ESTABLISHMENT OF FRIABLE EMBRYOGENIC (TYPE II) CALLUS FROM IMMATURE TASSELS OF ZEA MAYS (POACEAE)

Type II callus cultures were initiated from immature tassels of a maize genotype with an A188/B73 genetic background using N6 medium containing 1.0 mg/liter 2,4-D, 100 mg/liter casamino acids, 25 mM proline, and 0.2% phytagel™. Inclusion of 10 μM AgNO₃ in this medium significantly increased the frequency and vigor of the type II callus response. Friable calli emerged from these explants after two consecutive 2-week subculture intervals. Tassels from 10 to 30 mm long were capable of producing type II cultures. The plants regenerated from these cultures were green and indistinguishable from plants regenerated from immature embryo-derived calli.     

The effect of parental genotype on initiation of embryogenic callus from elite maize (Zea mays L.) germplasm

Summary Embryogenic callus consisting of both Type 1, firm, compact, translucent, relatively slow growing callus and Type 2, highly friable, rapidly growing callus with well-formed somatic embryos, were observed in elite maize germplasm, notably B73 and hybrids with B73. Parental genotype is very important in the ability to identify and isolate embryogenic callus after 14 and 28 days in culture. A partial diallel analysis revealed that a large proportion of the genotypic variation was of the additive type although heterosis did positively increase culture response in most cases. A significant negative maternal effect for culture response was noted for inbred B73 from Reid-type germplasm while four lines sampled from Lancaster germplasm showed similar response whether used as male or female. Although significant media differences were observed in some genotypes, culture media did not preclude observation of Type 1 or Type 2 embryogenic cultures in this study after 14 and 28 days. Plants could be regenerated from all genotypes in this study after 14-days of culture, but not all genotypes were capable of sustained subculture and plant regeneration. Plant regeneration from Type 2 cultures of B73 and B73 hybrids has been obtained up to a year after initiation.     

A procedure for regenerating Japonica and Indica varieties of rice from protoplasts

Fertile rice plants have been regenerated from protoplasts of two japonica rice varieties (Radon and Baldo) using a protocol initially developed for plant regeneration from protoplasts of an indica rice. Embryogenic calli were developed from immature embryos of Radon and Baldo rice on a callus induction medium, and then used to establish cell suspensions. Protoplasts were isolated from the cell suspensions, and cultured on a Millipore filter placed on a Kao/agarose medium that contained cell clusters from suspensions of IR52 or IR45. The protoplasts grew vigorously on Kao medium and developed into embryogenic calli within two to three weeks. Somatic embryo development occurred during a subsequent transfer of the calli to an LS medium for two to three weeks. The calli were then transferred to MS or N6 plant regeneration medium, and within one to three weeks, plants regenerated from 21 to 32% of the Radon calli, and 33 to 35% of the Baldo calli. Based upon these results and the previous success in regenerating an indica variety from protoplasts, this procedure has great promise for regenerating a range of rice varieties, and probably for regeneration of other monocotyledonous plants from protoplasts     

Plant regeneration from suspension cells induced from hypocotyls derived from interspecific cross Alstroemeria pelegrina × A. magenta and transformation with Agrobacterium tumefaciens

Embryogenic cell suspension cultures were established using the ovule culture of an interspecific cross, Alstroemeria pelegrina var. rosea × A. magenta. Ovules harvested 14 days after pollination were cultured on Murashige and Skoog (MS) medium without plant growth regulators (PGRs); calli were produced on the hypocotyl surface in germinating zygotic embryos. Suspension cells were induced from the calli by using liquid MS media containing 2,4-dichlorophenoxyacetic acid or 4-amino-3,5,6-trichloropyridine-2-carboxylic acid (picloram). Adventitious embryos developed from the suspension cells on half-strength MS medium supplemented with 0.5 mg l⁻¹ of both α-naphthaleneacetic acid and N⁶-benzylaminopurine; they grew into plantlets on the same medium. The plantlets formed rhizomes following transfer to half-strength MS medium without PGRs, and acclimatized plants were easily established. Subsequently, Agrobacterium-mediated transformation system was applied. The suspension cells were co-cultivated with A. tumefaciens strain EHA101/pIG121Hm or LBA4404/pTOK233, both of which contain neomycin phosphotransferase II, hygromycin phosphotransferase and intron-containing ?-glucuronidase (intron-GUS) genes. Seven days after co-cultivation, the cells were subjected to GUS assay; staining was most pronounced in the cells subcultured in a picloram-containing liquid medium and co-cultivated with EHA101/pIG121Hm. The co-cultivated cells were transferred to the MS medium containing picloram and 20 mg l⁻¹ hygromycin; 1 month later, several hygromycin-resistant callus lines showing GUS activity were obtained. Transgenic plants were obtained through our plant regeneration system, and foreign gene insertion into the regenerated plants was confirmed by polymerase chain reaction.     

