Development of an efficient Agrobacterium-mediated transformation system and production of herbicide-resistant transgenic plants in garlic (Allium sativum L.)

The genetic improvement of garlic plants (Allium sativum L.) with agronomical beneficial traits is rarely achieved due to the lack of an applicable transformation system. Here, we developed an efficient Agrobacterium-mediated transformation procedure with Danyang, an elite Korean garlic cultivar. Examination of sGFP (synthetic green fluorescence protein) expression revealed that treatment with 2-(N-morpholino) ethanesulfonic acid (MES), L-cysteine and/or dithiothreitol (DTT) gives the highest efficiency in transient gene transfer during Agrobacterium co-cultivation with calli derived from the roots of in vitro plantlets. To increase stable transformation efficiency, a two-step selection was employed on the basis of hygromycin resistance and sGFP expression. Of the hygromycin-resistant calli initially produced, only sGFP-expressing calli were subcultured for selection of transgenic calli. Transgenic plantlets produced from these calli were grown to maturity. The transformation efficiency increased up to 10.6% via our optimized procedure. DNA and RNA gel-blot analysis indicated that transgenic garlic plants stably integrated and expressed the phosphinothricin acetyltransferase (PAT) gene. A herbicide spraying assay demonstrated that transgenic plants of garlic conferred herbicide resistance, whilst nontransgenic plants and weeds died. These results indicate that our transformation system can be efficiently utilized to produce transgenic garlic plants with agronomic benefits.     

转MDMV CP基因玉米植株的再生

用基因枪法将玉米矮花叶病毒外壳蛋白基因导入玉米自交系综31幼胚诱导的愈伤组织中,在含有Bialaphos 6 mg·L^-1的选择培养基上经过3个月的抗性筛选,抗性愈伤组织在分化培养基上生成可育再生植株。PCR、PCR-Southern blot及DNA点杂交结果表明,外源基因已导入到玉米基因组中。转基因T1和T2代植株在大田表现出对MDMV的抗性,可以降低发病率,减轻发病程度。     

Agrobacterium-mediated transformation of Lolium rigidum Gaud.

Lolium rigidum Gaud. is an annual grass grown for forage but also an economically damaging crop weed. A single genotype somatic embryogenic callus line, VLR1-60, was identified from a herbicide susceptible L. rigidum population, VLR1, and proved to be amenable to Agrobacterium tumefaciens-mediated transformation. Somatic embryogenic calli were continuously induced from the meristematic region of VLR1-60 plants multiplied in vitro and the basic tolerance level of VLR1-60 to hygromycin B was determined. A hygromycin phosphotransferase gene was used as a selectable marker for hygromycin B selection. Somatic embryogenic calli derived from in vitro grown vegetative tillers were co-cultivated with the A. tumefaciens strain EHA105 harbouring binary vector carrying reporter genes and selectable marker in the presence of acetosyringone for 3 days. Inoculated calli were recovered on callus proliferation medium containing Timentin? but lacking hygromycin and were then subcultured onto media with hygromycin concentrations increased progressively through time for selection of transformed plant cells. Putative transgenic plants were recovered and integration of transgenes was confirmed by Southern hybridization analysis and by detection of DsRed or GUS activity in transgenic plants. The frequency of plant transformation was 1.3 %. The ability to transform L. rigidum will provide opportunities for functional characterization of genes to improve forage quality and increase our understanding of the evolution of herbicide resistance and of the basic genetics underlying traits that make L. rigidum a damaging crop weed.     

Induction of petal-bearing embryos from root-derived callus of Oncidium ‘Gower Ramsey’

A repeatable in vitro culture method was established and it could induce a series of abnormal embryos by which their scale leaves were substituted by petals. These petal-bearing embryos were derived from long-term root calli of an orchid cultivar, Oncidium ??Gower Ramsey??. The calli were induced and subcultured on a modified 1/2MS medium supplemented with five combinations of TDZ and dicamba. When 1-year-old callus, which induced and subcultured at 3?mg/l TDZ and 5?mg/l dicamba (line 13 callus), was transferred onto 1/2MS medium supplemented with 0.1?ml/l NAA and 3?mg/l TDZ, it gave the highest number of petal-bearing embryos. However, line 13 root explants gave one of the lowest percentage of callus formation (12.5%) and the number of somatic embryos per callus was also one of the lowest (along with lines 10, 11 and 12). The efficiency of embryogenesis decreased with age of callus and the significant decrease was started from the third year of culturing. Flowering characteristics of plantlets from normal embryos and petal-bearing embryos were both evaluated after 3?years of culture in the greenhouse. Parameters including length of the longest inflorescence, numbers of flowers per plant, length of flowers and width of flowers were all not significantly different between abnormal embryo-derived plants and normal embryo-derived plants.     

