A morphogenetic determinant in the anterior pole of an insect egg (Smittia spec., Chironomidae, Diptera): localization by combined centrifugation and ultraviolet irradiation

In chironomid midges, the development of the head and thorax in the embryo requires the function of cytoplasmic determinants localized near the anterior pole of the egg. Experimental inactivation of these determinants causes a dramatic switch in the developmental program of the embryo. Instead of the normal segment pattern, the aberrant pattern “double abdomen” is formed. Head, thorax, and anterior abdominal segments are then replaced by an additional set of posterior abdominal segments jointed with reversed polarity to the original abdomen. To determine the cellular fraction which contains the effective targets for uv induction of double abdomens, Smittia eggs were centrifuged prior to uv irradiation. Accumulation of proteid spheres or lipid droplets in the irradiated anterior pole region caused a considerable decrease in the double abdomen yield. Removal of these components from the target area enhanced double abdomen formation. The maximum yield of double abdomens was obtained after uv irradiation of a cytoplasmic layer in which organelles larger than ribosomes could not be detected. The results of these and other experiments, suggest that ribosomes, ribosomal subunits, or other ribonucleoprotein particles act as effective targets for the uv induction of double abdomens in Smittia eggs.     

Effects of combined centrifugation and ultraviolet irradiation of eggs on pattern formation in Chironomus embryos

Summary

Combined mild centrifugation and uv irradiation of Chironomus embryos modified the developmental types expected from centrifugation alone, somewhat differently from the combined strong centrifugation and uv irradiation of Smittia embryos. The modifications changed with the stages irradiated. The change caused by anterior irradiation may depend on whether or not a part of the cytoplasmic zone is irradiated simultaneously with the anterior yolky end; because most of the cytoplasm lies in the posterior half of egg at early irradiation, while the tip of the cytoplasm redistributes near the anterior end by the late irradiation. Early uv irradiation of the anterior end of centrifuged eggs, causing the formation of a double abdomen (DA) or an inverted embryo, is not photoreversible, while the uv damage to the anterior end of uncentrifuged eggs, inducing DA, is. These facts suggest that there is another photoirreversible uv target in addition to the photoreversible target for DA induction or the anterior determinant shown in Smittia. Other changes, such as the induction of a double cephalon by late irradiation of the centrifuged egg, are photoreversible, but in an unusual way in that the level of photorecovery is similar to the result of incubation in the dark after early irradiation, and not to that of the centrifuged controls. These modified results were then compared with those for Smittia embryos.     

Double abdomen induction with low UV-doses inSmittia spec. (Chironomidae,diptera): Sensitive period and complete photoreversibility

Summary In embryos of the chironomid midgeSmittia spec., UV-irradiation of anterior pole regions results in double abdomen formation. In this abnormal body pattern, head and thorax are replaced by a mirror image of the abdomen. Irradiation at a particular stage between nuclear migration and blastoderm formation, and with the anterior pole facing the UV-beam, yields 100% double abdomens after a minimum UV-dose (140 J·m^–2 at 285 nm wavelength). By subsequent exposure to light of longer wavelength, embryos can be reprogrammed so that they develop normally again. The irradiation procedure described is suitable for programming large numbers of embryos for double abdomen formation, with a minimum of side effects and virtually complete photoreversibility.     

Localized synthesis of specific proteins during oogenesis and early embryogenesis inDrosophila melanogaster

Summary Protein synthesis in egg follicles and blastoderm embryos ofDrosophila melanogaster has been studied by means of two-dimensional gel electrophoresis. Up to 400 polypeptide spots have been resolved on autoradiographs. Stage 10 follicles (for stages see King, 1970) were labelled in vitro for 10 to 60 min with³⁵S-methionine and cut with tungsten needles into an anterior fragment containing the nurse cells and a posterior fragment containing the oocyte and follicle cells. The nurse cells were found to synthesize a complex pattern of proteins. At least two proteins were detected only in nurse cells but not in the oocyte even after a one hour labelling period. Nurse cells isolated from stages 9, 10 and 12 follicles were shown to synthesize stage specific patterns of proteins. Several proteins are synthesized in posterior fragments of stage 10 follicles but not in anterior fragments. These proteins are only found in follicle cells. No oocyte specific proteins have been detected. Striking differences between the protein patterns of anterior and posterior fragments persist until the nurse cells degenerate. In mature stage 14 follicles, labelled in vivo, no significant differences in the protein patterns of isolated anterior and posterior fragments could be detected; this may be due to technical limitations. At the blastoderm stage localized synthesis of specific proteins becomes detectable again. When blastoderm embryos, labelled in vivo, are cut with tungsten needles and the cells are isolated from anterior and posterior halves, differences become apparent. The pole cells located at the posterior pole are highly active in protein synthesis and contribute several specific proteins which are found exclusively in the posterior region of the embryo. In this study synthesis of specific proteins could only be demonstrated at those developmental stages which are characterized by the presence of different cell types within the egg chamber, while no differences were detected when stage 14 follicles were cut and anterior and posterior fragments analyzed separately. The differences in the pattern of protein synthesis by pole cells and blastoderm cells indicate that even the earliest stages of determination are reflected by marked changes at the biochemical level.     

