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1.
In vitro chromosome doubling during ovule culture of sugar and fodder beets (Beta vulgaris L.) was studied with four anti-microtubule herbicides: amiprophos-methyl (APM), oryzalin, pronamide, and trifluralin at concentrations of 0–300 μM. Best chromosome doubling results were obtained by treatment of the ovules with 100 μM APM which produced 4.7 diploid plants per 100 ovules. Highest chromosome doubling was found with oryzalin using 1 μM, with trifluralin at 10 μM, and with pronamide at 10 μM producing 2.8, 2.0, and 2.0 diploid plants per 100 ovules, respectively. The APM treatments showed relatively low toxicity on embryo formation which in combination with a high chromosome doubling effect, resulted in up to 89 diploids per 100 plants regenerated. Oryzalin and trifluralin had more severe toxic effects, which reduced embryo formation, thereby lower percentages of chromosome doubled plants were obtained from these treatments. Pronamide had no significant toxic effect but it induced chromosome doubling at lower frequencies. Compared to colchicine, APM seems to be as efficient for chromosome doubling during beet ovule culture, but at molar concentrations 100 times lower than those used for chromosome doubling with colchicine. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

2.
RAPD analysis of sporting and chimerism in chrysanthemum   总被引:12,自引:0,他引:12  
Kirsten Wolff 《Euphytica》1996,88(2):159-164
Summary The potential of colchicine and the microtubule depolymerizing herbicides trifluralin, oryzalin, and amiprophosmethyl (APM) for in vitro chromosome doubling during B. napus microspore culture was studied. Colchicine was administered during the first 6, 12 or 24 h of culture with 8 different concentrations up to 3 mM, and herbicides at 6 different concentrations up to 30 M for 12 h.Treatments with moderate concentrations of colchicine (3–100 M) produced a small increase in embryo production, while concentrations above 300 M were toxic. Colchicine treatment for 12 h resulted in higher embryo production than treatment for 6 and 24 h. Duration of treatment and concentration of colchicine both had a significant effect on the chromosome doubling. The highest diploidization rates (94% diploid regenerants) were seen after 24 h treatment with 1 mM colchicine.All three herbicides were similar to colchicine in terms of their effect on embryo formation and chromosome doubling comparable to the one of colchicine, but at concentrations approximately 100 times lower. APM was less toxic than trifluralin and oryzalin, but no significant difference in chromosome doubling efficiency was detected between the compounds. The 12 h treatment resulted in a maximum of approximately 65% diploid regenerants with all three herbicides, but APM may have an advantage because of its less toxic effects. Prolonged treatment with APM (20–24 h) may produce 95–100% diploid regenerants.Abbreviations APM amiprophos methyl - DMSO dimethyl sulfoxide  相似文献   

3.
Doubling the chromosome number of bahiagrass via tissue culture   总被引:2,自引:0,他引:2  
Crop improvement in bahiagrass (Paspalum notatum Flüggé) is limited by apomixis in most natural tetraploids, however, diploid sexual types occur. Production of sexual tetraploids by chromosome doubling will allow hybridization with apomictic tetraploids. Diploid bahiagrass (Paspalum notatum Flüggé) embryogenic callus tissue was exposed to three concentrations of three antimitotic chemical agents, colchicine, oryzalin and trifluralin. Callus was generated to plants and ploidy was evaluated by stomata size, mitotic chromosome counts, and flow cytometry. A total of 310 plants were verified as tetraploid of 1,432 plants that reached transplanting size. All treatments yielded 4x plants. The mean percentage success over all treatments was 22%, with means of 31% for oryzalin, 24% for colchicine and 16% for trifluralin. The high rates of success indicate that all agents can be successfully used to double chromosome numbers in bahiagrass. The percentage of 4x plants ranged from 9% (20 μM trifluralin) to 43% (20 μM oryzalin). Several treatments adversely affected regeneration. Mitotic chromosome counts are difficult and labor intensive in bahiagrass. Therefore, leaf stomata measurements were used as a preliminary screen. Data gave a bimodal distribution with overlapping tails and based on chromosome counts would have given an error rate of 12%. Flow cytometry analysis of regenerated plants resulted in mean nucleus fluorescence distributions consistent with control diploid or tetraploid values. These values agreed with chromosome counts, and this method is recommended for determining bahiagrass ploidy level. Research goals and available resources should be taken into consideration when selecting a treatment for chromosome doubling in bahiagrass.  相似文献   

