Partitioning of 14C-photoassimllates within seeds of Phaseolus coccineus (Lam.) and Phaseolus coccineus x Phaseolus vulgaris L.

The objective of this study was to determine partitioning within seeds of ¹⁴C-photoassimilates at three stages of seed development in two Phaseolus crosses — P. coccineus Lam. selfed, and P. coccineus x P. vulgaris L. Abortion of the interspecific embryos occurred when the seed reached 10 mm seed length. When expressed as sink strength (% dpm) or sink activity (% dmp/d.wt.) there were no differences in partitioning of ¹⁴C-photoassimilates when whole seeds were analyzed. If the seed was divided into seed coat, liquid endosperm, and embryo, the sink activity of the interspecific embryo was higher than that of the embryo in the selfed seed. Therefore, abortion of these interspecific Phaselus embryos appeared not to be caused by a lack of photoassimilates.Assistant Professor, Professors, respectively.Contribution from the Agr. Expt. Station, University of Minnesota, St. Paul, MN 55108. Paper No. 13,548, Scientific Journal Series. This research was supported in part by the Science and Education Administration of the United States Department of Agriculture under Grant 59-2271-9-2-020-0 and in part by a grant from the Minnesota Soybean Research and Promotion Council.     

Isolation of cell lines from embryos of the cockroach,Blattella germanica

Summary Cell lines were isolated from three stages of embryos ofBlattella germanica dissociated with trypsin. The lines have been subcultured 50 to 134 times in 3 years. Line UM-BGE-1 was isolated from germ band embryos at stages of segmentation and limb-bud formation (5 days old). Line UM-BGE-2 was derived from embryos at dorsal closure (7 days old). Line UM-BGE-4 arose from embryos in the germ band and dorsal closure stages (5 and 7 days old); these cells colonize as hollow spheres or vesicles. Line UM-BGE-5, isolated during organogenesis (10 days old), developed into two distinct sublines. Subline α is composed of round cells that do not attach to the flask. Subline β grows as an attached monolayer; the cells can be removed with a saline solution containing 20mM disodium dihydrogen Versenate^?. Most of the cells of these lines have the diploid chromosome number (23 or 24) excepting line UM-BGE-1 in which the tetraploid number predominates. Presented in part at the 26th Annual Meeting of the Tissue Culture Association, at Montreal, Canada, 2–5 June 1975. This investigation was supported by U.S. Public Health Service Research Grant No. AI 09914 from the National Institute of Allergy and Infectious Diseases. This is Paper No. 9416, Scientific Journal Series, Minnesota Agricultural Experiment Station.     

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     

Production of vigorous,desiccation tolerant white spruce (Picea glauca [Moench.] Voss.) synthetic seeds in a bioreactor

Summary This report describes a low-cost method for generating large numbers of high quality mature white spruce (Picea glauca [Moench.] Voss) somatic embryos which survived desiccation and grew to plantlets more vigorously than excised zygotic embryos cultured in vitro. Somatic embryos from suspension culture were supported within a culture chamber on a flat absorbent pad above the surface of a liquid culture medium containing 20–50 M abscisic acid and 7.5 % polyethylene glycol. Throughout a 7 week culture period 3 L of fresh medium was pumped into one end of the chamber, while the spent medium exited by gravity from the opposite end. Over 6,300 cotyledonary stage white spruce somatic embryos were recovered after this time from a single culture chamber without manual manipulation. The somatic embryos were of excellent appearance with well developed cotyledons, and possessed high levels of storage lipids. They survived drying to about 8 % moisture content following treatment for 4 weeks at 63 % relative humidity, and following imbibition converted to normal plantlets at a frequency of 92 %, compared to 80 % for embryos grown in Petri dishes. Somatic embryos cultured within the bioreactor developed to plantlets that were 20 % longer than zygotic embryos excised from mature seed and grown in vitro, and were 38 % longer than somatic embryos cultured upon agar medium in Petri dishes.Plant Research Centre contribution No. 1523     

The endosperm seed protein Solin: biochemical characterization,induction by ABA and species-specific subunits

