Embryological Studies on In Vitro Pollination in Rice

n vitro pollination and its embryological studies were carried out in two japonica cultivars of rice (Oryza sativa L.), “Chunjiang 05" and “95046". N6 basic medium supplemented with different exogenous hormones was used for ovary culture after in vitro pollination. The main results were as follows: (1) both cultivars were induced to set kernels after in vitro pollination. The frequency of seedset was 52.1%, including 28.4%normal embryo development, 2.2% abnormal embryo development and 21.5% callus formation. (2) The processes of embryo and endosperm development after in vitro pollination were basically as normal as those in vivo , except there was some retardation in the first division of zygotes and primary endosperm nuclei as well as in their subsequent development. However, both kernels and plantlets could be produced finally. (3) A few abnormal embryos were observed, for instance, proembryos with elongated suspensor and vacuolated proembryos. (4) Two types of calli in the cultured ovaries appeared, namely, the compact callus and the fragile callus, which were able to differentiate into adventitious buds and roots.     

水稻离体授粉的胚胎学研究

采用2个水稻（Oryza sativa L.)品种“春江05”（早粳）和“95046”（晚粳）,对离体授粉过程中的胚胎学进行了详细的研究。结果表明：（1）2个品种均胡离体授粉结实,平均结实率为52．1％,其中28．4％胚胎发育正常,2．2％胚胎发育异常,21．5％愈伤组织化;（2）离体授粉时的胚胎发育途径和体内自然发育基本相同,中是合子和初生胚乳核首次启动分裂及以后的发育均较延缓,但最终也能萌发成幼苗。（3）观察到具细长胚柄的原胚及液泡化原胚等异常的胚胎类型;（4）子房内形成的愈伤组织分为致密和松散两种类型,二均可化出不定芽和不定根,还对离体授粉的方法,离体授粉中正常和异常的胚胎发育途径进行了讨论。     

In vitro culture promotes partial autonomous endosperm development in unfertilized ovules of wild-type Arabidopsis thaliana var. Columbia

Partial endosperm development without paternal genome involvement was induced in unpollinated ovaries of wild-type Arabidopsis thaliana cultured in vitro. Unpollinated pistils were cultured on hormone-free Murashige and Skoog (MS) medium with addition of 6% sucrose and supplemented with: benzylaminopurine (BAP; 2 mg l^–1) combined with naphthylacetic acid (NAA; 0.1 mg l^–1), 2,4-dichlorophenoxyacetic acid (2,4-D; explants exposed to 1-h auxin shock 20 or 40 mg l^–1, and transferred to hormone-free MS medium). Initiation of autonomous endosperm (AE) development was induced on all media used in 54 ovules from 39 cultured ovaries (26%), with an average frequency of 1.4 ovules/ovary. The highest frequency of partial endosperm formation occurred on media combining the two growth regulators BAP and NAA (59% of ovaries had ovules with AE), although endosperm development was also induced on hormone-free medium (in 20.5% of ovaries). The number of AE nuclei ranged from 2 to ~50, depending on the day of culture and medium; neither cellularization nor differentiation on specific regions typical for endosperm of wild-type Arabidopsis, were noted. Fertilization independent endosperm most probably originated from the secondary nucleus, but involvement of the polar nuclei could not be excluded, as indicated by nuclear size and structure. In vitro conditions did not influence egg cell proliferation. Gynogenic embryos were observed neither in the ovules with autonomous endosperm nuclei nor in ovules without endosperm induction.     

