respectively. Only two bands of ADH isoform were found in the shoots and the roots of non-induced seedling, whereas five bands were identified in those of induced seedlings.     

The maize GapC4 promoter confers anaerobic reporter gene expression and shows homology to the maize anthocyanin regulatory locus C1

The cytosolic glyceraldehyde-3-phosphate dehydrogenase (GapC) gene family of maize is differentially expressed in response to anaerobic stress. While GapC1 and GapC2 are downregulated, GapC3 and GapC4 are anaerobically induced. We have sequenced and analyzed a 3073 bp promoter fragment of GapC4. The promoter confers anaerobic induction of a reporter gene construct in a transient gene expression system in maize. Deletion analysis of the GapC4 promoter revealed a 270 bp long DNA region required for anaerobic induction. This region contains sequence motifs resembling the cis-acting sequences of the anaerobically induced maize Adh1 and Adh2 genes. Furthermore, the 3073 bp GapC4 promoter fragment displays homology to long terminal repeats of maize retrotransposons and to the 3 region of the maize anthocyanin regulatory locus C1.     

Transient gene expression in electroporated protoplasts of Eucalyptus citriodora Hook

Protoplasts isolated from cotyledons of Eucalyptus citriodora were electroporated using a rectangular pulse, with plasmid carrying the cat gene. The levels of transient expression and protoplast viability were influenced by the voltage and pulse duration. At a field strength of 800 V cm^-1 (1000 s), a protoplast viability of 57%, and 47% conversion of ¹⁴C-chloramphenicol to its acetylated forms, were obtained. Expression levels were improved by an increase in plasmid concentration (up to 60 g ml^-1), and also by the addition of carrier DNA. Gene expression was further enhanced by the addition of 40% (w/v) PEG, in the presence of the carrier DNA, to the protoplasts after electroporation.Abbreviations BAP 6-benzylaminopurine - CAT chloramphenicol acetyltransferase - CPW 13M CPW salts medium with 13% (w/v) mannitol - DC direct current - FDA fluorescein diacetate - f. wt fresh weight - GUS -glucuronidase - K Kao (1977) - MES 2-N-morpholinoethane sulfonic acid - MS Murashige & Skoog (1962) - NAA -naphthaleneacetic acid - PVP-10 polyvinylpyrrolidone (Av MW 10,000) - TLC thin layer chromatography     

Reporter gene introduction and transient expression in protoplasts of Porphyra yezoensis

The transient expression of foreign genes in the protoplasts of Porphyrayezoensis was examined using three recombinant vectors, pYez-Rub-GUS, pYez-Rub-GFP and pYez-Rub-LUC, which were constructed with the promoter sequence of the ribulose-bisphosphate-carboxylase / oxygenase (Rubisco) gene as a promoter and the bacterial β-glucuronidase (GUS), mutant of green fluorescent protein (S65T-GFP) and firefly luciferase (LUC) genes, respectively, as reporter genes. When the pYez-Rub-GUS was introduced into protoplasts by electroporation, cells stained dark blue by indigotin were observed after the histochemical GUS assay. GUS activity was also detected by quantitative enzyme assays with a chemiluminescent substrate. When the pYez-Rub-GFP was electroporated into protoplasts, the expression of GFP could be detected in vivo observations with fluorescence microscopy. However, the rates of gene expression cells to the total number of cells were different between the GUS and GFP genes. LUC activity was also detected by assay with a chemiluminescent substrate after the introduction of pYez-Rub-LUC into protoplasts, although the activity levels were considerably lower. Relatively high expression rates of introduced GUS genes were observed 3 to 5 days after electroporation. These results show that the promoter sequence of the chloroplast Rubisco gene functions as a promoter of foreign gene expression and that transient expression occurred in protoplasts of P. yezoensis after the introduction of foreign genes. This revised version was published online in August 2006 with corrections to the Cover Date.     