Summary Comparison of endosperm storage protein sub units from single seeds of 19 Solanum species was done by isoelectric focusing. Species-specific profiles of the subunits were evident and species relationships within a taxonomic series could be delineated. The identification of both intraspecific and interspecific hybrid seed may be possible from Solin IEF subunit profiles. The glutelin nature of the protein was unusual for a dicotyledon genus. We named this major endosperm protein complex Solin. Solin was found in developing seeds with embryos at the heart stage, 16 to 18 days after pollination. Seeds excised at the globular stage responded to the addition of ABA and synthesized Solin. This is the first report of the induction of seed protein in endosperm cells of Solanum.Scientific journal series article No. 14703 of the Minnesota Experiment Station     

Effects of freezing of bovine preimplantation embryos derived from oocytes fertilized in vitro on survival of their inner cell mass cells

The morphology of the inner cell mass (ICM) cells and the proportion of dead ICM cells in frozen-thawed bovine preimplantation embryos were investigated by differential fluorochrome staining. Embryos at the blastocyst stage of development were frozen and thawed by two different techniques (three-step and one-step) in two different basic salt solutions (PBS and TCM 199) containing 1.36M glycerol. After thawing and glycerol removal, embryos were co-cultured in a cumulus cells monolayer in TCM 199 for 48 hr (morula) or 24 hr (blastocysts). Differential cell counts of the ICM and trophectoderm were then done using differential fluorochrome staining. Overall, there was no significant difference in the viability of embryos frozen in the two basic salt solutions. Low proportions of dead ICM cells were observed in embryos frozen at the morula stage in both PBS (19.1%) or TCM 199 (18.0%). However, blastocyst stage embryos frozen by the three-step technique had a higher (P < 0.05) proportion of dead ICM cells in TCM 199 (37.7%) than in PBS (18.2%). Blastocysts frozen by the one-step technique had a higher (P < 0.05) proportion of dead ICM cells (42.2%) than those frozen by the three-step technique (18.2%), regardless of basic salt solutions. Results indicate that freezing and thawing damages ICM cells in morphologically normal embryos and that the degree of damage depended on the basic salt solution and the freezing method. © 1994 Wiley-Liss, Inc.     

Germination of encapsulated embryos of interior spruce (Picea glauca engelmannii complex) and black spruce (Picea mariana Mill.)

Interior spruce (Picea glauca engelmannii complex) and black spruce (Picea mariana Mill.) cotyledonary somatic embryos were encapsulated in sodium alginate. Somatic embryo viability was retained, but germination occurred at a reduced frequency compared with the equivalent zygotic embryos. The addition of 0.5% (w/v) activated charcoal to the alginate capsule significantly enhanced root development and germination for somatic embryos but not for zygotic embryos. The possibility of developing an artiflcal endosperm was also investigated, by addition of Litvay (Litvay et al. 1981) nutrients with or without 90 mM sucrose to the alginate-charcoal capsule. This treatment significantly enhanced root development for all embryo categories with the exception of black spruce somatic embryos. Encapsulated and non-encapsulated somatic embryos survived one month cold storage at 4 °C without reduction in germination frequency.NRCC No. 35895     

Effect of 2,4-dichlorophenoxyacetic acid concentration on somatic embryogenesis and heritable variation in soybean [Glycine max (L) merr.]

Summary The frequency and quality of embryogenic response from cotyledons of immature zygotic soybean embryos varied with 2,4-dichlorophenoxyacetic acid (2,4-D) concentration in the culture medium. The frequency of variants among progeny of regenerated plants decreased with an increase of 2,4-D concentration. Teratogenic effects on embryo morphology and development were greatest at 22.5μM 2,4-D and decreased with increasing 2,4-D. At the lowest 2,4-D concentration tested, 22.5μM, morphologically abnormal, cotyledonary-stage somatic embryos were produced. Ten percent or less of these embryos converted to plants. Over the nine genotypes tested, 40% of the families derived from plants regenerated under a low 2,4-D concentration manifested heritable variation. In contrast, embryogeny was suppressed at the globular stage by the highest 2,4-D concentration tested, 200μM. Eighty to one-hundred percent of the embryos organized under this latter 2,4-D level converted to plants. Only 3% of the families from the progeny of plants regenerated under a high 2,4-D concentration exhibited heritable variation. This is Journal Paper No. J-14217 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa. Project No. 2974. The mention of a trademark or proprietary product does not constitute a guarantee or warranty of the product by the United States Department of Agriculture or Iowa State University and does not imply its approval to the exclusion of other products that may be suitable. This work was supported, in part, by American Soybean Association grant no. 400-46-73-15-2763.     