Pseudogamous Apomixis in Maize and Sorghum in Diploid-Tetraploid Crosses

Apomictic seed development is a complex process including formation of unreduced embryo sac, parthenogenetic embryo development from the egg cell, and endosperm formation either autonomously, or due to fertilization of polar nuclei by the sperm (under pseudogamous form of apomixis). In the latter case, an obstacle to the normal endosperm development is disturbance of maternal (m) -to-paternal (p) genomic ratio 2m: 1p that occurs in the cases of pollination of unreduced embryo sac with haploid sperms. Usage of tetraploid pollinators can overcome this problem because in such crosses maternal-to-paternal genomic ratio is 4m: 2p that provides formation of kernels with plump endosperm. Using tetraploid lines as pollen parents we observed formation of plump kernels on the ears and panicles of diploid maize and sorghum accessions. These kernels had hybrid endosperm and diploid maternaltype embryo or hybrid embryo with different ploidy level (2n, 3n, 4n). The frequencies of plump kernels on the ear ranged from 0.2-0.3% to 5.7-6.2% counting from the number of ovaries. Maternal-type plants were found in two maize lines, their frequency varying from 10.7 to 37.5% of the progeny plants. In CMS-lines of sorghum pollinated with tetraploid sorghum accessions, the frequency of plump kernels ranged from 0.6 to 14.0% counting from the number of ovaries; the frequency of maternal-type plants varied from 33.0 up to 96.1%. The hybrid nature of endosperm of the kernels that gave rise to maternal-type plants has been proved by marker gene expression and by SDS-electrophoresis of endosperm proteins. These data testify to variable modes of seed formation under diploid × tetraploid crosses in maize and sorghum both by amphi- and by apomixis. Therefore, usage of tetraploid pollinators might be a promising approach for isolation of apomixis in maize and sorghum accessions.     

Induction of autonomous endosperm in Lupinus luteus,Helleborus niger and Melandrium album by in vitro culture of unpollinated ovaries

Autonomous division of the endosperm was induced by in vitro culture of unpollinated ovaries or placenta-attached ovules in Helleborus niger, Lupinus luteus and Melandrium album. The induction frequencies for the three species were 50%, 10–20% and 0.1%, respectively. The endosperms contained up to 20 free nuclei; only a few ovules with 80–420 endosperm nuclei were found. Induction of autonomous division of the endosperm, which is unusual in amphimictic plants, was observed in three new species. No embryos appeared in the ovules. This suggests a developmental independence of the endosperm from the embryo in the culture of unpollinated ovaries or ovules.     

Induction of triploid Citrus plants from endosperm calli in vitro

Summary Triploid hybrid Citrus plants were regenerated by somatic embryogenesis in vitro from endosperm derived calli. A sequence of media formulations was used to induce and support proliferation of primary callus from endosperm, to induce embryogenesis from primary callus, and to allow embryo development leading to viable plantlets. Calli were induced from cellular endosperm of Citrus sinensis (sweet orange), C. Xparadisi (grapefruit), and C. grandis (pummelo) excised 12–14 weeks post-anthesis. Induction of embryogenesis from sweet orange and pummelo primary calli required gibberellic acid and double mineral nutrient concentrations. Embryogenesis was not induced from grapefruit calli in these experiments. Only sweet orange embryos developed sufficiently to allow plant regeneration. Triploid axillary buds were minigrafted onto etiolated diploid rootstock seedlings in vitro in order to transfer triploid regenerants to soil and the external environment. Triploidy (2n = 3x = 27) was observed consistently in all phases of regeneration and in recovered plants. These results demonstrate that triploid hybrid plant recovery from Citrus endosperm can overcome barriers to sexual hybridization resulting from apomixis.Florida Agricultural Experiment Station Journal Series No. R-00627     

Seed development and vivipary in Zea mays L.

Seed development was investigated in kernels of developing wild-type and viviparous (vp-1) Zea mays L. Embryos and endosperm of wild-type kernels began to dehydrate at approx. 35 d after pollination (DAP); viviparous embryos did not desiccate but accumulated fresh weight via coleoptile growth in the caryopses. Concentrations of endogenous abscisic acid (ABA) in the embryo were relatively high early in development, being approx. 150 ng·g^-1 fresh weight at 20 DAP. The ABA content declined thereafter, falling to approx. 50 ng·g^-1 at 30 DAP. Endosperm ABA content was always low, being less than 20 ng·g^-1. There were no differences between wild-type and vp-1 tissues. Immature kernels did not germinate when removed from the ear until late in development. The ability to germinate was correlated with decreasing moisture content in the endosperm at the time of removal; premature drying of immature kernels resulted in greatly increased germination following imbibition. Excised embryos germinated precociously when removed from the endosperm as early as 25 DAP. Such germination could be prevented by treatment with 10^-5 M ABA or by lowering the solute potential (_s) of the medium with 0.3 M mannitol. Treatment of excised embryos with ABA led to internal ABA concentrations comparable to those in embryos in which germination was inhibited in situ. Mannitol treatment did not have this effect, although water-deficit stress of excised embryos resulted in substantial ABA production. Germinated vp-1 embryos were less sensitive to growth inhibition by ABA or mannitol than germinating wild-type embryos. The vp-1 seedlings were not wilty and their transpiration rates were reduced in response to ABA or water shortage.Abbreviations and symbols ABA abscisic acid - DAP days after pollination - FW fresh weight - vp-1 viviparous genotype - _s solute potential     