Scanning electron microscopic analysis of spontaneous and UV-induced abnormal segment patterns in Chironomus samoensis (Diptera,Chironomidae)

Summary The embryonic body pattern of Chironomus samoensis, as well as other chironomids, can be altered dramatically by irradiating their eggs with ultraviolet light (UV). Anterior UV irradiation leads to the formation of double abdomen embryos whose anterior segments are replaced by posterior segments with reversed polarity. Most double abdomens are symmetrical showing a mirror image duplication of the posterior six or seven segments. However, in some cases the anterior end of the double abdomen is shorter, and comprises fewer segments, than its posterior counterpart. These asymmetries range from moderate to extreme. They involve the juxtaposition, at the plane of polarity reversal, of disparate segments. The same range of symmetrical and asymmetrical double abdomens is also formed spontaneously in an apparently mutant strain of C. samoensis. There are striking similarities between this natural variant and the Drosophila melanogaster mutant bicaudal which are also discussed with respect to models of embryonic pattern formation.     

Switch in pattern formation after puncturing the anterior pole of Smittia eggs (Chironomidae, Diptera).

The aberrant pattern, “double abdomen,” previously induced in the egg of Smittia by uv irradiation of anterior pole regions was also produced by puncturing of the egg at the anterior pole. Double abdomens and embryos with anterior defects developed in eggs in which puncturing had locally prevented the regular arrangement of cleavage nuclei in the periplasm. The resulting gap in the blastoderm at the anterior pole was subsequently closed under exclusion of a small amount of egg material. Double abdomens did not develop in eggs where exclusion of anterior egg material was not observed. Thus a basic switch in the developmental program of the egg appears to depend upon the functional elimination of some crucial components in the anterior egg region.     

The bases for and timing of regional specification during larval development in Phoronis

A fate map has been constructed for Phoronis vancouverensis. The animal pole of the egg gives rise to the apical plate in the hood of the actinotroch larva. The vegetal pole of the egg marks the site of gastrulation. During the initiation of gastrulation the cells of the animal pole of the embryo are directly opposite those at the vegetal pole of the embryo. The plane of the first cleavage always goes through the animal-vegetal pole of the egg. In about 70% of the cases the plane of the first cleavage is perpendicular to the future anterior-posterior axis of the actinotroch larva; in the remaining cases the plane of the first cleavage is either oblique with reference to, or occurs along, the future anterior-posterior axis of the larva. Following gastrulation catecholamine-containing cells first make their appearance in the apical plate and gut cells first produce esterase. The timing of regional specification in these embryos has been examined by isolating animal or vegetal, anterior or posterior, or lateral regions at different time periods between the initiation of cleavage and gastrulation and examining their ability to differentiate. Animal halves isolated from early cleavage through late blastula stages do not gastrulate and do not form catecholamine-containing cells. When animal halves are isolated with endoderm during gastrulation, they differentiate catecholamine-containing cells. Vegetal halves isolated at the 8- to 16-cell stage gastrulate and form normal actinotroch larvae with esterase-positive gut and catecholamine-containing apical plate cells. When this same region is isolated at blastula stages it does not gastrulate and does not differentiate these cell types. Vegetal halves isolated during gastrulation subsequently form esterase-positive gut cells, but they do not form catecholamine-containing apical plate cells. When presumptive anterior, posterior, or lateral halves are isolated from early cleavage through blastula stages, each half forms a normal actinotroch larva. Lateral halves isolated during gastrulation also form normal larvae. Anterior halves isolated during late gastrulation differentiate only the anterior end of the actinotroch larva. These isolates have a hood with catecholamine-containing apical plate cells and the first part of an esterase-positive gut but lack the anlagen of the intestine and protonephridia. Posterior halves isolated during late gastrulation differentiate only the posterior end of the actinotroch which lacks a hood with catecholamine-containing cells but has an esterase-positive gut, protonephridia, and the anlagen of the intestine.(ABSTRACT TRUNCATED AT 400 WORDS)     

