Development and characterization of simple sequence repeats for flowering dogwood (Cornus florida L.)

Abundant, codominant simple sequence repeats (SSRs) markers can be used for constructing genetic linkage maps and in marker-assisted breeding programs. Enrichment methods for SSR motifs were optimized with the ultimate aim of developing numerous loci in flowering dogwood (C. florida L.) genome. Small insert libraries using four motifs (GT, CT, TGG, and AAC) were constructed with C. florida ‘Cherokee Brave’ deoxyribonucleic acid (DNA). Colony polymerase chain reaction (PCR) of 2,208 selected clones with three primers we reported previously indicated that 47% or 1,034 of the clones harbored one of the four targeted SSR motifs. Sequencing the putative positive clones confirmed that nearly 99% (1,021 of 1,034) of them contained the desired motifs. Of the 871 unique SSR loci, 617 were dinucleotide repeats (70.8%), and 254 were trinucleotide or longer repeats (29.2%). In total, 379 SSR loci had perfect structure, 237 had interrupted, and 255 had compound structure. Primer pairs were designed from 351 unique sequences. The ability of the 351 SSR primer pairs to amplify specific loci was evaluated with genomic DNA of ‘Appalachian Spring’ and ‘Cherokee Brave’. Of these primers, 311 successfully amplified product(s) with ‘Cherokee Brave’ DNA, 21 produced weak or faint products, and 19 did not amplify any products. Additionally, 218 of the 311 primers pairs revealed polymorphisms between the two cultivars, and 20 out of 218 primers detected an average of 13.7 alleles from 38 selected Cornus species and hybrids. These SSR loci constitute a valuable resource of ideal markers for both genetic linkage mapping and gene tagging of flowering dogwood. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Tissue culture of goldenseal (Hydrastis canadensis L.)

Summary Goldenseal (Hydrastis canadensis L.), a popular native American medicinal plant, is currently listed as endangered or threatened in over one-third of the states in which it is listed. The objective of this study was to develop an in vitro culture protocol for Goldenseal. Excise embryos were grown on Gamborg's B-5 medium with 0,1 or 10 μM gibberellic acid (GA₃), and supplemented with 30 gl⁻¹ sucrose and 8 gl⁻¹ agar. Germinated embryos provided explants (leaf and root tissue) that were subsequently cultured on various media with combinations of naphthleneacetic acid (NAA) and benzyladenine (BA). All NAA/BA combinations produced multiple shoots, roots, and callus. Leaf explants cultured on medium with 1∶10 μM NAA:BA and root explants on medium with 1∶1 μM NAA:BA could be successfully used for mieropropagation.     

Molecular analysis of plants regenerated from embryogenic cultures of wheat (Triticum aestivum L.)

Total DNAs of plants regenerated from immature embryo-derived 2-month-old embryogenic calli of wheat (cultivars Florida 302, Chris, Pavon, RH770019) were probed with six maize mitochondrial genes (atpA, atp6, apt9, coxI, coxII, rrn18-rrn5), three hypervariable wheat mitochondrial clones (K, K3, X2), five random pearl millet mitochondrial clones (4A9, 4D1, 4D12, 4E1, 4E11) and the often-used wheat Nor locus probe (pTA71), in order to assess the molecular changes induced in vitro. In addition, protoplast-derived plants, and 24-month-old embryogenic and non-embryogenic calli and cell suspension cultures of Florida 302 were also analyzed. No variation was revealed by the wheat or millet mitochondrial clones. Qualitative variation was detected in the nonembryogenic suspension culture by three maize mitochondrial genes (coxI, rrn18-rrn5, atp6). A callus-specific 3.8-kb Hind III fragment was detected in all four cultivars after hybridization with the coxI gene. The organization of the Nor locus of the plants regenerated from Florida 302 and Chris was stable when compared to their respective control plants and calli. The Nor locus in regenerants of Pavon and RH, on the other hand, was found to be variable. However, Nor locus variability was not observed in 14 individual seed-derived control plants from either Pavon or RH sources. In Pavon, a 3.6-kb Taq I or a 5.6-kb Bam HI+ Eco RI fragment was lost after regeneration. In one of the RH regenerants, which lost a fragment, an additional fragment was observed.     