Plantlet regeneration through indirect shoot organogenesis and somatic embryogenesis in Justicia gendarussa Burm. f., a medicinal plant

A protocol for the regeneration of a large number of plantlets via indirect shoot organogenesis and somatic embryogenesis has been developed from the stem and leaf explants of Justicia gendarussa Burm. f. The callus was efficiently induced from the explants using Murashige and Skoog (MS) medium supplemented with α-Naphthalene acetic acid (NAA) + Benzyl amino purine (BAP) (1.0?+?0.1 mg/l). The highest number of plantlets through indirect shoot organogenesis was obtained when the callus was subcultured to MS medium with BAP + NAA (0.1?+?1.0 mg/l). The maximum number of plantlets via somatic embryos was obtained in the medium with BAP + NAA (1.0?+?0.1 mg/l) for stem derived calli and Kinetin (Kn) + NAA (2.0?+?0.1 mg/l) for leaf derived calli. The in vitro developed shoots were rooted well in half strength MS medium supplemented with 0.5 mg/l of Indole-3-acetic acid (IAA). The in vitro regenerated plantlets were hardened using a mixture of sterile sand:soil:manure (1:1:1). The present study is the first report on the regeneration of plants through somatic embryogenesis from stem and leaf derived calli of J. gendarussa.     

Assessment of genetic and epigenetic variation in hop plants regenerated from sequential subcultures of organogenic calli

Organogenic calli induced from internodal segments were subcultured three times. Regenerated plants obtained from each subculture were analysed by molecular methods. No major genetic rearrangements were detected in the callus-derived plants since none of the amplified fragment-length polymorphism (AFLP) loci were found to be polymorphic. However, epigenetic changes due to a demethylation process were detected by methylation-sensitive amplified polymorphism (MSAP) technique. The results allowed inference of the possible relationship among the plants derived from different calli subcultures and the in vitro control. The plants recovered from the first and second callus subcultures clustered with the in vitro control pools in the phenogram while the regenerants from the third callus subculture showed the highest genetic distance with the controls. This is the first study reporting data about the genetic stability of callus-derived Humulus lupulus L. plants.     

High-frequency plant regeneration from hypocotyl- and leaf-derived tissue cultures of the tropical pasture legume Stylosanthes humilis

Callus cultures were established from seedling hypocotyls of the tropical pasture legume Stylosanthes humilis H.B.K., and from leaves of in vitro-grown regenerated plantlets and glasshouse-grown plants. Callus was induced on Murashige and Skoog medium, supplemented with 1.0 mg/1 each of benzyladenine and naphthaleneacetic acid, and subcultured on the same medium with 0.5 mg/1 each of the same plant growth regulators. Induction of shoot formation occurred with a number of benzyladenine/naphthaleneacetic acid combinations. With 1.0 mg/1 benzyladenine (no auxin) all hypocotyl-derived calli and 78% (in vitro-grown plantlets) and 56% (glasshouse-grown plants) of the leaf-derived calli could be induced to form shoots. Morphogenetic potential was maintained during five subcultures. The process of induction of shoot formation took generally longer in leaf-derived calli than in those derived from hypocotyls. Most regenerated plants survived transfer to soil and all tested plants nodulated if inocculated with Rhizobium . No morphological abnormalities were observed.     