Potato granule-bound starch synthase promoter-controlled GUS expression: regulation of expression after transient and stable transformation

Chimaeric genes of promoter sequences from the potato gene encoding granule-bound starch synthase (GBSS) and the -glucuronidase (GUS) reporter gene were used to study GBSS expression and regulation. Analysis of stable transformants revealed that a GBSS promoter sequence of 0.4 kb was sufficient to result in tissue-dependent GUS expression: levels in stably transformed microtubers exceeded levels in corresponding leaves by orders of magnitude. GBSS-GUS constructs could be transiently expressed in leaf protoplasts from wild-type and amylose-free potato lines, etuberosumSolanum brevidens, Nicotiana tabacum andArabidopsis thaliana. Transient expression levels in potato leaf protoplasts were clearly lower than in corresponding suspension cell protoplasts. This lower expression in leaf protoplasts could not be elevated by increasing DNA concentrations during transfection. Light incubation of electroporated suspension cell protoplasts reduced transient GBSS-GUS expression, whereas incubation of transfected protoplasts in media with different sucrose concentrations did not affect transient expression levels. However, electroporated protoplasts, isolated from suspensions, which had been grown on media with increasing amounts of sucrose showed a sucrose concentration-dependent transient expression profile. This indicates that studying GBSS regulation by transient expression experiments needs pre-treatment of the protoplast source. Sequence data of the GBSS promoter were compared to those of two other potato alleles.     

Hypoxic induction of alcohol and lactate dehydrogenases in lupine seedlings

Seedlings of lupine (Lupinus luteus L. cv. Juno) were exposed for up to 96 hours to 1 to 2 kPa partial pressure oxygen (hypoxic treatment) and activities of alcohol dehydrogenase (ADH), lactate dehydrogenase (LDH) and their isoform profiles were determined. Roots of lupine seedlings were grown in a nitrogen flushed nutrient solution while their shoots were in air. Prolonged hypoxia led to a reduction of root elongation. This was accompanied by reduced increase in dry weight suggesting that insufficient carbohydrate supply was the cause of retarded growth of lupine roots. Hypoxically treated roots showed induction of ADH and LDH acivities. The maximum increase in LDH activity was low (2-fold) in contrast to ADH activity, which increased up to 7-fold. Hypoxic treatment of roots did not affect the activities of ADH and LDH in hypocotyls and cotyledons. Analysis of ADH and LDH activity gels indicated in roots 1 and 2 isoforms, respectively. The level of isozymes of both enzymes increased in roots upon exposure to hypoxic stress. Differences in isoenzymatic spectrum of ADH and LDH between roots, hypocotyls and cotyledons indicate organ specificity of isozymes of both enzymes. The importance of alcohol and lactate fermentation in roots to cope with hypoxic stress is discussed.     

Transient gene expression in aleurone protoplasts isolated from developing caryopses of barley and wheat

Methods have been developed for the isolation of aleurone protoplasts from developing caryopses of Hordeum vulgare and Triticum aestivum in order to study transient expression of introduced genes. Chimaeric gene constructs were introduced into aleurone protoplasts by polyethylene glycol (PEG). Transient expression directed by the 35S promoter from cauliflower mosaic virus (CaMV) of the reporter gene encoding chloramphenicol acetyl transferase (CAT) was detected in aleurone protoplasts from developing barley and wheat grains. Using a similar construct, CAT activity increased when the alcohol dehydrogenase intron 1 fragment from maize was ligated between the 35S promoter and the CAT coding region. The demonstration of transient expression in protoplasts from developing aleurone layers indicates that they may be useful for investigating tissue and developmental control of genes coding for cereal seed proteins.     

Characterization of a pine multigene family containing elicitor- responsive stilbene synthase genes

Young pine seedlings respond to environmental stress by induced synthesis of pinosylvin, a stilbene phytoalexin. Heartwood of pine trees is characterized by a high content of pinosylvin. The formation of pinosylvin from cinnamoyl-CoA and three molecules malonyl-CoA catalysed by pinosylvin synthase is typical of the genus Pinus. Its enzyme activity not detectable in unstressed seedlings is substantially increased upon application of stimuli like UV-light or infection with the phytopathogenic fungus Botrytis cinerea. A genomic DNA library was screened with pinosylvin synthase cDNA pSP-54 as a probe. Ten clones were isolated and grouped into five subclasses according to the size of their introns. After subcloning into plasmid T7T3, four different members of the five gene subclasses were characterized by sequencing. Emphasis was put on isolating various promoters and analyzing and comparing their responsiveness. The amino acid sequences deduced from genes PST-1, PST-2, PST-3 and PST-5 shared an overall identity of more than 95%. In gene PST-5, the putative translation start site ATG was replaced by CTG. While promoter regions near the TATAA box were almost identical PST-1, PST-2 and PST-3, further upstream sequences differed substantially. Differences in promoter strength were analysed both in transgenic tobacco plants and by transient expression in tobacco protoplasts. Constructs used contained the bacterial -glucuronidase under the control of the promoters of pine genes PST-1, PST-2 and PST-3. Upon treatment with UV light or fungal elicitor, the promoter of PST-1 showed highest responsiveness and led to tissue-specific expression in vascular bundles. The data suggest that in pine the gene product of PST-1 is responsible for both the stress response in seedlings and pinosylvin formation in the heartwood.     