Maturation and conversion ofLiriodendron tulipifera somatic embryos

Summary Embryogenic suspension cultures of the hardwood forest tree yellow-poplar (Liriodendron tulipifera) have the potential to produce millions of plantlets. However, low conversion frequencies limit the realization of this potential. Using 4 embryogenic yellow-poplar lines, we first tested the ability of somatic embryos, selected for their similarity to mature zygotic embryos, to convert to plantlets, then tested physical and chemical treatments for their effects on promoting maturation of somatic embryos and subsequent plantlet production. Embryos selected based on resemblance to mature zygotic embryos and transferred to a hormone-free basal medium without casein hydrolysate (CH) produced plantlets at a frequency of 63%. Populations of synchronized somatic embryos were obtained by repeated fractionation of liquid medium-cultured proembryogenic masses (PEMs) on stainless steel sieves. These fractionated embryos failed to mature properly when cultured in liquid basal medium, however. Development of embryos cultured in basal medium supplemented with 5×10⁻⁷ M abscisic acid (ABA) was slowed and embryos appeared to mature properly, with separated cotyledons and little precocious germination. However, ABA-treated embryos only rarely converted to plantlets, possibly due to residual effects of the ABA. PEMs fractionated on sieves, transferred to filter paper and placed on solidified basal medium gave a 60–70% synchronous population of mature embryos 10–12 days following plating. Mature embryos transferred to basal medium without CH converted at a frequency of 72%. The percentage of all embryos differentiating from PEMs on filter paper that formed plantlets was 32%. This material is based upon work supported by the U. S. Department of Agriculture Cooperative State Research Service under Agreement No. 85-FSTY-9-0117.     

Development of maize caryopses resulting from in-vitro pollination

Intact maize (Zea mays L.) ovaries were excised from unpollinated ears (pistillate inflorescences of field-grown plants and placed on defined, agar-based media in Petri dishes. Application of pollen to the end of silks (styles) positioned outside the Petri dish resulted in fertilization of 46% of the ovaries. The extent of subsequent kernel (caryopsis) development varied. After 40 days some kernels had only embryo development while others had embryo and variable endosperm development. About 5% of the initial ovaries developed into normal kernels; 60% of the kernels with some endosperm germinated under laboratory conditions, and 70% of the embryos excised from the embryo-only kernels germinated on culture media.Contribution from the Department of Agromy and Plant Genetics, University of Minnesota, St. Paul, MN 55108, USA. Paper no. 9641 scientific journal series, Minnesota Agricultural Experiment Station     

Protein synthesis in the embryo ofPinus thunbergii seed III.

Dissociability of the monomer ribosomes prepared from dry and imbibed pine (Pinus thunbergii) seed embryos was analyzed in sucrose density gradient containing a high salt buffer. Abnormal dissociation into the subunits was observed with the ribosome preparation from dry seed embryos when compared with that from imbibed seed embryos, i.e. each subunit peak was broader and localized at a lower site in sucrose density gradient. This indicates some change(s) in ribosomes during imbibition of seeds. These ribosomal changes also progressedin vitro. That is, after incubation of ribosome preparation from dry seed embryos in a high salt buffer for 5 min at 30 C or in a low salt buffer for 15 hr at 0 C, complete dissociation into the normal subunits was observed. No difference was found between polyacrylamide gel electrophoresis patterns of ribosomal RNA from dry and imbibed seed embryos. These results suggest some alteration in the protein components of ribosome during imbibition of pine seeds. This paper is dedicated to Prof. Shyogo Sawamura, Utsunomiya University on his retirement in March, 1979.     