Pattern formation in fragmented eggs of the short germ insect Schistocerca gregaria

Summary The effect of transverse fragmentation on the segment pattern of the short germ embryo of the locust Schistocerca gregaria has been investigated at two stages subsequent to the formation of the germ anlage. Following fragmentation both anterior and posterior partial embryos were observed, although rarely in a single egg. Anterior partial patterns usually terminated with a segment visible at the time of fragmentation or with the next segment due to appear. Posterior partial patterns began with a wide range of segments depending on the level of fragmentation.Anterior and posterior partial patterns developing in a single egg were usually not complementary and the segments missing sometimes included some segments visible when the embryo was fragmented. Non-complementary patterns resulted following fragmentation in all regions, while complementary patterns only occurred after fragmentation in the visibly-segmented region.The results suggest that following fragmentation isolated posterior portions of the embryo continue to form segments, while isolated anterior regions usually do not. This effect could result from variable damage to an existing pattern of unequally-sized segment primordia, or from the disruption of a process of sequential segmentation in the elongating posterior region of the embryo. The results are broadly compatible with the progress zone model proposed by Summerbell et al. (1973).     

Changes in the apparent localization of anterior determinants during early embryogenesis (Smittia spec., Chironomidae,Diptera)

Summary InSmittia embryos, anterior UV irradiation causes the formation of double abdomens in which head and thorax are replaced by a mirror-image duplication of abdominal segments. The transformation is ascribed to the inactivation of cytoplasmic ribonucleoprotein particles acting as anterior determinants. During the first 5 h after egg deposition (h.a.d.), high yields of double abdomens are produced by microbeam irradiation of a small target area (diameter 20 m) behind the anterior pole. This localization coincides with a yolk-free cytoplasmic cone observed behind the anterior pole of newly depositedSmittia eggs (Zissler and Sander 1973). Irradiation of this area becomes less efficient between 5 and 7 h.a.d., while double abdomen yields increase after irradiation of adjacent target areas. A dramatic increase in the double abdomen yield is also observed after irradiation of the entire anterior surface. Under these conditions, the UV fluence required for a given yield decreases by a factor of 3.9 between 5.5. and 7 h.a.d. This can be explained quantitatively by the assumption that the effective targets move an average distance of 8 from the strongly absorbing endoplasm towards the egg surface. During the period of apparent target deshielding, the distance of nuclei from the egg surface actually decreases from 11 to 3 m. However, the timing and direction of the nuclear migration and of the apparent deshielding differ, indicating that the shift of effective targets may be triggered by, but does not exactly follow, the nuclear movement. The data suggest that a major fraction of anterior determinants shifts from a small volume behind the anterior pole to a spread-out distribution over the surface of the anterior half.     

Localization of vasa, a component of Drosophila polar granules, in maternal-effect mutants that alter embryonic anteroposterior polarity

Cytoplasm at the posterior pole of the early Drosophila embryo, known as polar plasm, serves as a source of information necessary for germ cell determination and for specification of the abdominal region. Likely candidates for cytoplasmic elements important in one or both of these processes are polar granules, organelles concentrated in the cortical cytoplasm of the posterior pole. Females homozygous for any one of the maternal-effect mutations, tudor, oskar, staufen, vasa, or valois give rise to embryos that lack localized polar granules, fail to form the germ cell lineage and have abdominal segment deletions. Using antibodies against a polar granule component, the vasa protein, we find that vasa synthesis or localization is affected by these mutations. In vasa mutants, synthesis of vasa protein is absent or severely restricted. In oskar and staufen mutant females, vasa synthesis appears normal, but the vasa protein is not localized. In tudor and valois mutant females, vasa is localized to the posterior pole of oocytes, but this localization is lost following egg activation. In addition to the posterior localized vasa, there is a low level of vasa distributed throughout the embryo. A function for this distributed vasa is postulated based on the observation that embryos from Bicaudal-D mothers, in which abdominal determinants are incorrectly localized to the anterior pole, do not show any ectopic vasa localization, though abdomen development at the anterior end depends on the amount of vasa protein in the embryo.     