Inheritance of the photoperiodically induced cold acclimation response in Cornus sericea L., red-osier dogwood

Summary Cold acclimation responses of latitudinal ecotypes of Cornus sericea L. (C. stolonifera Michx.) and F₁, F₂ and BC₁ hybrid progenies were measured under natural photoperiod conditions in St. Paul, MN and artificially shortened photoperiods in the glass-house. The 65 °N and 62 °N ecotypes (Alaska and Northwest Territories, respectively) were characterized by a short night length for hardiness induction, the 42 °N ecotype (Utah A and B) by a long night length for hardiness induction, while the F₁ was intermediate to the parents. Results from reciprocal crosses indicated there was no significant unilateral maternal influence on cold acclimation. Acclimation responses of the F₂ were highly variable but generally ranged between the parental extremes. However, three individuals from the 42 ° × 62 °N crosses exhibited greater cold resistance than the northern parent on two successive freezing test dates. F₂ plants were also found with less freezing resistance than the southern parent. Backcrosses to the southern parent produced progeny with acclimation patterns resembling that of the southern parent and were significantly less hardy than the F₂ in early freezing tests.Scientific Journal Series Paper No. 12,075 of the Minnesota Agricultural Experiment Station     

Increase in the rate of recombinants in tomato (Lycopersicon esculentum L.) after in vitro regeneration

Summary Modification to the cross-over (C. O.) rate of tomato (Lycopersicon esculentum) was attempted by using in vitro plant regeneration. F1 hybrids with the same genetical homozygous background were compared at two loci: bs-ms32 on chromosome I, and aa-d on chromosome II. For each, the genetic distance separating the two markers was about 20 to 30 map units. One cotyledon of each F2 hybrid seedling was used as in vitro tissue culture material, while the rest of the plantlet was grown as a control. Recombination rates of the selfed progenies from each regenerated and matched control couple were compared. For the first set of markers 59,000 seeds were analysed (5 controls' and 7 regenerated progenies), and for the second, 11,000 (5 controls' and 8 regenerated progenies). There were significant increases in the genetic distance between markers in about half the regenerated individuals. For the first set the increases ranged from 6.07 to 6.91 units out of a control distance of the 19.84 to 25.65, corresponding to lengthenings of 30.59 to 35.29%. For the second set they ranged from 4.92 to 6.04 out of a control distance of 25.05 to 26.57, representing increases of 19.64 to 22.75%. Such a phenomenon can be important either from a fundamental or practical viewpoint, regarding selection efficiency in plants, and potential for gene reassortment.The experiment reported in this paper has been submitted by M. Biglary in partial fulfillment of the requirements for Docteur-Ingénieur degree. (Nov. 1982, Laboratoire d'Amélioration des Plantes, Université Paris-Sud, F-91405 Orsay)     

Somatic embryogenesis and plant regeneration from immature zygotic embryos of papaya (Carica papaya L.)

Summary Immature zygotic embryos from open-pollinated and selfed Carica papaya L. fruits, 90 to 114 days post-anthesis, produced 2 to 20 somatic embryos on apical domes, cotyledonary nodes, and radicle meristems after culture for three weeks on half-strength Murashige and Skoog (MS) medium supplemented with 0.1 to 25 mg l^–1 2,4-dichlorophenoxyacetic acid (2,4-D), 400 mg l^–1 glutamine, and 6% sucrose. After six weeks of culture, about 40 to 50% of the zygotic embryos had become embryogenic, and each embryogenic embryo yielded hundreds of somatic embryos within five months of culture on media supplemented with 2,4-D. Somatic embryos matured on half-strength MS medium, germinated on MS medium containing 5 mg l^–1 kinetin, and grew large enough for greenhouse culture on MS medium. Shoots were rooted in vermiculite and grown in the greenhouse.Journal Series no. 3449 of the Hawaii Institute of Tropical Agriculture and Human Resources     

Efficient plant regeneration from leaves of rapeseed (Brassica napus L.): the influence of AgNO3 and genotype

Factors influencing reliable shoot regeneration from leaf explants of rapeseed (Brassica napus L.) were examined. Addition of AgNO₃ to callus induction medium was significantly effective for shoot regeneration in all three genotypes initially tested. When 48 genotypes subsequently were surveyed, a large variation of shoot regenerability was observed, ranging from 100 to 0% in frequency of bud formation and from 7.5 to 0 in the number of buds per explant. A significant correlation (r=0.84) was observed between the frequency of bud formation and the number of buds per explant. The shoot regenerability from leaf explants was not related to that from cotyledonary explants (r=0.28). Histological observations showed that an organized structure developed from calluses produced at vascular bundle tissues after 7 days of culture on callus induction medium, and they developed shoot apical meristems one week after transfer onto shoot induction medium. Regenerated plantlets were obtained 2 months after the initiation of culture and they normally flowered and set seeds. No alterations of morphology or DNA contents were observed in regenerated plants and their S1 progenies.     