Meiosis and fertility of interspecific hybrids betweenPhaseolus vulgaris L. andP. acutifolius A. Gray

Summary Meiosis and fertility of interspecific hybrids obtained from reciprocal crosses between Phaseolus vulgaris and P. acutifolius were examined. Bivalents as well as univalents were found at Metaphase I. The majority of the microsporocytes had four or more univalents and the average was 6.3 univalents per cell. The average number of lagging chromosomes at Anaphase I was 2.3 per cell and the most frequent chromosome distribution at late Anaphase I was 10–12. The lower than expected number of lagging chromosomes as compared with the number of univalents at Metaphase I suggests the possible occurrence of precocious separation of bivalents. The male fertility as measured by pollen stainability was 17%, however, the frequency of pollen germination in selfing was 3.5%. Upon selfing of the interspecific hybrids, no dividing embryos were found even though 7 and 26% of the ovules were fertilized at 12 hours and four days after pollination. In backcrosses to P. vulgaris (male), 6 and 20% of the ovules were fertilized and 0 and 4% of the ovules contained dividing embryos at the same sampling times. When P. acutifolius was the male parent, respective values were 8 and 31% for fertilization and 0 and 13% for ovules with dividing embryos. The frequencies of backcross embryos recovered at 14–26 days were in agreement with the frequencies of dividing embryos at four days. The ability to obtain backcross plantlets demonstrates the feasibility to further utilize interspecific hybrids for the improvement of P. vulgaris Technical paper No. 5311 of the Oregon Agricultural Experiment Station. Research was supported by the Oregon Agricultural Experiment Station, the Science and Education Administration of the U.S. Department of Agriculture under Grant 5901-0410-8-0028-0 from the Competitive Research Grants Office, the Research Council of Oregon State University (NIH Biomedical Research Support Grant RR 07079) and the Processor Research Council of Oregon, A.R. and C T.S. are respectively supported by an African Graduate Fellowship from the African-American Institute and a fellowship from the National Science Council of the Republic of China     

Somatic embryogenesis and plantlet regeneration in American ginseng (Panax quinquefolium L.)

Summary Somatic embryogenesis in American ginseng (Panax quinquefolium L.) was investigated from three explant sources (root, leaf and epicotyl) with Murashige and Skoog (MS) medium containing different growth regulators. Mature roots and leaves obtained from 3- to 5-yr-old field-grown plants, and seedling leaves and epicotyls from plantlets grownin vitro, were evaluated. From root and epicotyl explants, callus development was optimal with 3,6-dichloro-o-anisic acid (dicamba) (9.0 μM) and kinetin (KN) (5.0 μM) as the growth regulators. When these calluses were transferred after 3 mo. to dicamba alone (9.0 μM), somatic embryo formation was observed at an average frequency of 15.6% in root explants after an additional 3 mo., and 2% in epicotyl explants after an additional 6 mo. No plantlets were recovered because the embryos germinated to form shoots with no roots. From leaf explants, callus growth was optimal with α-naphthaleneacetic acid (NAA) at 10.0 μM and 2,4-dichlorophenoxyacetic acid (2,4-D) at 9.0 μM. Somatic embryos developed on this medium, with the highest frequency (40%) obtained after 3 mo. from seedling-leaf explants. Calluses on mature leaves formed somatic embryos after 7 mo. with NAA/2,4-D at an average frequency of 30%. Transfer of these somatic embryos to 6-benzyladenine/gibberellic acid (4.4/2.9 μM) promoted shoot development but no roots were observed. Up to 100% of germination was observed within 6 wk on half-strength MS salts containing activated charcoal (1%) and on NAA/2,4-D (5.0/4.5 μM) with charcoal (1%). On the latter medium, somatic embryos enlarged and frequently gave rise to new somatic embryos after a brief callusing phase. The embryos germinated through a two-stage process, involving the elongation of the root followed by the formation of a shoot. The highest recovery of ginseng plantlets from germinated embryos was 61.0%. Following transfer to potting medium and maintenance under conditions of high humidity and low light intensity, the plantlets elongated and developed new leaves. A high percentage (50%) of these plants have been acclimatized to soil.     