4.
Isolated microspore cultures from two doubled haploid (DH) lines of wheat, Triticum aestivum L., were used to develop an in vitro chromosome-doubling protocol. During the initial 24 h or 48 h of culture the microspores were treated with either of the two antimicrotubule herbicides trifluralin or amiprophos-methyl (APM) in concentrations ranging from 0.1 μM to 10μM. Untreated control cultures yielded 209 embryos per 100000 microspores, which is the equivalent of one spike. Among the regenerated plantlets 67% were green, and 15% of the flowering plants were spontaneously chromosome doubled. Treatments with both the herbicides had a significant effect on chromosome doubling, measured as the percentage of fertile regenerants. With the best combination of treatment duration (48 h) and herbicide concentration (10/μM) the percentage of fertile plants among regenerants could be increased up to 74% with APM and up to 65% with trifluralin. The largest numbers of DH plants per spike could be obtained with herbicide concentrations at 1–3 μM. Treatments with either herbicide at these concentrations resulted in an estimated average between the two genotypes of 27 DH plants per 100 000 microspores. These results demonstrate the high potential of APM and trifluralin as chromosome-doubling agents in isolated microspore cultures. The in vitro treatment integrated into tissue culture procedures will constitute an efficient method for chromosome doubling in future wheat breeding  相似文献   

5.
This study investigates the capacity of the antimitotic agents colchicine, oryzalin and trifluralin for inducing polyploidisation of Ranunculus asiaticus ‘Alfa’ in vitro shoots. Flow cytometry was used to evaluate the optimal concentration of each antimitotic agent for polyploidisation. Trifluralin at a concentration of 2 μM resulted in the highest percentage of polyploidisation (27.5%), followed by a colchicine treatment of 200 μM, which induced 23.3% of polyploids. For oryzalin the highest percentage was achieved using a concentration of 1 μM. Different exposure periods were tested and turned out to be an important factor. The maximal exposure period tested (10 weeks) resulted in a significant increase in polyploidisation by oryzalin and trifluralin. In contrast, for colchicine (100 μM) exposure times of either 16 or 24 h did not significantly influence polyploidisation. Additionally the effect of the antimitotic agents on the viability was analysed. For colchicine no significant effect on the survival rate was observed, for trifluralin only a concentration of 10 μM affected viability whereas for oryzalin, concentration as well as exposure period were significant parameters. Flow cytometric data were confirmed by counting chromosomes in root tip cells.  相似文献   

6.
Helleborus species are members of the family of the Ranunculaceae. These popular perennials are all diploids (2n = 2x = 32). This study investigates polyploidy induction by different antimitotic agents. Colchicine, oryzalin and trifluralin were tested in vitro on shoots of Helleborus niger, H. orientalis and H. × nigercors. Furthermore the effect of the antimitotic agents on the viability and the multiplication rate of cultured plantlets were analyzed. Flow cytometry demonstrated that polyploidisation was genotype dependent: using H. niger, tetraploids were obtained using either oryzalin (3 μM) or trifluralin (3 or 10 μM), whereas for H. × nigercors only trifluralin (3 or 10 μM) induced polyploidisation. For H. orientalis neither treatment was effective to produce tetraploids or mixoploids. For these three species, colchicine (100 μM) was ineffective. The polyploidisation events in H. niger and H. × nigercors were confirmed by chromosome counts of mounted nuclei derived from root tips (2n = 4x = 64).  相似文献   