Retinoic acid modifies positional memory in the anteroposterior axis of regenerating axolotl limbs

The effects of retinoic acid (RA) on anteroposterior (AP) positional memory of regenerating axolotl limbs were tested after removing the anterior or posterior half from the zeugopodium (lower arm or leg). RA (150 micrograms/g body wt) was injected into groups of animals bearing the following types of limbs: (1) anterior and posterior half zeugopodia grafted to the eyesocket and amputated distally 7 days later; (2) unamputated anterior and posterior half zeugopodia in situ; (3) double anterior and double posterior half zeugopodia amputated distally 7 days after their construction; (4) sham-operated zeugopodia amputated distally 7 days after operation. Controls consisted of these four groups injected with the retinoid solvent, dimethyl sulfoxide, or not injected. Control half zeugopodia grafted to the eyesocket regenerated no more than one or two digits. Control unamputated half zeugopodia in situ underwent partial or complete regeneration of the missing half from the proximal and midline wound surfaces exposed during construction of the half zeugopodia. Control double anterior and posterior zeugopodia both regenerated symmetrical, hypomorphic regenerates with 1-3 digits in the double anteriors and 1-6 digits in the double posteriors. Sham-operated controls regenerated normally. Regenerating anterior and posterior halves responded differently to RA. RA-treated anterior half zeugopodia in the eyesocket, and anterior half stumps adjacent to the unamputated posterior half zeugopodia in situ both produced regenerates that duplicated stump structures in the proximodistal axis and formed a complete and normal AP pattern. RA-treated double anterior zeugopodia regenerated proximodistal-duplicated pairs of mirror-imaged limbs, each with a complete and normal AP pattern. In contrast, half posterior zeugopodia in the eyesocket, the posterior half stumps of unamputated half anterior zeugopodia in situ, and double posterior zeugopodia all failed to regenerate. These results suggest that RA modifies positional memory in only one direction in the AP axis, posterior.     

Regional specification during embryogenesis in the craniiform brachiopod Crania anomala

A fate map has been constructed for the embryo of Crania. The animal half of the egg forms the ectodermal epithelium of the larva's apical lobe. The vegetal half of the egg forms endoderm, mesoderm, and the ectoderm of the mantle lobe. The vegetal pole is the site of gastrulation; this site becomes the posterior ventral region of the mantle lobe of the larva. The plane of the first cleavage goes through the animal-vegetal axis of the egg; it bears no relationship to the future plane of bilateral symmetry of the larva. The timing of regional specification was examined by isolating animal, vegetal, or meridional halves from oocytes, eggs, or embryos from prior to germinal vesicle breakdown through gastrulation. Animal halves isolated from oocytes formed either the epithelium of the apical lobe or a larva with all three germ layers. Animal halves isolated from unfertilized eggs and eight-cell embryos formed only apical lobe epithelium. Beginning at the blastula stage, animal halves formed mantle in addition to apical lobe epithelium. In animal halves isolated after gastrulation, the mantle lobe was always truncated. Vegetal halves isolated at all stages prior to gastrulation gastrulated and formed apical and mantle lobes with endoderm and mesoderm; however, the relative size of the apical lobe that formed decreased substantially when vegetal halves were isolated at later developmental stages. When meridional halves were isolated from unfertilized eggs and two- to four-cell embryos, both halves frequently formed normally proportioned larvae. Beginning at the blastula stage, a number of pairs frequently had a member that lacked dorsal setae on its mantle lobe while the other member of the pair formed setae, indicating that the dorsoventral axis had been set up. The process of regional specification in Crania is compared to those of Discinisca and Glottidia in the brachiopod subphylum Linguliformea and Phoronis in the phylum Phoronida.     

Determination of the dorsal-ventral axis in eggs of Xenopus laevis: Complete rescue of uv-impaired eggs by oblique orientation before first cleavage

Eggs of Xenopus laevis were exposed to ultraviolet (uv) radiation (2537 Å) on the vegetal hemisphere soon after fertilization at doses sufficient to impair greatly the subsequent development of dorsal structures. It was found that temporary orientation of irradiated eggs 90° off the natural vertical axis rescues these eggs, allowing them to develop into normal embryos. Complete rescue results when oblique orientation is initiated well before first cleavage, and eggs remain in this position until the 16-cell stage. Significant rescue is seen, however, in eggs which remain off axis for shorter periods of time or when eggs are obliquely oriented, even after first cleavage. Furthermore, a period of oblique orientation prior to uv irradiation results in insensitivity of eggs to irradiation. Ultraviolet irradiation is found to randomize the position of the dorsal side with respect to the sperm entrance point, whereas the position of the dorsal side of rescued embryos is strongly specified by the orientation of the egg during the rescue period, and not by the sperm entrance point. Other effects of uv irradiation on early development include decreased pigmentation differences among 4-cell stage blastomeres and delayed gastrulation. It is proposed (1) that oblique orientation promotes in irradiated eggs a set of internal rearrangements mimicking those normally accomplished by the unirradiated egg in a period prior to first cleavage and as part of an early dorsalization process, and (2) that the uv-sensitive targets are part of the morphogenic machinery used by the egg for internal rearrangements in this period and are not elements of a system of transmitted particulate dorsal determinants.     