A key to totipotency: Wuschel-like homeobox 2a unlocks embryogenic culture response in maize (Zea mays L.)

The ability of plant somatic cells to dedifferentiate, form somatic embryos and regenerate whole plants in vitro has been harnessed for both clonal propagation and as a key component of plant genetic engineering systems. Embryogenic culture response is significantly limited, however, by plant genotype in most species. This impedes advancements in both plant transformation-based functional genomics research and crop improvement efforts. We utilized natural variation among maize inbred lines to genetically map somatic embryo generation potential in tissue culture and identify candidate genes underlying totipotency. Using a series of maize lines derived from crosses involving the culturable parent A188 and the non-responsive parent B73, we identified a region on chromosome 3 associated with embryogenic culture response and focused on three candidate genes within the region based on genetic position and expression pattern. Two candidate genes showed no effect when ectopically expressed in B73, but the gene Wox2a was found to induce somatic embryogenesis and embryogenic callus proliferation. Transgenic B73 cells with strong constitutive expression of the B73 and A188 coding sequences of Wox2a were found to produce somatic embryos at similar frequencies, demonstrating that sufficient expression of either allele could rescue the embryogenic culture phenotype. Transgenic B73 plants were regenerated from the somatic embryos without chemical selection and no pleiotropic effects were observed in the Wox2a overexpression lines in the regenerated T0 plants or in the two independent events which produced T1 progeny. In addition to linking natural variation in tissue culture response to Wox2a, our data support the utility of Wox2a in enabling transformation of recalcitrant genotypes.     

Regeneration of plants from tissue- and cell suspension cultures of Symphytum officinale L. and effect of in vitro culture on pyrrolizidine alkaloid production

Primary calluses were induced from various organs of Symphytum officinale L. (comfrey) plants on solid MS and B5 medium supplemented with plant growth regulators. The callus was further subcultured on B5 medium. Cell suspension cultures were derived from B5 grown calluses by transfer to liquid B5 medium. Calluses as well as cell suspension cultures could be induced to regenerate whole plants on solid MS medium. Plants regenerated from short term cultures were identical with plants from which cultures were initiated in morphology and chromosome number. Production of pyrrolizidine alkaloids ceased on prolonged subculturing of suspensions although polyamines, which might act as precursors, were still detectable. However, regenerated plants produced the original alkaloids.     

An improved system to establish highly embryogenic haploid cell and protoplast cultures from pollen calluses of maize (Zea mays L.)

Regenerable, embryogenic haploid cell suspensions were initiated and established from type II pollen calluses of two selected Chinese maize genotypes (No 592 Y and 592.A2 LY). The induction frequency of friable, embryogenic callus (type II) was highly dependent on three factors: genotype, medium, cold pretreatment, and on their interactions. Repeated callus and cell selection during the culture procedure led to stable haploid suspensions consisting of fine clusters each containing 20–50 cells. The selected cell lines were able to maintain their morphogenic ability during long-term subculture (2 years). Protoplasts were successfully isolated from subcultured, friable, embryogenic pollen calluses and cultured on N₆BM and N₆K media using a feeder layer, obtained from 2-day-old suspension culture. Healthy plants were regenerated from protoplast-derived calluses.     

Production of fertile transgenic maize by electroporation of suspension culture cells

Fertile, transgenic maize plants were generated by electroporation of suspension culture cells that were treated with a pectin-degrading enzyme. Electroporation of cells from two different suspension cultures, one derived from A188 X B73 and one derived from a B73-related inbred, with a plasmid containing the bar gene, resulted in high-frequency recovery of stably transformed callus lines. Plants were regenerated from thirteen transformed callus lines and transmission of bar to progeny was demonstrated.     