The development of onion (<Emphasis Type="Italic">Allium cepa</Emphasis> L.) Embryo sacs <Emphasis Type="Italic">in vitro</Emphasis> and gynogenesis induction in relation to flower size

Summary The development of embryo sacs (ES) in vitro and induction of gynogenesis were studied in onion flower bud culture. Explants were divided into three groups according to their size at inoculation: (a) small flower buds (2.3–3.0 mm in diameter); (b) medium flower buds (3.1–3.7 mm); and (c) large flower buds (3.8–4.4 mm). For histological study, excised ovaries were fixed at inoculation and then at 3-d intervals until day 12, and after 2 and 3 wk of culture. Some explants were cultured until embryo emergence, i.e., 3–5 mo. In total, 2592 ovules were examined histologically. At inoculation, 83% of ovules in small flower buds contained a megaspore mother cell; in 17% of ovules, two-nucleate ES occurred. In medium flower buds two-nucleate, four-nucleate, and mature ES were present at frequencies of 15%, 46%, and 40%, respectively. In large flower buds, only mature ES occurred. In vitro conditions did not disturb meiosis and megagametophyte development in non-degenerated ovules. Regardless of the developmental stage at inoculation, only mature ES occurred on day 12. Gynogenic embryos were found after 2 wk of culture, indicating that embryos developed in mature ES exclusively. Embryos were detected in 5.4% of histological studied ovules; however, the number of embryos after 3–5 mo. was higher (12.4%). The parthenogenetic origin of the embryos is discussed. In addition, ES containing endosperm only (6.5%) and both endosperm and embryo (0.4%) were observed.     

A novel technique for the partial isolation of maize embryo sacs and subsequent regeneration of plants

Summary Embryo sacs of maize isolated with a few layers of surrounding nucellus or completely isolated with digestive enzymes have resulted in either poorly visible or structurally damaged embryo sacs. We therefore developed a new, more successful method involving mechanical sectioning of maize ovaries using the Vibratome. Sections containing intact embryo sacs are viable and development is normal when sacs are cultured in vitro on semisolid Murashige and Skoog (MS) media. Embryo sacs produce endosperm (90%) and embryos (75%), and mature plants are obtained directly without callus formation or somatic embryogenesis. Immediate applications of this technique may include experimental fertilization and embryogenesis as well as genetic manipulation. Targeting of individual cells was demonstrated with microinjection and confocal microscopy. The methods developed in this study provide a way of studying maize embryo sac development and transformation.     

The study of the conditions for the fertilizationin vitro in maize

Suitable conditions for the fertilizationin vitro in maize have been studied. The germinating capacity of pollen in synthetic media was low; it was confirmed that it might be stimulated by supplementing agar with egg yolk. Application of pollen onto styles overhanging from the culture medium of excised ovaries was examined. After 5 days the styles could be cut off the ovaries, for the pollen tubes had already penetrated the embryo sacs. However, better results were obtained when cultivating ovaries along with segments of the maize cob. Solid media were more suitable for the development of kernels. Some of them germinatedin situ and gave rise to normal plants. From nucellar meristems of young kernels a callus could be derived which, on further cultivation, became green and regenerated shoots and roots. The cells of meristems exhibited a varying number of chromosomes.     