7.
不同除草剂加倍玉米单倍体的效率   总被引:13,自引:0,他引:13  
通过比较3种除草剂加倍玉米单倍体的效率,提出了利用除草剂加倍玉米单倍体的新方法。以先玉335、中农大4号和8607×8609三个基因型诱导的单倍体籽粒为材料,利用20、40、80和160 μmol L-1浓度的甲基胺草磷、炔苯酰草胺和氟乐灵作为加倍药剂,在单倍体植株生长到三叶期和五叶期时,用滴心法处理幼苗,选择有花粉的单株自交,收获后调查果穗加倍率;采用细胞学方法观察单倍体的染色体数目和花粉的活性。结果表明,20~160 μmol L-1的3种除草剂对玉米单倍体加倍均有效果,加倍率在3.42%~26.32%之间。甲基胺草磷、炔苯酰草胺和氟乐灵的加倍率分别为4.29%~26.32%、3.85%~20.81%和3.42%~17.61%;其中80 μmol L-1甲基胺草磷的加倍效果最佳,使用80 μmol L-1甲基胺草磷处理3个杂交种的单倍体,平均加倍率分别为25.02%、20.13%和14.99%。方差分析表明,3个基因型间的单倍体加倍率均呈极显著差异,可见使用甲基胺草磷、炔苯酰草胺、氟乐灵可以提高玉米单倍体的加倍频率,但不同基因型单倍体对除草剂的敏感性存在差异。  相似文献   

8.
In an outbreeding species such as apple, haploid plants may be especially useful in breeding programmes for the production of homozygous material. However, methods must be available to induce chromosome doubling in the haploid plants. Two antimitotic agents, colchicine and oryzalin, were compared as regards their efficiency in inducing chromosome doubling of in vitro haploid apple shoots. Three colchicine levels (0.025, 0.25 and 1.25 mM) and three oryzalin levels (5, 15 and 30 μM) were evaluated. Three techniques were also used and compared. Survival rate and chromosome counts were determined. Differences were observed between the two antimitotic agents and between the three techniques. This study demonstrates that oryzalin could be a better choice than colchicine for chromosome doubling on haploid apple shoots in vitro.  相似文献   

9.
Tetraploid plants were induced successfully from diploid bananas Musa acuminata (AA genome) ‘Kluai Leb Mu Nang’ and ‘Kluai Sa’ (2n = 2x = 22) with in vitro oryzalin treatment. Calluses from in vitro-grown shoot tips of both cultivars were treated with oryzalin at concentrations of 1.5 or 3 mg l−1 for 24, 48 and 72 h, respectively. The oryzalin treatments produced tetraploids at a frequency of 15.6% in ‘Kluai Leb Mu Nang’ and 16.7% in ‘Kluai Sa’ as detected by flow cytometry. Chromosome counting showed that the tetraploid plant chromosome number was (2n = 4x = 44). The selected tetraploid plants were transplanted in the field and variations in the morphological characteristic of leaf shape and fruit bunch compared to normal diploid plants were found under the same growing condition even after 3 years of cultivation.  相似文献   

10.
The aim was to develop an efficient chromosome doubling method for Miscanthus sinensis to enable the production of triploids and so avoid seed dispersal to the environment. Antimitotic treatments with colchicine or oryzalin were tested in M. sinensis cl. MS‐88‐110 on: (1) in vitro shoots and plants established in soil; (2) during propagation of embryogenic callus; and (c) during the initial stages of callus induction. All systems produced chromosome‐doubled plants. A higher percentage of tetraploids was found after antimitotic treatment at the explant or callus level compared with treatment of in vitro shoots or plants established in soil. In general, oryzalin was more toxic to plant material than colchicine. A higher frequency of chimeras was found among plants with altered ploidy level when the target was formed shoot buds compared with adventitious shoot formation from callus. Antimitotic treatment of embryogenic callus from shoot apices also resulted in a high degree of albinism.  相似文献   