Evolutionary patterns in the antR-Cor gene in the dwarf dogwood complex (Cornus, Cornaceae)

The evolutionary pattern of the myc-like anthocyanin regulatory gene antR-Cor was examined in the dwarf dogwood species complex (Cornus Subgenus Arctocrania) that contains two diploid species (C. canadensis and C. suecica), their putative hybrids with intermediate phenotypes, and a tetraploid derivative (C. unalaschkensis). Full-length sequences of this gene (∼4 kb) were sequenced and characterized for 47 dwarf dogwood samples representing all taxa categories from 43 sites in the Pacific Northwest. Analysis of nucleotide diversity indicated departures from neutral evolution, due most likely to local population structure. Neighbor-joining and haplotype network analyses show that sequences from the tetraploid and diploid intermediates are much more strongly diverged from C. suecica than from C. canadensis, and that the intermediate phenotypes may represent an ancestral group to C. canadensis rather than interspecific hybrids. Seven amino acid mutations that are potentially linked to myc-like anthocyanin regulatory gene function correlate with petal colors differences that characterize the divergence between two diploid species and the tetraploid species in this complex. The evidence provides a working hypothesis for testing the role of the gene in speciation and its link to the petal coloration. Sequencing and analysis of additional nuclear genes will be necessary to resolve questions about the evolution of the dwarf dogwood complex.     

Production of transgenic pineapple (Ananas cosmos (L.) Merr.) plants via adventitious bud regeneration

A new protocol for the production of transgenic pineapple plants was developed. Adventitious buds were induced directly from Agrobacterium-infected leaf bases and stem discs of in vitro plants, bypassing the establishment of callus cultures. Non-chimeric transgenic plants were obtained by multiple subculturing of primary transformants under increasing levels of selection. A total of 42 independent transgenic lines were produced from two cultivars with two different constructs: one containing a modified rice cystatin gene (Oc-IΔD86) and the other with the anti-sense gene to pineapple aminocyclopropane synthase (ACS). GUS histochemical staining provided the first evidence of the non-chimeric nature of the transformed plants. Their non-chimeric nature was further demonstrated by PCR analyses of the DNA extracted from individual leaves of a primary transformed plant and also from multiple plants propagated from a single transformation event. Southern hybridization confirmed random integration patterns of transgenes in the independent lines. For the Oc-IΔD86 gene, the expression at the mRNA level was detected via RT-PCR and its translation was detected by protein blot. Agronomic evaluation and bioassays of the transgenic plants will further validate the utility of this new tool for pineapple improvement.     

Cytogenetic characterization of embryogenic callus and regenerated plants of Pennisetum americanum (L.) K. Schum

Summary Embryogenic calli were derived from cultured segments of immature inflorescences of Pennisetum americanum (pearl millet). The original explants as well as the embryogenic calli and the plants regenerated via somatic embryogenesis were examined cytogenetically. Embryogenic calli were predominantly diploid (2n=14) after one month and six months in culture (92% and 76%, respectively). Tetraploid and aneuploid cells were observed in the original explant (2.5% and 1.2%) as well as in one (4.0% and 4.0%) and six-month-old calli (10.0% and 14.0%). Plants were regenerated from calli that had been in continuous culture for two, four and six months. Of the 101 regenerants, 100 were diploid and 1 was tetraploid. The tetraploid was an albino as were three of the diploid regenerants. Examination of 30 of the regenerants in meiotic diakinesis, anaphase I, anaphase II and quartet stages revealed no cytogenetic differences between control and regenerated plants. Gel electrophoresis for total protein content and alcohol dehydrogenase and malate dehydrogenase activity also did not reveal any differences between the controls and regenerants. The results of this study show that a slight shift toward aneuploidy and polyploidy may occur in embryogenic cultures, but there also is a strong selection in favor of plant regeneration from cytogenetically normal cells.     

Anther culture and haploid plant regeneration in purple coneflower (Echinacea purpurea L.)

Anthers containing microspores at the uninucleate stage were excised from capitula of field grown plants of purple coneflower, Echinacea purpurea, and cultured on medium conducive to callus growth. In callus induction cultures, N6 basal medium was more effective than Murashige and Skoog (MS), and a combination of benzyladenine (BA) at 2.22 μM with naphthaleneacetic acid (NAA) at 0.054 μM was more effective than 2,4-dichlorophenoxyacetic acid (2,4-D) alone at 4.52, 9.05 and 13.57 μM. Callus induction rate as high as 85.8% was achieved, and no statistically significant differences were found among cultures with various densities of 20, 40, 60, 80 and 100 anthers per bottle each filled with 40-ml medium. Shoots were regenerated from calluses on MS medium containing 2.22 μM BA and various concentrations of NAA, with the highest regeneration rate of 95.24% obtained when 0.27 μM NAA was applied. Although a large portion of the␣regenerated shoots had prominent symptom of vitrification, some normal shoots could be easily rooted on MS medium containing 0.054 μM NAA. Thirty regenerated plants were randomly selected and 19 of them were confirmed to be haploid by observation of chromosome number of root-tip cells.     