Somatic embryogenesis in Asparagus officinalis can be an in vitro selection process leading to habituated and 2,4-D dependent embryogenic lines

Long-term embryogenic lines were repeatedly obtained from nine asparagus (Asparagus officinalis L.) genotypes by the selection of rare events, which consisted of the emergence of either a few somatic embryos or an embryogenic callus from a restricted area of a primary callus. In the first case, somatic embryos emerged from 1 % of calli induced with naphtaleneacetic acid and transferred to a medium without auxin. Isolated and subcultured on hormone free medium, these embryos developed habituated embryogenic lines (H lines) growing by adventive embryogenesis. In the second case, 3 % of primary calli developed then subcultured on 2,4-dichlorophenoxyacetic acid (2,4-D) produced a new type of friable and yellowish-white callus, constituted of clusters of globular somatic embryos which can be continuously maintained on 2,4-D (2,4-D lines). Among 2,4-D lines, two types were identified by subculturing them on hormone–free medium. Half of the 2,4-D lines were habituated and half were 2,4-D dependent. Most plants regenerated from H lines exhibited a strong increase in embryogenic capacity compared to control plants, unlike plants regenerated from the 2,4-D dependent lines. This increased embryogenic capacity was transmitted to the progeny as a monogenic dominant trait. H lines would therefore be issued from mutation(s) occurring in vitro, conferring both the embryogenic and habituated phenotypes. On the contrary, in the 2,4-D dependent lines, the embryogenic processes appeared to remain under exogenous auxin control and no evidence of a mutational origin could be inferred from the behaviour of regenerated plants.     

Regeneration of plants from mesophyll protoplasts of ground-cherry (Physalis minimal L.)

High yields of protoplasts were obtained by enzymatic digestion of leaf tissue derived from exenic shoot cultures of Physalis minima L. Isolated protoplasts underwent sustained mitotic divisions and produced calli. Shoot and root morphogenesis were achieved from these calli. The regenerated plants were established in soil.     

Chromosome variations in regenerants of Arabidopsis thaliana derived from 2- and 6-week-old callus detected using flow cytometry and FISH analyses

Shoot organogenesis was induced from 2- and 6-week-old callus derived from the leaves of Arabidopsis thaliana ecotype Columbia (2n = 10). Regenerated plants were evaluated for chromosomal variations by means of flow cytometry and fluorescent in situ hybridization (FISH). Flow cytometric measurements revealed the occurrence of diploid, tetraploid, and octoploid plants among the regenerants of 2-week-old calli, whereas only diploid and tetraploid plants were regenerated from the 6-week-old calli. Chromosome counting showed that plants developed from the 2-week-old calli exhibited mixoploidy and a high frequency of aneuploid cells. These plants were infertile and displayed altered morphology. FISH with 5S and 25S rDNA probes allowed to detect some structural chromosomal rearrangements in regenerated plants. Along with cells which exhibited correct localisation of rDNA loci, also cells bearing chromosomal translocations, deletions or duplications were found. The type of structural aberrations varied between diploid and tetraploid regenerants.     

In vitro characterization of salt stress effects and the selection of salt tolerant plants in rice (Oryza sativa L.)

Summary The response of plant cells to salt stress was studied on embryo derived calli of rice (Oryza sativa L.) in order to identify cellular phenotypes associated with the stress. The feasability of selecting salt tolerant callus and its subsequent regeneration to plants was also studied. Callus was grown on agar-solidified media containing 0%, 1% and 2% (w/v) NaCl for 24 days. Parameters such as fresh weight, dry weight, soluble protein and proline content were measured. The callus growth decreased markedly with increasing NaCl concentration in the medium. The proline content was enhanced several fold in salt stressed calli. A prolonged exposure of callus to the salt environment led to discolouration and arrested growth in the majority of the calli and only a small number of callus cells maintained healthy and stable growth. These variants were subcultured every three weeks for a period of four months onto medium containing 1% NaCl to identify tolerant lines. At the end of the third cell passage, the tolerant calli were transferred to regeneration medium to regenerate plants. The regeneration frequency in the salt-selected lines was enhanced when compared to unselected lines.     