Defective kernel mutants of maize. I. Genetic and lethality studies

A planting of 3,919 M₁ kernels from normal ears crossed by EMS-treated pollen produced 3,461 M₁ plants and 3,172 selfed ears. These plants yielded 2,477 (72%) total heritable changes; the selfed ears yielded 2,457 (78%) recessive mutants, including 855 (27%) recessive kernel mutants and 8 (0.23%) viable dominant mutants. The ratio of recessive to dominant mutants was 201:1. The average mutation frequency for four known loci was three per 3,172 genomes analyzed. The estimated total number of loci mutated was 535 and the estimated number of kernel mutant loci mutated was 285. Among the 855 kernel mutants, 432 had a nonviable embryo, and 59 germinated but had a lethal seedling. A sample of 194 of the latter two types was tested for heritability, lethality, chromosome arm location and endosperm-embryo interaction between mutant and nonmutant tissues in special hyper-hypoploid combinations produced by manipulation of B-A translocations. The selected 194 mutants were characterized and catalogued according to endosperm phenotype and investigated to determine their effects on the morphology and development of the associated embryo. The possibility of rescuing some of the lethal mutants by covering the mutant embryo with a normal endosperm was investigated. Ninety of these 194 mutants were located on 17 of the 18 chromosome arms tested. Nineteen of the located mutants were examined to determine the effect of having a normal embryo in the same kernel with a mutant endosperm, and vice versa, as compared to the expression observed in kernels with both embryo and endosperm in a mutant condition. In the first situation, for three of the 19 mutants, the mutant endosperm was less extreme (the embryo helped); for seven cases, the mutant endosperm was more extreme (the embryo hindered); and for nine cases, there was no change. In the reverse situation, for four cases the normal endosperm helped the mutant embryo; for 14 cases there was no change and one case was inconclusive.     

Maturation of maize pollen in vitro

Summary Maturation of maize pollen was obtained in male reproductive structures cultured in vitro. Immature tassels containing microspores at the mid-uninucleate to late-binucleate stage of development were excised and spikelets, anthers, and/or isolated microspores were cultured on a medium capable of supporting pollen maturation. Microspore mitosis, culminating in the production of starch-filled, trinucleate pollen capable of germination, was observed after 7–15 days, depending on the genotype and stage at which the cultures were initiated. Up to 100%, 70%, and 20% of the cultured spikelets, anthers, and isolated microspores, respectively, produced mature pollen, which germinated, however, at different frequencies (i.e., spikelets, 50–70%; anthers, 5–10%; microspores, <1%). Mature kernels were produced following fertilization with pollen from cultured spikelets and anthers. These procedures provide methods for the in vitro manipulation of a significant phase of the maize life cycle.     

An interpretation of genomic balance in seed formation in interspecific hybrids of Solanum

Summary To investigate the mechanisms of seed failure in intraspecific and interspecific crosses of Solanum two diploid, S. commersonii and Group Phureja, and one tetraploid species, S. acaule, species were crossed and the seeds were analyzed for embryo and endosperm development. Many seeds of certain crosses observed seven days after pollinations were found to contain abnormal embryos and degenerating endosperms. In some cases seeds contained an embryo with no endosperm, or an endosperm with no embryo. Other interspecific crosses which were predicted to fail actually produced seeds with normally developed embryos and endosperms. To further characterize the intra- and interspecific embryos and endosperms the nuclear DNA was measured. There are several ways to explain the ploidy levels of embryos and endosperms among the crosses, the occurrence of unreduced gametes in some cases and genomic instability in other cases. The latter resulted in chromosome loss at meiotic and mitotic divisions. Genomic balance in interspecific seeds is critical to both embryo and endosperm development.Scientific Journal Series Article No. 14636 of the Minnesota Experiment Station     

