In vitro attempts to overcome the cross-incompatibility between Vaccinium corymbosum L. and V. elliottii Chapm.

Summary Seed was readily obtained from V. corymbosum zygotes using embryo rescue techniques, even when embryos were cultured at proembryonic stages. Best in vitro seed development was obtained when ovules were cultured attached to placental tissues. Successful fruit and seed development in culture occurred only when the fruit was cut longitudinally or when the basal portion of the fruit was removed previous to plating. Addition of various vitamins, amino acids, and growth regulators to the nutrient medium did not increase seed production. Attempts to rescue hybrid embryos from V. croymbosum (tetraploid) x V. elliottii (diploid) crosses by in ovulo and in ovary culture gave a few presumably hybrid seed, but at a rate no greater than when normal crossing procedures are used.Florida Agricultural Experiment Station Journal Series No. 5748     

In vitro embryo culture of Scirpus acutus Muhl.

An in vitro embryo culture protocol was developed for Scirpus acutus Muhl. A maximum of 85.6% of germination was obtained when isolated embryos were cultured in vitro, a result similar to those reported in the literature with traditional dormancy breaking treatments. In vitro seedling development was optimal in half-strength Murashige and Skoog (1962) liquid medium. An average of 3–4 shoots were produced from the initial seedlings. Clusters of plantlets were successfully acclimatized and transferred to soil. These results corroborate the findings of previous studies stating that seed dormancy in Scirpus is caused by the seed/fruit coats. In vitro embryo culture thus allows for the production of Scirpus acutus Muhl. seedlings that can be transferred to natural or artificial wetlands.     

DEVELOPMENTAL PATTERNS IN PINE POLYEMBRYONY

Berlyn , Graeme P. (Yale U., New Haven, Conn.) Developmental patterns in pine polyembryony. Amer. Jour. Bot. 49(4): 327–333. Illus. 1962.—An investigation of multiple-embryo development in pine was undertaken. The occurrence of 4 embryos per mature seed was found in approximately one third of the seeds of Pinus lambertiana and Pinus cembra examined and in a few seeds of Pinus strobus. These embryos were derivatives of the 4 embryo-initial cells of the apical tier of the proembryo. There was a progressive reduction in size and development of embryos in a given seed, the embryo furthest from the micropyle being the largest and most differentiated. However, in many cases, histogenesis proceed even when embryo size was significantly arrested. All 4 embryos in some seeds were viable in vitro, but rarely did more than one embryo germinate in vivo. This may be associated with the more rapid reactivation of the largest embryo. Variation in the extent of multiple-embryo development reflects the apparently indeterminate pattern of competition within an embryo system.     

Frequenza di cellule con « DNA puffs » nel sospensore di Phaseolus coccineus in momenti diversi dello sviluppo embrionale

Abstract

Morphological aspects of Phaseolus coccineus suspensor cells at different periods of embryo development. — Embryo suspensor cells of Phaseolus coccineus have been analysed at different periods of seed and embryo development in field-grown plants and the frequency of cells involved in « DNA puffs » formation has been determined. The collected data show that: a) the relation between seed development and embryo development is not constant at different times in the season (from July to November); b) the frequency of cells showing « DNA puffs » is influenced by the above ratio. This fact seems to indicate that embryos of comparable developmental stages (as estimated by cotyledon length) show different metabolic patterns in relation to seed development and enviromental factors.     

Dehydrin genes and their expression in recalcitrant oak (<Emphasis Type="Italic">Quercus robur</Emphasis>) embryos

In this work, three dehydrin genes, QrDhn1, QrDhn2, QrDhn3, were isolated from recalcitrant oak (Quercus robur). Their expression pattern was analyzed in both zygotic and somatic embryos as well as in vegetative tissues exposed to different kinds of abiotic stresses including desiccation, osmotic stress, and chilling. The QrDhn1 gene encoding for Y_nSK_n type dehydrin was expressed during later stages of zygotic embryo development but in somatic embryos only when exposed to osmotic or desiccation stress. In contrast, the other two oak dehydrin genes encoding for putative K_n type dehydrins were expressed only in somatic embryos (both not-treated and osmotically stressed) and leaves of oak seedlings exposed to desiccation. Behavior of these genes suggests that different dehydrins are involved in processes of seed maturation and response to altered osmotic (water status) conditions in somatic embryos. Revealing further members of dehydrin gene family in recalcitrant oak might contribute to clarify non-orthodox seed behavior as well as identify mechanisms contributing to desiccation tolerance in plants.     