DNA variations in regenerated plants of pea (Pisum sativum L.)

Summary The aim of this study was to determine whether DNA variations could be detected in regenerated pea plants. Two different genotypes were analyzed by cytogenetic and molecular techniques: the Dolce Provenza cultivar and the 5075 experimental line. Dolce Provenza regenerated plants showed a reduction in DNA content, particularly at the level of unique sequences and ribosomal genes. Moreover, regeneration was associated with an increase in DNA methylation of both internal and external cytosines of the CCG sequence. On the other hand, the DNA content of the 5075 line remained stable after regeneration. DNA reduction was found only in 5075 plants regenerated from callus cultures maintained for long incubation periods (about a year). The DNA variations observed are discussed both in relation to the genotype source and the role of tissue-culture stress.     

Meiotic and isozymic characterization of plants regenerated from euploid and selfed monosomic tall fescue embryos

Summary Tissue culture of tall fescue (Festuca arundinacea Schreb., 2n=6x=42) would be enhanced by improving the callus induction and plant regeneration efficiency, and evaluating the meiotic and isozymic variation induced by culture. Mature embryos were cultured from four lines of Kenhy tall fescue and from the progeny of three selfed monosomics. Evaluation of six media-auxin combinations showed callus initiation was greatest on SH medium with 2.5 mg/l 2,4,5-T or 7.4 mg/l pCPA, while plant regeneration was greatest on SH medium with 0.5 mg/l 2,4-D. Cytological analyses of 27 plants derived from euploid parents showed a high frequency of aneuploidy (15/27). Chromosome numbers of aneuploids ranged from 36 to 41, with one plant having 80 chromosomes and two plants being asynaptic. Two of ten monosomic-derived plants were euploid, five were monosomic, one was monosomic with a fragment and two were double monosomic. Zymograms of the parents and regenerants were obtained for the enzymes ACPH, ADH, GOT, 6-PGD and PGI. Isozyme variation was observed for two groups of plants derived from the same Kenhy embryos. One group of four monosomic-derived plants differed for the enzymes GOT and ACPH, and all four plants had a PGI pattern. different from that of the parental monosomic plant. This indicated loss of a PGI allele, probably as a result of callus culture.Contribution No. 89-3-141 of the Kentucky Agricultural Experiment Station in cooperation with the USDA-ARS. Part of thesis research for senior author's M. S. degree     

Thidiazuron promotes high frequency regeneration of peanut (Arachis hypogaea) plants in vitro

Multiple shoots were induced on Valenciatype peanut (Arachis hypogaea L.) explants cultured in vitro on a nutrient medium supplemented with thidiazuron. Zygotic embryos excised from mature seeds were germinated on Murashige-Skoog nutrient medium, and the resulting plantlets (8 days-old) were used as a source of explants. When cultured on a nutrient medium with increasing levels of thidiazuron (0.5 to 30 mg/l), expiants from various parts of the peanut plant (except the root) produced multiple shoot primordia which subsequently developed into individual shoots. Hypocotyl and cotyledon explants produced shoots in higher numbers than other explants (20 shoots per hypocotyl explant at all thidiazuron concentrations and 15 shoots per cotyledon explant at 30 mg/l). Shoots rooted normally on a basal Murashige-Skoog medium containing charcoal and developed into healthy and fertile plants when planted in soil.Abbreviations TDZ thidiazuron - MSO Murashige and Skoog (1962) basal medium - BA 6-benzylaminopurine     

High frequency plant regeneration and accumulation of tropane alkaloids in regenerated plants of Scopolia parviflora

An efficient in vitro plant regeneration system was established from callus culture of Scopolia parviflora. Callus was induced from adventitious roots on B5 medium with 0.45–9.04 μM 2,4-dichlorophenoxyacetic acid (2,4-D). In vitro plantlet regeneration was achieved on B5 medium supplemented with 44.38 μM benzyladenine (BA), 3% sucrose, and 0.38% gelrite. Plantlets were transplanted to artificial soil and grown to maturity successfully in a greenhouse. The tropane alkaloid contents in regenerated plants were analyzed using high-performance liquid chromatography (HPLC), and were found to be higher than those of adventitious roots, native growing plants, and acclimated plants. Regenerated plants from organogenic callus cultures produced a greater amount of tropane alkaloids.     