11.
Polyploidization and early screening of Rhododendron hybrids   总被引:1,自引:0,他引:1  
Anu Väinölä 《Euphytica》2000,112(3):239-244
Polyploid induction represents a useful tool for breeders of floral crops as larger flowers, longer flowering period and deeper colors can be achieved through chromosome doubling. This study aimed at testing the efficiency of colchicine and oryzalin in inducing polyploidy in three Rhododendroncultivars grown in vitro. The chemicals were used in two concentrations with 24 h and 48 h treatment durations. The survival of the plants was better in colchicine than in oryzalin solutions. The higher concentration of both chemical skilled more plantlets. The treatment duration in oryzalin did not affect the survival, but 48 h in colchicine was more destructive than 24 h. The low survival rate may not be a disadvantage, if the treatment induces desired ploidy. The ploidy levels were screened with flow cytometry. Oryzalin was more efficient than cochicine in inducing polyploidy, the treatment duration and the concentration did not have significant effects as main factors. The biggest proportion of solid tetraploids (18.2% of the survived plants) was obtained from the 24 h treatment in 0.005% oryzalin. Immediately after the treatment the polyploids grew very slowly, whereas most of the unaffected diploids were vigorous from the very beginning. More mixoploids than solid tetraploids were obtained in all treatments. Most of the mixoploids retained their chimerism, one third shifted todiploidy and one single plant to tetraploidy. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

12.
High-frequency transgenic plant regeneration and production of plumbagin were accomplished from hairy roots induced by Agrobacterium rhizogenes strain A4M70GUS on Plumbago indica L. Of the two types of hairy roots developed on Murashige and Skoog (MS) basal medium, Type I was long and thick with lesser branches and root hairs, and Type II was highly-branched short and slender with tufts of root hairs. Of the different lines grown in half-strength MS liquid basal media, root line 5 (R5) of the Type I yielded the highest plumbagin (0.92% DW) and was significantly different to that of the in vitro control. R5 showed a stable production of plumbagin (1.09% DW) in subsequent cultures. Elicitation of R5 with 50 μM methyl jasmonate for 48 h increased the yield of plumbagin to 5.0% DW, and was superior to 100 μM acetylsalicylic acid (3.8% DW). Plumbagin yield was five times that of twoyear-old ex vitro roots. Histochemical assay and PCR analysis using the primers of uidA coding region confirmed the transformation. Hairy root segments cultured on MS medium containing 8.8 μM benzyladenine and 2.5 μM indole-3-butyric acid induced a mean of 9.1 shoots. Subsequent culture of the isolated shoots developed more than 50 normal shoots per culture. The root-free shoots were rooted on half-strength MS basal medium. The plantlets transferred in field conditions grew normally and exhibited 90% survival. Transgenic plant regeneration and hairy root induction in P. indica serves as reliable source of plumbagin which in turn cut off the mass destruction of the plant species.  相似文献   

13.
In this study, treatments of both trifluralin (at 10, 100 and 1000 μM) and N2O (in the form of gas under pressure) were applied to Begonia flower buds to induce the formation of 2n pollen. Three male fertile species (B. cucullata, B. subvillosa var. leptotricha and B. fischeri) and two male sterile hybrids (B. schmidtiana × B. cucullata and B. subvillosa var. leptotricha × B. cucullata) were treated. Pollen size, which is related to pollen DNA content, increased after both N2O and trifluralin treatments, but the induction of large pollen was genotype dependent. Trifluralin induced large pollen only in the male fertile species, while N2O treatments induced fertile 2n pollen in the male sterile B. schmidtiana × B. cucullata. Cytological studies showed that trifluralin induced multinuclear monads that resulted in 4n gametes in stead of 2n gametes. In general, large pollen obtained after trifluralin treatments showed low germination capability, while large pollen obtained after N2O treatments retained high germination capability. Seedlings with raised ploidy level could only be obtained after crosses were performed with large pollen obtained from N2O treatments. Hence, N2O treatments are preferable to the use of trifluralin to induce 2n gametes in Begonia.  相似文献   