Maternal control of embryogenesis by MPK6 and its upstream MKK4/MKK5 in Arabidopsis

In flowering plants, developing embryos reside in maternal sporophytes. It is known that maternal generation influences the development of next‐generation embryos; however, little is known about the signaling components in the process. Previously, we demonstrated that Arabidopsis mitogen‐activated protein kinase 6 (MPK6) and MPK3 play critical roles in plant reproduction. In addition, we noticed that a large fraction of seeds from mpk6 single‐mutant plants showed a wrinkled seed coat or a burst‐out embryo phenotype. Here, we report that these seed phenotypes can be traced back to defective embryogenesis. The defective embryos have shorter suspensors and reduced growth along the longitudinal axis. Furthermore, the cotyledons fail to bend over to progress to the bent‐cotyledon stage. As a result of the uneven circumference along the axis, the seed coat wrinkles to develop raisin‐like morphology after dehydration. In more severe cases, the embryo can be pushed out from the micropylar end, resulting in the burst‐out embryo seed phenotype. Genetic analyses demonstrated that the defective embryogenesis of the mpk6 mutant is a maternal effect. Heterozygous or homozygous mpk6 embryos have defects only in mpk6 homozygous maternal plants, but not in wild‐type or heterozygous maternal plants. The loss of function of MKK4/MKK5 also results in the same phenotypes, suggesting that MKK4/MKK5 might act upstream of MPK6 in this pathway. The maternal‐mediated embryo defects are associated with changes in auxin activity maxima and PIN localization. In summary, this research demonstrates that the Arabidopsis MKK4/MKK5–MPK6 cascade is an important player in the maternal control of embryogenesis.     

Comparative morphology and physiology of fruit and seed development in the two shrubs Rhus aromatica and R. glabra (Anacardiaceae)

Morphology and physiology of fruit and seed development were compared in Rhus aromatica and R. glabra (Anacardiaceae), both of which produce drupes with water-impermeable endocarps. Phenology of flowering/fruiting of the two species at the study site was separated by ∼2 mo. However, they were similar in the timetable and pattern of fruit and seed development; it took ∼2 mo and ∼1.5 mo for flowers of Rhus aromatica and R. glabra, respectively, to develop into mature drupes. The single sigmoidal growth curve for increase in fruit size and in dry mass of these two species differs from the double-sigmoidal one described for typical commercial drupes such as peach and plum. Order of attainment of maximum size was fruit and endocarp (same time), seed coat, and embryo. By the time fruits turned red, the embryo had reached full size and become germinable; moisture content of seed plus endocarp had decreased to ∼40%. The endocarp was the last fruit component to reach physiological maturity, which coincided with development of its impermeability and a seed plus endocarp moisture content of <10%. At this time, ∼50, 37, and 13% of the dry mass of the drupe was allocated to the exocarp plus mesocarp unit, endocarp, and seed, respectively. The time course of fruit and seed development in these two species is much faster than that reported for other Anacardiaceae, including Rhus lancea, Protorhus, and Pistacia.     

Anthropogenic edges,isolation and the flowering time and fruit set of Anadenanthera peregrina,a cerrado savanna tree

Fragmentation exposes plants to extreme environmental conditions with implications for species phenology and reproduction. We investigated whether isolation and edge effects influence size, flowering time, fruit set, and seedling establishment of Anadenanthera peregrina var. falcata. We compared trees in the interior (n?=?85), and on the edge (n?=?74) of a cerrado savanna fragment as well as in a pasture (n?=?26) with respect to size, flowering phenology, flower and fruit production, fruit and seed set, predispersal seed predation, and seedling establishment. Trees in the pasture were larger and produced a higher number of flowers and fruits than trees on the edge and interior, yet seed set did not differ across environments. The plant size structure explained the flower and fruit production, and the self-compatibility breeding system caused a similar seed set regardless of the environment. First flowering was later and fruit set higher in the interior. We argue that time of first flower influenced the fruit set of Anadenathera. Edge and isolated trees started to flower earlier as a response to microclimatic conditions—mainly temperature—reducing the fruit set. Predispersal seed predation was lower among pasture trees. Conversely, we found seedlings only on the edge and in the interior of cerrado, suggesting that the pasture was of poor quality habitat for Anadenanthera recruitment. Isolation affected the plant size structure and reproduction of Anadenanthera trees. Studies comparing plant phenology under contrasting environmental conditions may offer clues on how global change may affect plant reproduction in the tropics.     