Effect of culture medium composition on callus formation and regeneration in oil flax anther culture

Regeneration ability in callus cultures from anthers of two hybrid genotypes of oil flax was studied on N6 and LMA-1 nutrient media at various concentrations of cytokinine 6-benzylamynopurine (BAP). It was shown that callus grew and developed better at BAP concentrations of 2 mg/l, comparing with 4 and 6 mg/l. Shoot and root regeneration was observed in F1 genotype 6-8-gnezdny x M22 only and did not depend on BAP concentration in the medium and on the medium composition itself. Transfer onto fresh medium often stimulated dedifferentiation of the regenerated structures.     

Growth and regenerability of long-term suspension cultures of the U.S. rice cultivar Mercury

Suspension cultures of the U.S. rice cultivar Mercury have been maintained in modified General Medium for more than 3 years. These suspensions have continued to have high and relatively stable regeneration rates. Two different explants, immature panicles and seeds, were compared during the development of these embryogenic suspensions. Initial formation of secondary embryogenic callus from immature panicles on induction medium was greater than that from seeds. Suspensions of these two cell lines, however, did not differ morphologically and maintained similar regeneration rates. After 5 months in culture the rates of regeneration began to decline. The suspensions were plated onto regeneration medium without growth regulators for 2 weeks and then embryogenic cells were manually selected and used to develop secondary suspensions. Through this simple rejuvenation procedure, the suspensions retained high and stable regeneration rates. Variability in suspension growth, however, was observed during the culture period. Slower growth occurred at weeks 13, 15, 27, and 29 and was associated with a decrease in regeneration rates. Reproductive fertility of regenerated plants remained high for 3.5 years but then declined.Abbreviations CH casein (acid hydrolysate) - 2,4-d 2,4-dichlorophenoxyacetic acid - MS Murashige & Skoog basal medium - SE standard error     

High frequency somatic embryogenesis and plant regeneration from zygotic embryo-derived callus cultures of three Allium species

The plant regeneration ability of zygotic embryo-derived callus cultures was studied for 12 A. cepa varieties and accessions, two A. fistulosum varieties, one A. fistulosum x A. cepa interspecific hybrid and two A. porrum varieties. Compact embryogenic callus was induced on Murashige and Skoog (MS) medium supplemented with 2,4-dichlorophenoxyacetic acid. The embryogenic calluses of all three Allium species were similar in appearance. For all accessions tested plants could be regenerated at a high frequency from this compact callus through somatic embryogenesis, when using kinetin supplemented MS medium (regeneration medium). Addition of abscisic acid to the regeneration medium stimulated the formation of both somatic embryos and shoots for a number of varieties. Concerning shoot regeneration from callus cultures, significant differences existed between genotypes of all accessions except one.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - VDH Van Der Have Seed company     

Effect of nurse cultures on the production of macro-calli and fertile plants from maize embryogenic suspension culture protoplasts

Fertile plants have been obtained from maize (Zea mays L.) embryogenic suspension culture protoplasts. Friable, embryogenic callus initiated from an immature embryo from a cross involving the genotypes A188, B73, and Black Mexican sweetcorn was used to establish a rapidly growing embryogenic suspension culture. After nine months in culture, high yields of viable protoplasts (30×10⁶/ gram fresh weight) were obtained following a 1.5 hour enzymatic digestion. Protoplasts cultured with feeder cells divided and formed embryogenic callus, from which male and female fertile plants were regenerated. Protoplast-derived R₁ plants were self-pollinated and immature R₂ embryos isolated for callus initiation. Female fertile plants have also been produced from protoplasts isolated from an R₂-derived suspension culture. Significant interactions between protoplast and feeder-cell lines were observed.Abbreviations BC backcross - BMS Black Mexican Sweetcorn - 2,4-D 2,4-dichlorophenoxyacetic acid - PWS protoplast wash solution (0.2 M mannitol, 80 mM CaCl₂) - FDA fluorescein diacetate - ABA abscisic acid     

Plant regeneration from sugarbeet (Beta vulgaris L.) hypocotyls cultured in vitro and flow cytometric nuclear DNA analysis of regenerants