Preliminary investigation to determine the cytotoxicity of various cryoprotectants on southern African abalone (Haliotis midae) embryos

Cryopreservation could provide stock quantities of embryos for transgenic research. This study aimed to determine the least toxic cryoprotective agent for Haliotis midae embryos. They were exposed for 30 min to concentrations varying from 5% to 20% of the following cryopreservatives: methanol (MET), polyethylene glycol (PEG), dimethyl sulfoxide (ME₂SO) and glycerol (GLY). In contrast to cryopreservation studies done in other molluscs, PEG showed the least toxicity to H. midae embryos in concentrations ranging from 5% to 15%. MET was also less toxic than ME₂SO and GLY at correlating concentrations. GLY showed the most toxic effects with most embryos dead or abnormal at concentrations above 15%.     

Somatic embryogenesis and plantlet development in Pinus sylvestris and Pinus pinaster on medium with and without growth regulators

To initiate somatic embryogenesis in Pinus sylvestris and Pinus pinaster, immature seeds were collected from June to August and the developmental stage of the zygotic embryos was determined. Four developmental stages were distinguished and the response of the zygotic embryos at each of the four developmental stages was compared intra- and inter-species. For this study, modified Litvay's medium (LM), with or without growth regulators, was chosen. Somatic embryogenesis was initiated and maintained on both media but the two species displayed different propensities. In P. sylvestris, the highest initiation frequency was obtained with intact megagametophytes containing embryos at the four-cell stage to the stage of cleavage polyembryony (up to 22 and 9%, respectively). The culture medium had no significant effect on the initiation and proliferation of embryogenic cultures. In P. pinaster, however, the best response occurred from excised zygotic embryos at the stage prior to elongation of cotyledon primordia (up to 40% explants responded), on medium with growth regulators. Another characteristic distinguishing the two species in culture was that in some embryogenic cell lines of P. sylvestris, somatic embryos matured spontaneously when initiated and maintained on medium without growth regulators. Some of these embryos developed into plantlets on the same medium at the frequency of 40%. Therefore, in P. sylvestris all the stages of somatic embryogenesis were achieved on the medium without growth regulators. However, in both species, maturation of a large number of somatic embryos was greatly improved on medium containing high concentration of gellan gum (Gelrite 10 g l^?1) and abscisic acid (60 μM). Cotyledonary somatic embryos subsequently germinated (72 and 80% for P. sylvestris and P. pinaster, respectively) and developed into plantlets (48 and 29%, for P. sylvestris and P. pinaster, respectively). This represents a significant improvement in plantlet recovery from somatic embryos of both species.     

Doubled haploid plants following colchicine treatment of microspore-derived embryos of oilseed rape (<Emphasis Type="Italic">Brassica napus L.</Emphasis>)

An efficient method for producing doubled haploid plants of oilseed rape (Brassica napus L.) was established using in vitro colchicine treatment of haploid embryos. Haploid embryos in the cotyledonary stage were treated with one of four colchicine concentrations (125, 250, 500 and 1,000 mg/L); for one of three treatment durations (12, 24 and 36 h) at one of the two temperatures (8 and 25°C) and were compared to control embryos (without colchicine treatment). The number of chromosomes, seed recovery, size and density of leaf stomata, and pollen grain size from regenerated plants were determined. No doubled haploid plants were regenerated from control embryos; however, the doubled haploid plants were regenerated from colchicine-treated embryos. A high doubling efficiency, 64.29 and 66.66% of regenerated plants, was obtained from 250 mg/L colchicine treatment for 24 h and 500 mg/L colchicine treatment for 36 h, respectively, at 8°C. Following 500 mg/L colchicine treatment for 36 h, a few plants regenerated (9 plants). At the higher colchicine concentration (1,000 mg/L), no plant regenerated. These results indicate that the colchicine treatment of embryos derived from microspores can induce efficient chromosome doubling for the production of doubled haploid lines of oilseed rape.     

Somatic embryogenesis and plant regeneration from immature zygotic embryos of <Emphasis Type="Italic">Melia azedarach</Emphasis> (Meliaceae)

Summary A procedure for the regeneration of ‘paradise tree’ (Melia azedarach, Meliaceae) plants from immature zygotic embryos via somatic embryogenesis was developed. Somatic embryos were induced from explants cultured on Murashige and Skoog medium supplemented with 0.45, 4.54, or 13.62 μM thidiazuron. Histological examination revealed that somatic embryos were induced directly from the explants. Further development of somatic embryos was accomplished with Murashige and Skoog medium at quarter-strength with 3% sucrose. A large number of plants were regenerated from somatic embryos and successfully established in soil in a greenhouse. These plants are morphologically similar to those of seed-derived plants. This system may be beneficial for mass propagation as well as for genetic manipulation of the ‘paradise tree’.     