In vitro culture and precocious germination ofTaxus embryos

Summary The lengthy dormancy requirement of yew seeds can be overcome with a simple in vitro method. Viable embryos were excised from seeds ofTaxus brevifolia and four cultivars ofT. media over a range of developmental stages. Embryos were cultured in several basal media formulations (Whites’, Gamborg’s B5 and Murashige and Skoog’s) under dark or light. After a lag period of 1 to 2 wk, embryos of both species germinated precociously. Germination rates of up to 70% were obtained withT. media cv. Hicksi embryos. The highest rates of germination were obtained in White’s and MS media. Embryos excised from green seeds with undeveloped arils showed the highest germination rates. As the seeds approached maturity, in vitro germination rates of the excised embryos declined dramatically. Green seeds and seeds with developing arils could be stored at 5° C without large loss in embryo germination. Seeds with fully developed arils could be stored frozen at −20° C for 1 wk while still allowing about 50% of embryo germination. At least 30% of the precociously germinated embryos of both species were able to develop into full seedlings. Our method appears to be generally applicable toTaxus spp. This research was supported by a grant from the Hawaii Biotechnology Group, Inc.     

Enhanced seed development in the interspecific cross Allium cepa x A. sphaerocephalon through ovary culture

Allium sphaerocephalon pollen tubes grew into styles and penetrated micropyles of Allium cepa, but ovules started to degenerate about 16 days after pollination and no seeds developed. Seeds developed in vitro in ovaries excised from flowers 4 and 7 days after pollination. Seven weeks after culture initiation, seeds had grown in 4 of 96 excised ovaries, cultured on BDS medium supplemented with GA₃. Although the culture medium supported seed maturation within excised ovaries of self-pollinated A. cepa flowers, no viable hybrid seeds were recovered from crosses with A. sphaerocephalon. Extended post-fertilization barriers may have restrained development of hybrid embryos in vitro. Ovary culture followed by in ovulo embryo rescue may be feasible for distant-species hybridization in Allium.     

The effect of the embryo axis and exogenous sucrose on lipolysis and glyoxysomal enzyme development in Ricinus communis (castor bean) endosperm and cotyledons

Post-germinative growth in castor bean ( Ricinus communis L. cv. Hale) seedlings was investigated to determine whether lipolytic enzyme synthesis and lipid breakdown was a function of the embryo axis or simply based on a source-sink mechanism connected with sucrose produced during mobilization of storage lipid. Endosperm and cotyledons were excised from the embryo axis at 24 h intervals and were then incubated in Petri dishes containing water or 0.1 M sucrose for 24 h. Excised endosperm showed similar or higher malate synthase (MS, EC 4.1.3.2) and isocitrate lyase (ICL, EC 4.1.3.1) activities and increased lipolysis when compared with endosperm obtained from similarly intact seedlings of the same age. In contrast, cotyledonary ICL and MS activity was up to 50% lower and lipolysis was only slightly affected in excised material when compared with cotyledons obtained from intact seedlings. Incubating endosperm in sucrose had no effect on the development of the above enzyme activities or lipid content, when compared with material incubated in water only. In contrast, cotyledonary MS and ICL activities were up to 70% lower in sucrose and lipolysis substantially inhibited. Lipid breakdown and the development of lipolytic enzyme activity in cotyledons seem to be dependent on the presence of the endosperm. It is concluded that enzyme regulation in castor bean seedlings cannot entirely be explained by axis control or source-sink relationships.     

Endosperm responses to irradiated pollen in apples

Summary The cytological effects of pollen -irradiation at 50 and 100 krad on both embryo and endosperm development were studied in Malus × domestica. Fruit and seed set were reduced by increasing doses of pollen irradiation, while embryo sacs resulting from the treatments differed in number and morphology of endosperm nuclei and in the presence or absence of an embryo. Nuclear abnormalities, distinguished from normal nuclear behaviour in embryo sacs derived from unirradiated pollen, included enhanced numbers of polyploid restitution nuclei, bridges between nuclei, excluded metaphase chromosome fragments and disrupted mitotic synchrony. Generally, a high dose of pollen irradiation (100 krad) generated an all-or-nothing response in the embryo sac, either creating highly abnormal embryos and/or endosperms which aborted, or showing relatively normal development. Callus produced from excised cellular endosperm differed in average genome size, that derived from 100 krad pollen being smaller than that from unirradiated pollen.     