Imbibition of white spruce seeds and somatic embryos: A study of morphological changes in an environmental scanning electron microscope and potassium leakage

Summary Potassium leakage and morphological changes during imbibition of white spruce [Picea glauca (Moench) Voss] seeds and somatic embryos were investigated. A single desiccated somatic embryo, a single somatic embryo exposed to a high relative humidity environment for 2 d, and a single dry zygotic embryo leaked similar amounts of potassium over a 120-min period of imbibition in liquid germination medium. A seed without a seed coat leaked two and eight times more potassium than a single whole seed and a single zygotic embryo, respectively. Nearly 50% of the potassium leaked for all tissues was leaked within the first 20 min of imbibition. Exposure of somatic embryos to an environment with high relative humidity resulted in a reduction in the percentage of potassium leaked after 80 and min to levels equivalent to those for zygotic embryos. Using an environmental scanning electron microscope, we found that desiccated somatic embryos and dry zygotic embryos had wrinkled surface cells, with cells in the surface of zygotic embryos being more shrunken in appearance. Imbibition of both types of embryos in water resulted in turgid surface cells after 2 h. Imbibition in liquid germination medium did not cause much hydration of surface cells, which still had wrinkled appearances after 2 h. Finally, imbibition on filter paper on semisolidified germination medium resulted in slower hydration of somatic and zygotic embryos. Cells near the medium appeared hydrated while cotyledon surface cells furthest from the medium resembled cells in desiccated embryos.     

Effect of gibberellic acid treatment,and nutrient supply through detached tillers,upon haploid frequency in barley

Summary Haploids from Hordeum vulgare (2n = 14) X H. Bulbosum (2n = 14) crosses result after fertilization from the subsequent elimination of bulbosum chromosomes during early embryo development. Seed set from the cross is high but embryo culture is necessary to obtain seedlings. Application of gibberellin A₃ (GA₃) to pollinated florets was effective for increasing the frequency of haploid seedlings produced on both nutrient-fed detached tillers and intact plants. GA₃ increased both seed set and embryo yield. The number of cells per embryo during its transition to the haploid state was increased two to three times following GA₃ treatments. Enhanced embryo and endosperm development was attributed to increased mitotic activity. The number of visibly differentiated embryos was doubled to about 35 % of the cultured embryos after GA₃ was applied to detached tillers in nutrient solution. About 70 % of the resulting haploid plants developed from the visibly differentiated embryos. The detached tiller technique offers a convenient method of culturing haploids from field-grown plants.     

Rapporti Fra Endosperma ed Embrione Nella Germinazione di Pinus Pinea L.: Nota i: Effetti del Grado di Maturità del Seme

Abstract

Endosperm embryo interrelationships during germination of PINUS PINEA L. 1rst note. — Seeds and excised embryos have been cultured in vitro in the dark. Experiments with ripe seeds and embryos have been paralleled with exper. with unripe ones (6 months before natural seed dispersal). The results are as follows:

Both ripe and unripe seeds germinate in the dark into green seedlings.

In both types of seedlings the rootlet is the only part which rapidly increases in length, actually growing, but the growth speed of the root is greater in ripe seeds than in the unripe ones.

Both ripe and unripe excised embryos grow slowly, with greenles cotyledons and dwarf roots, showing a very slight geotropic curve.

The root stops growing more sharply in ripe embryos than in unripe ones.

The hypothesis is raised that the rootlet reaches its full growing power, under the endosperm control, and that this control encreases more and more, as the seed approaches its full maturity.     