A simple and reproducible protocol for regeneration of sugarbeet plants from hypocotyl expiants derived from 21 day-old-seedlings has been developed. Expiants were cultured on MS medium containing 0.3 mg/l N6-Benzylaminopurine, 0.1 mg/l Naphthalene Acetic Acid, 50 mg/l adenine and 0.5% (w/v) fructose, 0.5% (w/v) sucrose and 0.5% (w/v) glucose to induce the formation of organogenic calli (2.3% to 46.5% organogenic efficiency, depending on populations). Shoot formation was induced in callus cultures of more than 1600 genotypes. Physiological age affected culture response and different genotypes had different temperature optima for organogenesis. Following transfer of regenerated plants to the greenhouse, DNA determinations were made to study the stability of ploidy. Differences in ploidy were observed in plants derived from both shortterm and long-term callus cultures; diploid true-to-type regenerants were 96% and 83%, respectively, from shortterm and long-term callus cultures.Abbreviations MS Murashige and Skoog medium - BAP N6-benzylaminopurine - IBA Indolebutyric acid - NAA Naphthalene acetic acid - TIBA 2,3,5 triiodobenzoic Acid - GM Germination Medium - IM Induction Medium - RG Regeneration Medium - RM Rooting Medium     

Inheritance of somatic embryogenesis and plantlet regeneration from primary (type 1) callus in maize

Summary Genetic factors controlling the differential expression of somatic embryogenesis and plant regeneration of maize from tissue culture were studied in two crosses. Inbred, hybrid, F2 and backcross generations developed from crossing maize inbred A188 with two commercially important inbred maize lines (B73 and Mo17) demonstrated genetic and environmental effects on somatic embryogenesis and plant regeneration when immature zygotic embryos were cultured on MS medium. Additive gene effects were more important in both crosses than dominant gene effects for precent somatic embryogenesis and percent or number of plants regenerated per embryo when generation means were analyzed. In backcross generations of each cross, cytoplasmic, maternal and/or paternal effects were significant for frequency of somatic embryos three weeks after culture as well as frequency, or number of plants regenerated per embryo, nine weeks after culture. Analysis of genetic variances suggests at least one gene (or block of genes) controls the expression of the frequency of somatic embryogenesis in these crosses. Differences in somatic embryogenesis and plant regeneration between B73 and Mo17 are discussed. This is Journal Paper No. 11,435 of the Purdue University Agricultural Experiment Station.     

Haploid plants from anther cultures of poplar (Populus × beijingensis)

Homozygous genotypes are valuable for genetic and genomic studies in higher plants. However, obtaining homozygous perennial woody plants using conventional breeding techniques is currently a challenge due to a long juvenile period, high heterozygosity, and substantial inbreeding depression. In vitro androgenesis has been used to develop haploid and doubled haploid plants. In the present study, we report the regeneration of haploid lines of poplar (Populus × beijingensis) via anther culture. Anthers at the uninucleate stage were induced to produce callus using three basic media. Two auxins (naphthalene acetic acid [NAA] and 2,4-dichloro-phenoxyacetic acid [2,4-D]), and two cytokinin (kinetin [KT] and 6-benzyladenine [BA]) were tested to explore the influence of plant growth regulators on callus response. H medium (Bourgin and Nitsch 1967) supplemented with 1.0 mg/L NAA and 1.0 mg/L KT induced the highest rate of callus formation. When callus obtained from anthers were subcultured in MS medium containing 1.0 mg/L BA and 0.2 mg/L NAA, followed by transfer to half-strength MS medium supplemented with indole-3-butyric acid (0.2–0.5 mg/L), the formation of regenerated plantlets increased dramatically. Inclusion of gibberellic acid (0.02–0.2 mg/L) in addition to a combination of BA (0.6 mg/L)-NAA (0.2 mg/L) in the culture medium resulted in enhanced frequency of shoot development, as well as greater internode elongation. Ploidy analysis of 580 regenerated plants, using both flow cytometry and chromosome counting, revealed 10.3 % haploid and 1.0 % triploid plantlets. The remaining plantlets were all diploid.     

Efficient in vitro propagation of <Emphasis Type="Italic">Artemisia nilagirica</Emphasis> var. <Emphasis Type="Italic">nilagirica</Emphasis> (Indian wormwood) and assessment of genetic fidelity of micropropagated plants

A reliable protocol has been established for in vitro propagation of Artemisia nilagirica var. nilagirica (Indian wormwood), a valuable medicinal plant from India. A highly proliferating organogenic callus was obtained on Murashige and Skoog (MS) medium supplemented with 2.5 µM IAA when nodal explants were cultured on MS medium supplemented with various growth regulators. Further, highest regeneration frequency (83.3 %) of adventitious shoots was observed, when the callus was sub-cultured on MS medium supplemented with 6-benzylaminopurine (BAP; 2.5 µM) along with 7.5 µM 2-isopentenyl adenine (2-iP). An optimal of 10.16 ± 2.24 shoots were regenerated on medium supplemented with 2.5 µM BAP + 7.5 µM 2-iP. Quarter strength MS medium supplemented with 10 µM IBA was effective for rooting of the shoots. Ex-vitro plants were normal and were established successfully. Cytological and molecular marker studies showed that regenerated plants showed genetic stability in micro-propagated plants.     