14.
The regeneration of haploid plantlets is considered as a bottleneck in rice anther culture. In this study, an antimitotic chromosome doubling method, simple and efficient, of androgenic haploid plantlets resulted in an efficient doubled haploid obtainment. Through chromosome doubling capacity comparison of the three antimitotic compounds (colchicine, trifluralin and oryzalin), colchicine at 500 and 625 mg/L without supplementing with DMSO was found to be the best antimitotic treatment, with a chromosome doubling capacity of 40%. Furthermore, the in vitro growth of plantlets was followed to analyse the effects of antimitotic compounds. Colchicine treatments were more toxic than dinitroanilines, and colchicine DMSO-supplemented treatments had significant lower values on shoot growth. On the other hand, dinitroaniline compounds impeded root growth, provoked helical growth of shoot and caused the apparition of white nodules in the base of the plantlet due to sprouting abortion. In this study, a protocol for doubled haploid plant recovery was established taking advantage from androgenic haploid plantlets in order to increase the number of doubled haploid plantlets produced after an anther culture protocol.  相似文献   

15.
A triploid hybrid with an ABC genome constitution, produced from an interspecific cross between Brassica napus (AACC genome) and B. nigra (BB genome), was used as source material for chromosome doubling. Two approaches were undertaken for the production of hexaploids: firstly, by self-pollination and open-pollination of the triploid hybrid; and secondly, by application of colchicine to axillary meristems of triploid plants. Sixteen seeds were harvested from triploid plants and two seedlings were confirmed to be hexaploids with 54 chromosomes. Pollen viability increased from 13% in triploids to a maximum of 49% in hexaploids. Petal length increased from 1.3 cm (triploid) to 1.9 cm and 1.8 cm in the two hexaploids and longest stamen length increased from 0.9 cm (triploid) to 1.1 cm in the hexaploids. Pollen grains were longer in hexaploids (43.7 and 46.3 μm) compared to the triploid (25.4 μm). A few aneuploid offsprings were also observed, with chromosome number ranging from 34 to 48. This study shows that trigenomic hexaploids can be produced in Brassica through interspecific hybridisation of B. napus and B. nigra followed by colchicine treatment.  相似文献   

16.
Many diploid rose species and cultivars possess valuable traits that can be introgressed into modern tetraploid cultivars. Interspecific, interploidy crosses are possible, but triploid hybrids typically have limited fertility, hindering further breeding and selection. Tetraploidizing diploids before mating with tetraploids can alleviate fertility barriers. The efficiency of trifluralin was investigated for polyploidization of Rosa chinensis minima (2n = 2x = 14) seedlings. Treatments were trifluralin at 0.086% and 0.0086%, colchicine (0.5%), and distilled water and contained 2% dimethyl sulfoxide and a surfactant. Approximately 5 l of the treatment solution was applied to the apical meristem of seedlings (N = 337, 82–85 per treatment) in the process of cotyledon expansion. Guard cell length, pollen diameter, and root tip squashes of rooted cuttings were used to detect polyploidy in meristematic layer (L)I, LII, and LIII, respectively. Trifluralin (0.086%) was the most effective treatment for polyploidization (LI 20.2%, LII 12.9%, LIII 12.9%), followed by trifluralin (0.0086%) (LI 10.6%, LII 7.1%, LIII 4.7%) and colchicine (LI 2.4%, LII 0%, LIII 0%). Polyploidization consistently occurred from LI inward. Polyploids as a group had reduced pollen stainability and a lower leaflet length to width ratio than diploids. In addition, two diploid seedlings were identified which produce 2n pollen. Considerations in selecting germplasm and generating somatically-induced polyploids from seedlings versus clones for use in breeding are discussed.  相似文献   

17.
Summary Eighty-one accessions of three Lactuca species which showed no recognisable race specific resistance to Bremia lactucae when tested in the laboratory as seedlings, exhibited different degrees of susceptibility when exposed to natural field infection. As a group, crisp genotypes had less mildew and a slower rate of disease development than other types of lettuce. Wild forms of Lactuca sativa and Lactuca serriola were particularly susceptible. In a further trial, the low field susceptibility of three lettuce cultivars (Iceberg, Batavia blonde de Paris and Grand Rapids) was confirmed. Disease development on cv. Iceberg was compared to that on the highly susceptible cv. Hilde in experiments where the two cultivars were grown either in close proximity or in isolation. The absolute level of attack on cv. Iceberg depended upon disease pressure and differences between the two types only became apparent approximately 8 wk after sowing.  相似文献   