SEXUAL AND APOMICTIC REPRODUCTION IN CALAMAGROSTIS (GRAMINEAE) FROM EASTERN NORTH AMERICA

Reproductive mode and chromosome numbers were determined for populations of several species of Calamagrostis from eastern North America. Calamagrostis pickeringii (2n = 28), C. perplexa (2n = 70), C. porteri subsp. porteri (2n = ca. 88–100) and C. porteri subsp. insperata (2n = 56) all have a sexual pattern of megagametophyte formation; the basal megaspore of a tetrad develops into a Polygonum-type embryo sac with proliferating antipodal cells characteristic of the Gramineae. In these four taxa self-incompatability, population structure and infrequent flowering limit seed production; they persist primarily by rhizomes and occupy relatively stable, late-successional habitats. Calamagrostis stricta subsp. inexpansa includes apomictic variants (2n = ca. 104–123)that produce megagametophytes by diplospory; the single archesporial cell divides mitotically to produce an embryo sac appearing identical to those formed by sexual species. The embryo and endosperm develop autonomously from egg cell and polar nuclei, respectively. Some apomictic individuals occasionally produce some pollen and may have the potential for reproducing sexually. Their seed set insured by apomixis, variants of subsp. inexpansa colonize disturbed, open habitats and have achieved wide distributions in glaciated regions of North America. Reinterpretation of relationships among taxa I examined necessitates the following new nomenclatural combinations; C. porteri subsp. insperata (Swallen) comb. nov. is based on C. insperata Swallen; C. stricta subsp. inexpansa (A. Gray) comb. nov. is based on C. inexpansa A. Gray and includes C. lacustris (Kearney) Nash and C. fernaldii Louis-Marie.     

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     

EMBRYO GROWTH AND SEED SIZE IN RAPHANUS SATIVUS: MATERNAL AND PATERNAL EFFECTS IN VIVO AND IN VITRO

Theories on the evolution of the angiosperm seed disagree as to the effects of different plant tissues on embryo growth. To examine the relative contributions of maternal and paternal genes on embryo growth, we conducted controlled crosses in the greenhouse with wild radish plants (Raphanus sativus), looked for maternal, paternal, and interaction effects on embryo development, and compared the performance of embryos within fruits and in embryo culture. Maternal plant identity affected fruit set, seeds per fruit, embryo developmental stage, and mean seed weight. In embryo culture, maternal effects were found for cotyledon size and embryo weight. Paternal effects were fewer or smaller in magnitude than maternal effects. The identity of the pollen donor affected embryo developmental stage and mean seed weight. In culture, paternal effects were detected for cotyledon size and embryo weight. Our results demonstrate that both maternal and paternal elements affect embryo growth. The fact that maternal effects are greater than paternal effects on embryo development in culture may result from cytoplasmic elements or maternal nuclear genes. Embryo performance in vivo compared to that in vitro varied among maternal plants. The interaction between an embryo and its endosperm and maternal tissues may be either positive or negative, depending upon the maternal plant and the embryo's developmental stage.     

Content and De Novo Synthesis of Cocaine in Embryos and Endosperms from Fruit of Erythroxylum coca Lam

There is controversy as to whether the mature fruit of Erythroxylumcoca var. coca Lam. contains the cocaine alkaloid (benzoylmethylecgonine).In the present study, cocaine was monitored to determine ifit was present in embryos and endosperms of mature fruit ofE. coca var. coca Lam., and if present, the time required forde novo synthesis in imbibing seed. Seeds from mature fruitof E. coca were dissected to separate the embryos from the endosperms.The separated embryos and endosperms were analysed for cocaine.Subsequently, endosperms and embryos from seed imbibed. undera light and dark treatment were separated on days 3, 6, 9, 12and 15 and analysed for cocaine. Cocaine was present in embryos(0.005% of d. wt) and endosperms (0–001% of d. wt) ofmature fruit of E. coca. De novo synthesis of cocaine occurredonly in embryos of seed imbibed under light after day 9 of imbibition. Erythroxylum coca, alkaloid, benzoylmethylecgonine, cocaine, embryo, endosperm, seed imbibition     

Selective embryo abortion in a perennial tree-legume: a case for maternal advantage of reduced seed number per fruit

In this study, I analyzed time-course of embryo abortion, positional bias in seed maturation and maternal costs of seed packaging in Cercis canadensis. While basal embryos experience similar rates of abortion as those in other positions during the first week of development, abortion rates peak during the second week. Head start in resource sequestration by stigmatic embryos may explain high rates of basal embryo abortion. Similar seed packaging costs and seed mass for single and multi-seeded pods suggests that maternal parent regulates pod size in accordance with seed numbers per pod investing equally in the surviving offspring. Competition during early developmental period results in the abortion of less competitive embryos allowing for optimal resource investment.     