Transient gene expression in electroporated protoplasts and intact cells of sugar beet

Factors influencing the transient expression of introduced foreign DNA in electroporated protoplasts and intact cells of sugar beet were determined by assaying for the activity of chloramphenicol acetyltransferase (CAT), using a rectangular pulse generating system. Extractable CAT activity depended upon 1) applied plasmid DNA concentration, 2) protoplast density, 3) the interaction between pulse field strength, duration, number, time interval between pulses and the resultant effect on culture viability, and 4) the physiological state of the protoplasts. Mesophyll protoplasts were more susceptible to damage by electroporation, and were more specific in their requirement for electroporations which allowed CAT expression, than were protoplasts derived from suspension culture cells. CAT activity was also demonstrated, at low levels, after electroporation of intact suspension culture cells, and could be increased by pectinase treatment of the cells before electroporation.     

Plant Anaerobic Stress as a Novel Trend in Ecological Physiology,Biochemistry, and Molecular Biology: 1. Establishment of a New Scientific Discipline

This review attempted to follow the establishment of a novel branch of biology arisen at the interfaces between plant physiology, biochemistry, and molecular biology—plant anaerobic stress. Most attention was given to the early period of these investigations, the activity of the members of International Society for Plant Anaerobiosis in particular, and the contribution of Russian scientists, who played a significant role at that time in the establishment and international recognition of this new trend. In this connection, the following points are considered: (1) Crawford's metabolic theory, which could not withstand experimental verification but induced an active discussion, thus stimulating further investigations in this field; (2) a concept of two main strategies of plant adaptation to anaerobic stress (true and apparent adaptation), which was put forward based on the following experimental data: (a) a discovery of a paradoxical phenomenon of hyper-sensitivity, but not hyper-resistance to anoxia, of the flood-tolerant plant roots (“apparent” tolerance); (b) the elucidation of the physiological role of oxygen transported from aerated organs of flood-tolerant plants to the roots inhabiting anaerobic environment; (c) demonstration of the key role of both energy metabolism, and (d) substrate providing for glycolysis and ethanolic fermentation in plants manifesting “true” tolerance to oxygen deprivation; (3) the discovery of plant stress proteins; and finally (4) pH-stat theory put forward by Davies.     

Electroporation of rapeseed protoplasts – transient and stable transformation

Protoplasts of Brassica napus hypocotyls were transfected using electroporation. Parameters such as discharge potential, protoplast density and buffer constituents were tested to determine the most suitable conditions for gene transfer. To monitor the introduction of DNA into protoplasts a plasmid containing the β-glucuronidase (EC 3.2.1.31), and the neomycin phospotransferase (EC 2.7.1.95) genes was used. By using this construct, expression of a screenable marker gene for transient expression analysis as well as an antibiotic resistance marker gene for selection of stable transformants were obtained. Refined electroporation conditions resulted in a frequency of 0.1% transiently transformed protoplasts. Microcalluses were cultured under selective conditions in a bead-type culture system. Resistant callus, with an absolute transformation frequency of 4.9 × 10⁻⁵ and a relative transformation frequency of 0.3% could be achieved. X-ray irradiation of newly electroporated protoplasts did not enhance absolute transformation frequencies. From some of the resistant calluses, transgenic plants could be regenerated which were characterized by molecular analysis.     

Maturation of somatic embryos in conifers: Morphogenesis,physiology, biochemistry,and molecular biology

Summary In the past 15 years tremendons progress has been made towards the development of systems for the induction and development of somatic embryos of coniferous species. Since the first report in 1985, several species have been induced to produce somatic embryos. This has been rendered possible by the development of rational media and improvement of culture conditions, which have resulted in increased embryo quality and higher conversion frequency. Understanding the physiological and biochemical events occurring during in vivo embryogenesis has been fundamental in the design of new protocols for improving the somatic embryogenic process. Specifically, the inclusions of abscisic acid (ABA) and osmotic agents, such as polyethylene glycol (PEG), have been shown to be necessary for the functional development of somatic embryos. In the past few years, physiological and biochemical investigations have been useful in increasing our knowledge on the mode of action of ABA and PEG during embryo development. In comparison with the flowering plants, our understanding on the molecular mechanisms regulating the embryogenic process in coniferous species is still very limited. The application of new molecular techniques is therefore fundamental towards this end. The emphasis of this review is on recent information dealing with the maturation of conifer somatic embryos.