Characterization and regeneration of wheat (Triticum aestivum L.) embryogenic cell suspension cultures

Summary Stable cell suspension cultures were established from two types of calli (one compact, nodular and embryogenic, the other friable and embryogenic) derived from cultured immature embryos of wheat (cv FLA302). Only aged calli, which had been subcultured for at least 5–8 months, formed suspensions comprised mainly of groups of small, round, densely cytoplasmic, starch-containing cells. Only the embryogenic suspension derived from the aged, compact and nodular callus formed distinct somatic embryos when plated on regeneration media containing IAA and zeatin. Upon subsequent transfer to fresh regeneration medium more than 200 green rooted plants were obtained.Abbreviations 6-BA 6-benzylaminopurine - CH casein hydrolysate - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog (1962) basal medium - NAA naphthaleneacetic acid - PCV packed cell volume     

Somatic cell cryopreservation and protoplast regeneration of important disease-resistant wild riceOryza meyeriana Baill

Oryza meyeriana Baill is one of the three wild rice species found in Chiia.O. mcyeriana possesses valuable characteristics but is reluctant in cell culturein vitro. In a series of experiments, callus with no regeneration ability was induced from young panicle ofO. meyeriana. The callus was subcultured and propagated. Embryogenic cell clones were obtained after cryopreswation. Suspension cultures were established and protoplasts were isolated and regenerated into plants. Results of artificial inoculation ofXanthomonas campestris pv.Oryzae showed that the strong resistance did not change in the regenerated plants. The development of protoplast-to-plant system is an important progress towards utilization ofO. meyeriana via cellular engineering. The experiments demonstrated that cryopreservation of plant calli was a new way to obtain embryogenic cell line.     

Free and Conjugated Indoleacetic Acid (IAA) Contents in Transgenic Tobacco Plants Expressing the iaaM and iaaH IAA Biosynthesis Genes from Agrobacterium tumefaciens

The Agrobacterium tumefaciens T-DNA gene iaaM was introduced by leaf-disc transformation into transgenic tobacco (Nicotiana tabacum) plants expressing the iaaH gene. Regenerated calli were screened for the presence of indole-3-acetamide (IAM), by gas chromatography-multiple ion monitoring-mass spectrometry, and IAM-containing calli were further analyzed for free and conjugated indoleacetic acid (IAA). It was found that transgenic calli on average contained twice as much free IAA and three times more conjugated IAA than calli from wild-type plants. About 40% of the transformed calli could be regenerated to plants. The distribution of free and conjugated IAA was measured in transformed plants with a normal phenotype and compared with equivalent wild-type plants. The IAA content of transgenic plants was only slightly increased, whereas IAA-conjugate levels were enhanced significantly. These data suggest that conjugation of IAA may serve as a regulatory mechanism, contributing to maintenance of steady-state IAA pool sizes during tobacco growth and development.     

Distribution and Accumulation of Thiophenes in Plants and Calli of Different Tagetes Species

The diversity of thiophenes (natural biocides) and the differencesbetween the concentrations of these compounds in the leavesand roots of Tagetes erecta L., T. patula L. cv. Nana furia,and T. minuta L. (marigolds) indicated the presence of at leasttwo different sites of accumulation: leaves and roots. Leafexplants of Tagetes, however, are used by preference to obtaincallus cultures. Once subcultured, secondary (C₂) calli of T.patula obtained from leaves of 4 to 7-week-old plants, containedhigher amounts of accumulated thiophenes (up to 80% of the amountsin the leaves) than original (C₁) or twice subcultured calli(C₃). The concentrations of thiophenes in C₂ calli of T. minutawere about half those of C₁ calli, while the concentrationsof thiophenes of C₁ calli amounted to 1-2% of the leaf values.Most of the C₃ calli of T. minuta did not contain thiophenesat all. Although C₁ calli of T. erecta also contained considerableamounts of thiophenes, the C₂ calli died, most likely owingto high levels of accumulated polyphenolic compounds. The combinationof species effects and the physiological state of plants andcalli provides adequate information to decide whether Tagetescalli are able to produce thiophenes or not. It is concludedthat the ability to produce thiophenes does not depend on theorgan used, but on the genetic information present in the species,and on the physiological state of plants and calli, particularlytheir age. Key words: Callus, explant selection, Tagetes erecta, Tagetes minuta, Tagetes patula, thiophenes     

Direct and indirect shoot and bulblet regeneration from cultured leaf explants of Lilium pumilum,an endangered species