尖唇散白蚁胚胎发育激光共聚焦扫描显微镜观察

【目的】本研究旨在探究尖唇散白蚁Reticulitermes aculabialis胚胎在不同发育阶段的变化特征。【方法】每日收集尖唇散白蚁的卵,并固定其胚胎发育状态,采用DAPI染剂对白蚁胚胎进行染色,通过激光共聚焦扫描显微镜观察记录尖唇散白蚁胚胎在不同发育阶段的形态特征。【结果】在25℃下尖唇散白蚁胚胎发育过程历经25~30 d,按照发育特征将其划分为12个阶段。胚胎发育早期,卵黄细胞均匀分布在卵内部,卵内细胞核向卵的中间浓缩,在细胞到达卵的后表面时形成浓缩的囊胚细胞作为胚盘;胚胎发育中期,胚胎开始进行“反转型”的囊胚运动,头部和前后轴从后极到前极反转,胚带出现明显的“双弯”结构。胚胎发育中后期,胚胎变宽,内部器官逐渐开始发育,出现明显的伸长与分节;胚胎发育后期,附肢发育明显,内部器官发育成熟。【结论】尖唇散白蚁胚胎发育过程历经12个阶段,属于短胚带型,胚带出现“双弯”结构,发育中期经历两次囊胚反转。本研究为真社会性昆虫白蚁的胚胎发育过程提供了形态学和生物学依据。     

Double abdomen induction by UV in Bradysia tritici (syn. Sciara ocellaris,Sciaridae): sensitive stages and conditions for photoreversal

Summary The pattern anomaly double abdomen was induced in embryos of Bradysia tritici (syn. Sciara ocellaris) by irradiation of the anterior egg pole with far UV (254 or 285 nm) using low UV fluences. The maximum yield of 18% of double abdomens was obtained when 2.5 h embryos were irradiated (late intravitelline cleavage stage); earlier irradiation failed to yield double abdomens, as did irradiations after the early syncytial blastoderm stage. Exposing irradiated embryos to photoreverting light (366 nm) reduced the yield of malformations. Most double abdomens were symmetrical and the number of segments ranged from 3 to 8 in each set, with the mean value at 6.4 segments.     

Anterior determinants in embryos of Chironomus samoensis: characterization by rescue bioassay

Embryos of Chironomus samoensis are programmed, by anterior u.v. irradiation, to form the abnormal body pattern 'double abdomen'. Most double abdomen embryos show a mirror-image duplication of abdominal segments in the absence of cephalic or thoracic segments. Such embryos can be 'rescued', i.e. restored to normal development, by microinjection of cytoplasm or RNA from unirradiated donor embryos. Most of the rescued embryos look completely normal and many of them hatch spontaneously. The rescuing activity decreases from the anterior to the posterior pole in the donor cytoplasm and must be delivered near the anterior pole of the recipient for maximum efficiency. Rescuing activity is present in total RNA extracted from whole, unirradiated embryos. Upon fractionation, the activity is associated with poly(A)+ RNA, with LiCl precipitate depleted of RNA smaller than 250 nucleotides (nt) and with a sucrose gradient fraction depleted of RNA larger than 500 nt. Corresponding fractions of RNA from Xenopus oocytes have no rescuing activity. The activity of Chironomus RNA is sensitive to u.v. irradiation with low fluence affecting less than 2% of the pyrimidine bases. Rescuing activity is present in cytoplasm until the blastoderm stage but disappears earlier from poly(A)+ RNA. Rescuing activity is also present, and localized, in cytoplasm of embryos from two related dipterans, Smittia sp. and Drosophila melanogaster, although the extent of rescue observed in Chironomus decreases with the phylogenetic distance between donor and recipient. The results of these and previous experiments indicate that dipteran embryos contain localized RNP particles acting as anterior determinants. In Chironomus, the activity of these particles seems to depend on the integrity of polyadenylated RNA of about 250 to 500 nt length.     