Effect of chilling and gibberellic acid on growth potential of excised embryos of Ruellia humilis

Summary Dormancy in intact seeds of Ruellia humilis is broken by chilling or by treatment with gibberellic acid (GA₃). Embryos are nondormant and will grow when the seed coat is removed completely. Embryos from chilled or GA₃-treated seeds have more growth potential than embryos from nontreated seeds. Dormancy is ascribed to the mechanical restriction of the embryo by the seed coat. Chilling and treatment with GA₃ break dormancy by increasing the expansive force of the embryo; thus, chilled or GA₃-treated embryos exert enough expansive force to break through the seed coat, whereas nontreated embryos do not.This work was supported by an NIH Biomedical Sciences Support Grant to the University of Kentucky.     

APOMIXIS AND POLYEMBRYONY IN HIEROCHLOË ODORATA

Norstog , Knut . (Wittenberg U., Springfield, Ohio.) Apomixis and polyembryony in Hierochloe odorata. Amer. Jour. Bot. 50(8): 815–821. Illus. 1963.—Hierochloë odorata from Michigan, having 2n = 56 chromosomes, was found to reproduce by pseudogamous fertilization of diploid aposporous embryo sacs. Diploid embryos, 2n= 56, and 5n = 140 ± endosperm occurred together. Megasporogenesis was incomplete, and aposporous embryo sac initials developed directly into 8-nucleate Polygonum type embryo sacs. Microsporogenesis was irregular with univalent, bivalent and multivalent chromosomes in meiosis-I. Dyads and microspores varied between n = 24 and n = 32, and less than 50% of the pollen grains stained with acetocarmine. Two other races of H. odorata are known to occur in North America. They are an apparently infertile type in Canada with 2n = 28, and a perfectly fertile race from coastal Connecticut also with 2n = 28. It is suggested that the H. odorata with 2n = 56 is a derivative of the sterile Canadian race.     

Embryo origin and development in Crocus sativus L. (Iridaceae)

Abstract

Fruit and seed set were obtained in the triploid Crocus sativus (saffron) either by hand crossing with pollen of the diploid C. cartwrightianus or by free pollination. The morphology of the capsules and seeds was similar in both Crocus species. The embryo is comparatively small, whereas the endosperm is formed of numerous layers of cells with hemicellulose-thickened walls and a cytoplasm containing few lipid and protein reserves. Seed germination gave rise to a white prophyll from which a green leaf emerged. At the base of this leaf, a small corm without tunics developed, which, after leaf desiccation, became dormant. These corms sown separately in pots were again capable of growth and emitted a single long green leaf. Vegetative development of new corms was similar in the diploid and hybrid saffron plants. In sites of past saffron cultivation the beds were found to contain degenerated corms and corms at different development stages. The absence of fruit and seed set in emasculated and self- and out-pollinated plants suggests that saffron does not form apomictic embryos.     

single cotyledon (sic) mutants of pea and their significance in understanding plant embryo development

Angiosperms are divided into two distinct classes—the dicotyledons (dicots) and monocotyledons (monocots)—based in part on the number of cotyledons in mature embryos. In this paper, we describe single‐cotyledon pea mutants, termed sic (single cotyledon), all of which show a degree of fusion between the cotyledons. The fusion in sic1 is along the margin of one cotyledon and is less complete than in sic2 embryos, but the effects of the mutations are additive in the double mutant. Occasionally sic2 mutants will show fusion of the two cotyledons into one cylindrical embryo in which the shoot apex becomes surrounded by the cotyledons. Both sic1 and sic2 mutants produce fertile plants. In the sic3 embryo, a single cotyledon is generated under the shoot apex that breaks the vascular connection between root and shoot, causing embryo lethality. The pattern of cotyledon development in all these mutants is identified by in situ mRNA hybridization and antibody labeling, using the storage protein vicilin as a cotyledon‐specific marker. These patterns indicate that the joining of the cotyledons was due to zonal growth. The results indicate that there are genes in pea that influence the positioning and the morphology of the cotyledon. A model for cotyledon development in pea is proposed that is based on the regulation of the positioning of cell clusters by the sic genes. Dev. Genet. 25:11–22, 1999. © 1999 Wiley‐Liss, Inc.