The effect of different kinds of electrolyte and non‐electrolyte solutions on the survival rate and morphology of zebrafish Danio rerio embryos

The effect of electrolyte and non‐electrolyte solutions on the survival and on the morphology of zebrafish Danio rerio embryos was investigated. Embryos in different ontogenetic stages were incubated in electrolyte (NaCl, KCl, MgCl₂ and CaCl₂) and non‐electrolyte solutions [sucrose and polyvinylalcohol (PVA)] of different concentrations for 5 – 15 min. The embryos were hatched to the long‐pec stage and the effective concentrations which caused a 50% decrease in embryo development (EC₅₀) were determined. The morphometric changes, which were caused by the test solutions, were measured. Ion channel blockers were used to see if active ion transport played a role for embryo survival. Finally, dechorionated embryos were exposed to the test solutions to get indications about the importance of chorion and perivitelline space. For 12 hours post fertilization (hpf) embryos and a 15 min exposure period, EC₅₀ was highest for MgCl₂ (1·60 mol l^?1), followed by sucrose (0·73 mol l^?1), NaCl (0·49 mol l^?1), KCl (0·44 mol l^?1), CaCl₂ (0·43 mol l^?1) and PVA [0·0005 mol l^?1 (2·2%)]. EC₅₀ were lower for early embryonic stages than for advanced stages for all solutions with exception of MgCl₂ and sucrose. At the EC₅₀, MgCl₂ and CaCl₂ solutions did not induce morphometric changes. NaCl and sucrose solutions induced reversible morphometric changes, which were compensated within 10 min. Only the EC₅₀ of KCl and PVA solutions induced permanent morphometric changes, which could not be compensated. Incubation of embryos in electrolyte and non‐electrolyte solutions together with ouabain (blocker of Na⁺– K⁺ ATPase), HgCl₃ (dose‐dependent inhibition of aquaporine channels), verapamil (inhibition of calcium and magnesium uptake) and amiloride (inhibition of sodium uptake) significantly decreased the per cent of embryos developing to the long‐pec stage in comparison to the same solutions without blockers. Ouabain and HgCl₃ also induced morphometric changes. For dechorionated embryos the survival rates in water and in the different test solutions were similar to untreated embryos.     

The effect of recipient oocyte volume on nuclear transfer in cattle

This study compared the developmental potential of bovine nuclear transfer embryos with varying amounts of cytoplasm. Embryos formed from single cytoplasts fused to blastomeres by a single electrical pulse or from double cytoplasts using a double electrical pulse resulted in reconstituted embryos containing 75% and 150% of the original oocyte volume. No differences in fusion, cleavage, or development rates to blastocysts were observed between the groups. Mean cell numbers 2 days after fusion were significantly lower in single-cytoplast clones. Cell numbers of resulting blastocysts were likewise significantly lower in single-cytoplast clones. Embryos formed by fusion of blastomeres with single cytoplasts using a single electrical pulse or from double cytoplasts using either a single or a double pulse resulted in reconstituted embryos containing 50%, 100% and 100% of the original oocyte volume. Again, no differences in fusion or cleavage rates were observed between groups, but the development to blastocysts at day 7 was significantly higher in double cytoplasts constructed with one fusion pulse than in single cytoplasts (P< 0.05). Mean cell numbers 2 days after fusion were significantly lower in single-cytoplast clones (P< 0.05), but at the blastocyst stage, no statistically significant differences in cell numbers were observed. The results of this study show that cytoplasmic volume plays a role in the development of nuclear transfer embryos. When using crude enucleation methods such as oocyte bisection, normal cytoplasmic volumes can be achieved by fusing double cytoplasts with embryonic blastomeres. Mol. Reprod. Dev. 50:185–191, 1998. © 1998 Wiley-Liss, Inc.