土人参的组织和单细胞培养及试管苗开花结实

以土人参的花梗、茎和叶片为外植体在ＭＳ培养基上诱导出愈伤组织,诱导率为７５％－９０％。愈伤组织经分化和生根培养再生了完整植株。由组织培养再生苗的幼茎诱导的愈伤组织建立悬浮系。由悬浮系分离的单细胞在２／３ＭＳ液体培养基中振荡培养或振荡培养３周后转入双层培养均再生了愈伤组织,再生率分别为０．２８％和０．４１％。愈伤组织在含有较低浓度６－ＢＡ的培养基上分化出苗。幼苗生长迅速,每３周扩增６．７倍,再生植株     

High efficiency <Emphasis Type="Italic">In vitro</Emphasis> plant regeneration from cotyledon explants of <Emphasis Type="Italic">Incarvillea sinensis</Emphasis>

Summary A simple and effective procedure has been developed for plantlet regeneration from cotyledon-derived callus of the medicinally important herb and ornamental species, Incarvillea sinensis. An average of 18.4 adventitious shoots per explant were obtained from 100% cotyledon explants cultured on half-strength Murashige and Skoog (MS) medium containing 1.0 mg l⁻¹ 6-benzylaminopurine for 3 wk, followed by another 4 wk on hormone-free 1/2×MS medium. The cotyledon explants continued to expand and regenerate new shoots upon repeated subculturing onto fresh medium. Most regenerated shoots (66.9%) were rooted on 1/4×MS mediumcontaining 1.0 mg l⁻¹ indole-3-acetic acid, with an average of about 3.8 roots per shoot. Regenerated plants with well developed shoots and roots were successfully acclimatized in soil and were normal phenotypically.     

Culture of and fertile plant regeneration from regenerable embryogenic suspension cell-derived protoplasts of wheat (Triticum aestivum L.)

Summary Regenerable embryogenic cell suspensions initiated from immature embryo-derived friable, fast growing, embryogenic calli of GK Ságvári winter wheat (Triticum aestivum L.) served as sources of protoplasts, which were cultured in different liquid or agarose-solidified media. Protocallus formation was best on KM_8p (Kao and Michayluk 1975) and GM (Li and Murai 1990) media, and protocallus growth on MS (Murashige and Skoog 1962) callus growing medium. Green shoot/plant regeneration occurred on MS regenerating medium, and rooting on MS or N6M (Mórocz et al. 1990) hormone-free media. Protocalli maintained their morphogenic capacity over 4 months, and with multiple subcultures on half-strength MS regenerating medium, the total number of regenerants could be increased. Approximately 1000 shoots/plants were regenerated and over 500 plants were transplanted in the greenhouse. The majority of them had an abnormal chromosome number and low viability, however, one plant grew to maturity and set seed.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetic acid - ECS embryogenic cell suspension - GA₃ gibberellic acid - GM General medium - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog medium - NAA 1-naphthaleneacetic acid - RECS regenerable embryogenic cell suspension     

In vitro breeding of Brassica juncea L. to enhance metal accumulation and extraction properties

In vitro breeding and somaclonal variation were used as tools to improve the potential of Indian mustard (Brassica juncea L.) to extract and accumulate toxic metals. Calli from B. juncea were cultivated on a modified MS medium supplemented with 10–200 μM Cd or Pb. Afterwards, new B. juncea somaclones were regenerated from metal-tolerant callus cells. Three different phenotypes with improved tolerance of Cd, Zn and Pb were observed under hydroponic conditions: enhanced metal accumulation in both shoots and roots; limited metal translocation from roots to shoots; reduced accumulation in shoots and roots. Seven out of thirty individual variants showed a significantly higher metal extraction than the control plants. The improvement of metal shoot accumulation of the best regenerant (3× Cd, 1.6× Zn, 1.8× Pb) and metal extraction (6.2× Cd, 3.2× Zn, 3.8× Pb) indicated a successful breeding and selection of B. juncea, which could be used for phytoremediation purpose.