Alternative methods of in vitro cloning that involve both adventitious (direct) and callus intermediate (indirect) pathways were investigated for the endangered species Lilium pumilum. Plantlet regeneration was obtained from leaf explants, cultured on Murashige and Skoog (MS) basal medium supplemented with various combinations of auxins and cytokinins at different concentrations. About 30% of the explants directly formed adventitious shoots on MS medium containing 8.88 μM 6-benzyladenine (BA) and 2.69 μM α-naphthaleneacetic acid (NAA). For production of regenerable callus, callus formation followed by shoot induction was best when explants were initially cultured on MS medium supplemented with 9.05 μM 2,4-dichlorophenoxyacetic acid (2,4-D). Regenerable calli were yellow or purple and readily regenerated shoots when subcultured onto MS medium containing 2.22 μM BA and 1.61 μM NAA. About 78% of the calli were able to produce adventitious shoots. Shoots were rooted on half-strength MS medium supplemented with 1.34 μM NAA and were successfully acclimatized to greenhouse conditions. This report describes an efficient method for the in vitro multiplication of whole plants from leaf explants of the endangered species L. pumilum.     

Protoplast Culture and Plant Regeneration of Angelica dahurica

White and soft calli were induced from the stemnodes of Angelica dahurica on MS medium containing lmg/L 2,4-D, and subcultured on the same medium with decreased concentration of the hormone for about half a year, until quite a number of embryogenic cell clusters were produced in calli. Protoplasts prepared only from this kind of callus were regenerable. The protoplasts-derived colonies were able to develop into embryos directly or to grow continously into calli as affected by the hormone and, in particular, by osmotic pressure in the culture medium. The embryos either formed directly or via callus stage were all capable of regenerating complete plants under proper culture conditions.     

Regeneration and characterization of somatic hybrids between Brassica napus and Diplotaxis harra

Stem cortex protoplasts of Brassica napus, inactivated with iodoacetate, were fused with cell suspension - derived protoplasts of Diplotaxis harra by polyethylene glycol (PEG) treatment. PEG at 15–18% (w/v) induced 5–9% heterofusions. The hybrid callus selection was based on morphology: D. harra calli were yellow and very fine, while B. napus protoplasts typically produced green, well defined calli. A number of green, large calli were selected after fusion experiments and flowering plants were regenerated from two of these callus lines. The morphological traits as well as cytological and biochemical analysis of four isoenzymes confirmed the hybrid nature of the regenerants.     

水稻原生质体培养再生植株程序化的初步研究

从12个品种水稻成熟种子诱发愈伤组织并继代培养,通过MS培养基中2,4-D浓度的变换,研究了2,4-D对水稻愈伤组织生长的影响。用AA培养基建立适合原生质体培养的胚性细胞悬浮系仅需3个月。由悬浮细胞系游离的原生质体在改良的KPR培养基中进行液体浅层培养,有10个品种获得高植板率的细胞团。变换使用不同的分化培养基,从7个品种得到再生植株。实验重复性达到80%,初步实现了水稻原生质体培养的程序化。     

In vitro culture and the incidence of somaclonal variation in regenerated plants of Trifolium pratense L.

Red clover (Trifolium pratense L.) cvs ‘Altaswede’ (2n = 2x = 14) and ‘Norseman’ (2n = 4x = 28) have been used to investigate tissue culture initiation, plant regeneration and the occurrence of somaclonal variation. After callus induction shoots were induced both when calli on L2 medium containing 2 mg l⁻¹ 2,4-dichlorophenoxy acetic acid (2,4-D), 2 mg l⁻¹ 6-benzylaminopurine (BA) and 2 mg l⁻¹ 6-amino-purine (AP) were subcultured on media containing naphthalene acetic acid (NAA) (0.05 mg l⁻¹) and kinetin (KIN) (0.05 or 0.5 mg l⁻¹) and when embryogenic calli were cultured and subcultured on L2 medium containing 0.002 mg l⁻¹ 4-amino-3,5,6-trichloropicolinic acid (PIC) and 0.2 mg l⁻¹ BA. Shoot tip cultures were also established to induce multiple shoots for regeneration of plants via organogenesis.Regenerants from different regeneration pathways were evaluated for chromosome number stability, morphology and several biochemical traits. Regenerated plants showed stable isozyme banding patterns for malate dehydrogenase, 6-phosphogluconate dehydrogenase, phosphoglucose isomerase, phosphoglucomutase and shikimate dehydrogenase, as well as their nodule leghemoglobin profiles. Variations were detected in the chromosome number of some regenerants as well as in leaflet length-to-width ratio and leaflet number. Factors related to the incidence of somaclonal variation are discussed.