18.
Nicotiana wuttkei Clarkson and Symon discovered in the 1990s in Australia may be of potential interest to breeders as it carries resistance to Peronospora hyoscyami de Bary. The crossability between N. wuttkei (2n = 4x = 32) and three N. tabacum (2n = 4x = 48) cultivars (‘Puławski 66’, ‘Wiślica’ and ‘TN 90’) and the morphology and cytology of their amphihaploid hybrids (2n = 4x = 40) were studied. Seeds were produced only when N. wuttkei was used as the maternal parent, but under normal germination all seedlings died. Viable F1 hybrids of N. wuttkei × N. tabacum cv. ‘Puławski’ and N. wuttkei × N. tabacum cv. ‘Wiślica’ were obtained only by in vitro cotyledon culture. The amphihaploid plants were intermediate between the parents for most morphological traits. In 46.4% of the PMC’s, only univalents were present. The remainder of the cells had 1–5 bivalents and 1–2 trivalents. In spite of a detectable frequency of monads (2.6%), dyads (2.6%) and triads (4.5%), the hybrids were self and cross sterile.  相似文献   

19.
A fully fertile interspecific hybrid (Cucumis hytivus Chen and Kirkbride, 2n =4x =38) between Cucumis hystrix Chakr. (2n= 2x =24) and C. sativus L. (2n = 2x = 14) was previously produced by means of F1 (2n = 19) embryo rescue and subsequent chromosome doubling. This amphidiploid, a new synthetic species, may serveas a genetic bridge in Cucumis, and thus is a source for broadening the genetic base of C. sativus. The identification and characterization of fertile progeny possessing lower ploidy levels would facilitate bridging among Cucumis species. Putative allotriploids (2n = 26) were recovered from C. hytivus × C. sativus matings by means of embryo culture, and experiments were designed to confirm their genetic constitution, describe their morphology, and establish an efficient protocol for their micropropagation. Apical and axillary buds of these putative allotriploid plants were used as explants to establish a micropropagation system for subsequent verification and characterization of ploidy. Of the array of micropropagation media tested, then ability to be most effective for the induction of adventitious buds (desginated Stage II) was a Murashige and Skoog (MS)growth media containing 13.3μM BA + 1.1μM NAA or containing10 μm BA only. The mean number of adventitious buds per explant in the two media was 6.8 and 6.5, respectively. Shoots resulting from adventitious buds produced roots (Stage III) in relative abundance (39 of 42, 92.8%) on half-strength MS medium containing 1.0 μm IBA. The survivorship of rooted plantlets after acclimatization as assessed by relative production of leaves in plantlets (designated Stage IV) was 91.4% (148 of 162). The chromosome number in putative allotriploid plants as determined in mitotic root tip figures in all plants was 2n = 26, the number expected for allotriploids derived from such a mating. An examination of pollen viability in five samples of each plant by cytochemical staining revealed stainability to be < %.Compared to their parents, the allotriploid genotypes possess a high degree of parthenocarpy (84.8%) as measured by setting fruit in pollen-free conditions. While allotriploid fruit are black-spined and similar to the maternal parent C. hytivus, the dark green leaves typical of allotriploid plants mirrors that of the paternal C. sativus parent. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

20.
The improvement of perennial fruit trees through traditional breedingmethods is a long-term effort because of their long generation time. Theproduction of haploid and doubled haploid plants should offer newpossibilities for genetic studies and breeding work. In this study, haploidclones of pear were treated in vitro by oryzalin for chromosomedoubling; the level of ploidy was assessed by flow cytometry. Oryzalinappeared to be an efficient agent for chromosome doubling, the optimalconcentrations range from 200 to 300 M. For homozygosityassessment, analyses of isozyme markers were carried out, together withmicrosatellite markers PCR-amplified with primers initially developed forapple. The use of isozyme markers confirmed homozygosity of all thedoubled haploid clones except for one. The microsatellite markers can beused earlier than isozymes for checking homozygosity during theprogramme of haploid and doubled haploid clones production. Truedoubled haploid clones of pear were obtained in less than one year andtheir acclimatisation in greenhouse has already started.  相似文献   

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