Production of seedlings from ovules excised at the zygote stage in Lilium spp.

The present study was undertaken to establish a culture system for ovules excised at the zygote stage in Lilium spp. Ovules of Lilium × `Connecticut King' and L. × `Enchantment' were excised together with placental tissue 3, 5, and 10 days after pollination (DAP) and cultured on B5 medium and half-strength B5 medium containing sucrose at different concentrations. In vitro embryo development in ovules cultured at 3 DAP was influenced by the basal media and the sucrose concentration. The half-strength B5 medium with 9% sucrose was the best condition, but only a few ovules isolated from placental tissue developed into seedlings. Application of embryo culture, in which embryos were excised from ovules after 14 weeks of ovule-with-plancetal-tissue culture, greatly improved the production of seedlings. The present study indicates that a two-step culture procedure, ovule-with-placental-tissue culture and embryo culture, make it possible to produce seedlings from ovules just after fertilization.     

Embryological study on gynogenesis in onion (Allium cepa L.)

Haploid induction in onion can, to date, be induced only via gynogenesis by culturing unfertilized flowers, ovaries or ovules. The process of haploid embryo induction has been macroscopically well studied, but only limited data exist from microscopic examination of ovule development status at the inoculation stage and of the origin of gynogenic embryos. Microscopic studies were carried out using individual donor plants with relatively high embryo induction frequencies (45.9 embryos formed per 100 flowers, on average, for 2 years). Ovaries from flower bud culture were fixed at 1 week intervals up to the 7th week of culture. These were compared with pollinated ovaries at 1 or 2 weeks after pollination. In total, 1428 unfertilized embryo sacs were examined. The results indicate that, at the time of inoculation, ovules within ovaries 2.0–3.0 mm in diameter contained two- or four-nucleate embryo sacs in the smallest ovaries to mature embryo sacs in the largest ovaries. It seems likely that the embryos are actually induced from ovaries cultured at the immature stage. After 1 or 2 weeks in culture, the egg apparatus primarily consisted of distinctly enlarged synergids and the egg cell, which was often detached from the micropylar pole. But free nuclear endosperm was also formed. From the 2nd to 7th week in culture, formation of haploid embryos (from globular to the almost mature cylindrical stage) was detected in 5.7% of the ovules. Their origin, for several reasons, was most likely the egg cell. In addition, ovules containing endosperm only (3.6%) and ovules containing the egg apparatus (0.5%) or both endosperm and embryo (0.4%) were detected. This observation is probably unique and has not yet been reported in other species studied. Received: February 2001 / Revision accepted: 20 April 2001     

rgf1, a mutation reducing grain filling in maize through effects on basal endosperm and pedicel development

The maize cob presents an excellent opportunity to screen visually for mutations affecting assimilate partitioning in the developing kernel. We have identified a defective kernel mutant termed rgf1, reduced grain filling, with a final grain weight 30% of the wild type. In contrast with most defective endosperm mutants, rgf1 shows gene dosage-dependent expression in the endosperm. rgf1 kernels possess a small endosperm incompletely filling the papery pericarp, but embryo development is unaffected and the seeds are viable. The mutation conditions defective pedicel development and greatly reduces expression of endosperm transfer layer-specific markers. rgf1 exhibits striking morphological similarities to the mn1 mutant, but maps to a locus approximately 4 cM away from mn1 on chromosome 2 of maize. Despite reduced starch accumulation in the mutant, no obvious lesion in starch biosynthesis has been detected. Free sugar levels are unaltered in rgf1 endosperm. Rates of sugar uptake, measured over short (8 h) periods in cultured kernels, are increased in rgf1 compared to the wild type. rgf1 and wild-type kernels, excised at 5 DAP and cultured in vitro also develop differently in response to variations in sugar regime: glucose concentrations above 1% arrest placentochalazal development of rgf1 kernels, but have no effect on cultured wild-type kernels. These findings suggest that either uptake or perception of sugar(s) in endosperm cells at 5-10 DAP determines the rgf1 kernel phenotype.