Plant regeneration from cotyledonary protoplasts of cauliflower (Brassica oleracea L. var.botrytis L.)

Summary Protoplasts isolated enzymatically from precultured cotyledonary leaves ofB. oleracea var.botrytis and cultured in KM8p medium (Kao andMichayluk 1975) underwent sustained divisions in about 0.1% population to eventually produce callus, whereas mesophyll protoplasts from either field grown orin vitro raised plants failed to divide. The callus readily differentiated on Murashige-Skoog medium as modified for shoot culture (Binding 1974) to give rise to shoot and roots.     

Effects of NaCl and Na2SO4 on red-osier dogwood (Cornus stolonifera Michx) seedlings

Sodium chloride and sodium sulfate are commonly present in extraction tailings waters produced as a result of surface mining and affect plants on reclaimed areas. Red-osier dogwood (Cornus stolonifera Michx) seedlings were demonstrated to be relatively resistant to these high salinity oil sands tailings waters. The objectives of this study were to compare the effects of Na₂SO₄ and NaCl, on growth, tissue ion content, water relations and gas exchange in red-osier dogwood (Cornus stolonifera Michx) seedlings. In the present study, red-osier dogwood seedlings were grown in aerated half-strength modified Hoagland's mineral solution containing 0, 25, 50 or 100 mM of NaCl or Na₂SO₄. After four weeks of treatment, plant dry weights decreased and the amount of Na⁺ in plant tissues increased with increasing salt concentration. Na⁺ tissue content was higher in plants treated with NaCl than Na₂SO₄ and it was greater in roots than shoots. However, Cl^– concentration in the NaCl treated plants was higher in shoots than in roots. The decrease in stomatal conductance and photosynthetic rates observed in presence of salts is likely to contribute to the growth reduction. Our results suggest that red-osier dogwood is able to control the transport of Na⁺ from roots to shoots when external concentrations are 50 mM or less.     

Genetic variability in callus formation and regeneration of garlic (Allium sativum L.)

Twenty garlic Allium sativum (L.) genotypes were analysed for genetic variation in their ability to form callus (in one medium) and regenerate shoots (in four different media). Genotypes showed significant differences in the analysis of variance of all the traits tested. The accession Printanor showed the best general behaviour, with 83% callus-producing explants, 44.7% organogenic explants, and 15.35 shoots/g of callus. The best regeneration medium was MBO, without growth regulators. Shoot production capacity was examined with the additive main effects and multiplicative interaction model that proved to be a powerful tool for analysis and easy comprehension of the strong genotype×medium interactions frequently observed in in vitro culture systems. Received: 5 February 1998 / Revision received: 11 May 1998 / Accepted: 1 June 1998     

Effect of genotype on shoot regeneration from cotyledonary explants of rapeseed (Brassica napus L.)

Summary Ability of shoot regeneration from cotyledonary explants of rapeseed (B. napus) was surveyed for 100 cultivars. Effects of explant age and plant growth regulators were determined before screening the genotypes. The optimal condition required 4-day-old cotyledons as explant and 4.0 mg/l benzylaminopurine as plant growth regulator. Gas-permeable tape as sealing material was more effective for shoot regeneration than Parafilm. When testing cultivars, shoot regeneration response was strongly influenced by genotype with a range of variation from 97% (percentage of explants regenerating shoots) in Arabella and Norin 26 to 0% in Norin 18 and Norin 30. The response was not dependent on origin and cropping type (spring vs. winter type). The ability of shoot regeneration was not related to that of microspore embryogenesis. The regenerants rooted on medium containing 2.0 mg/l indole-3-butyric acid and after planting in soil flowered and set seeds. Histological studies showed that shoot meristems developed in callus which had grown from the vascular bundle tissue within 8 days.Abbreviations BA 6-benzylaminopurine - IBA indole-3-butyric acid - NAA 1-naphthaleneacetic acid     

Monosomic analysis of tissue culture response in wheat (Triticum aestivum L.)

Summary The ability of immature embryos of wheat (Triticum aestivum L.) to respond in cell culture was examined in crosses between the Wichita monosomic series and a highly regenerable line, ND7532. Segregation in disomic controls and 13 monosomic families showed a good fit to a monogenic ratio indicating a qualitative mode of inheritance. Segregation in the cross involving monosomic 2D showed a high frequency of regeneration (93.6%) and high callus growth rate (1.87 g/90 days) indicating that 2D is a critical chromosome. Modifying genes may be located on other chromosomes. Substitution of chromosomes from a low regenerable cultivar Vona further indicated that the group 2 chromosomes, in particular chromosome 2D, possess genetic factors promoting callus growth and regeneration.