The ontogeny of germ plasm during oogenesis in Drosophila

Primordial germ cells can be induced at both the anterior and ventral region of the Drosophila egg by transplanted posterior polar plasm. Two questions arise from these results: (1) Is fertilization required for germ plasm to be functional, and (2) at what stage during oogenesis does the posterior polar plasm become established as a germ-cell determinant?Polar plasm from unfertilized eggs and from oocytes at stage 10 to 14 of Drosophila melanogaster was implanted into the anterior region of cleavage embryos. Some injected embryos were analyzed at the ultrastructural level during blastoderm formation. Polar plasm from unfertilized eggs and from oocytes of stages 13 and 14 was found to be integrated into several anterior cells that resembled morphologically normal pole cells. The formation of such cells, however, could not be detected in embryos injected with polar plasm from oogenetic stages 10 to 12. Experimentally induced pole cells proved to be capable of differentiating into functional germ cells when cycled through the germ line of genetically different host embryos. About 5% of the flies developing from these embryos produced progeny that originated from the induced pole cells. Germ-line mosaicism in those flies also could be detected histochemically in their gonads. No germ cells were recovered with polar plasm transplants from oogenetic stages 10 to 12.The results show that posterior polar plasm of the unfertilized egg is functional in germ-cell determination, and that prior to egg maturation this cytoplasm has already acquired its determinative ability. This is the first demonstration that specific developmental information stored in the cytoplasm can be traced back to a particular region of the oocyte.     

Experimental test fails to confirm gradient interpretation of embryonic patterning in leafhopper eggs

Posterior pole material was incorporated into middle egg fragments of standard length but different mean position along the longitudinal egg axis. Middle egg fragments of rather posterior location formed only posterior pattern elements, i.e., thoracic and abdominal segments. More anterior middle egg fragments, on the other hand, were able to form complete embryos. The results are at variance with basic suppositions of a recent model of pattern formation in the Euscelis egg.     

Serially duplicated regenerates from the anterior half of the axolotl limb after retinoic acid treatment

Summary Axolotl (Ambystoma mexicanum) forearms were divided, by an incision between the radius and ulna, to produce anterior and posterior halves. These were prevented from fusing together again by a graft of head skin and amputated through the wrist. This procedure enabled independent regeneration from both halves of the stump. Anterior half stumps produced a single digit while the posterior halves mainly regenerated three digits, the two halves together making a single hand. Treatment with retinoic acid, injected intraperitoneally four days after amputation, abolished regeneration from the posterior half stump and produced proximo-distally duplicated regenerates from the anterior half. The duplicated regenerates had in most cases a complete four digit hand and were therefore more than proximalised regenerates from the anterior side of the limb. Replacement of anterior limb skin with head skin had no effect on the response of the regenerating limb to retinoic acid. In species where application of retinoic acid induces anterior-posterior duplications, these are always derived from the anterior side of the limb. The results presented here show that the morphogenic effects of retinoic acid in inducing proximo-distal duplications are also due to its effects on the anterior tissues of the limb.Excellent technical assistance was provided by Carole Ross and Marjory Shiach and useful discussion were had with Paul Martin, David Wilson and Gavin Swanson     

Regional specification during embryogenesis in the inarticulate brachiopod Discinisca.

The process of embryogenesis is described for the inarticulate brachiopod Discinisca strigata of the family Discinidae. A fate map has been constructed for the early embryo. The animal half of the egg forms the dorsal ectoderm of the apical and mantle lobes. The vegetal half forms mesoderm and endoderm and is the site of gastrulation; it also forms the ectoderm of the ventral regions of the apical and mantle lobes of the larva. The plane of the first cleavage goes through the animal-vegetal axis of the egg along the future plane of bilateral symmetry of the larva. The timing of regional specification in these embryos was examined by isolating animal, vegetal, or lateral regions at different times from the 2-cell stage through gastrulation. Animal halves isolated at the 8-cell and blastula stages formed an epithelial vesicle and did not gastrulate. When these halves were isolated from blastulae they formed the cell types typical of apical and mantle lobes. Vegetal halves isolated at all stages gastrulated and formed a more or less normal larva; the only defect these larvae had was the lack of an apical tuft, which normally forms from cells at the animal pole of the embryo. When lateral isolates were created at all developmental stages, these halves gastrulated. Cuts which separated presumptive anterior and posterior regions generated isolates at the 4-cell and blastula stages that formed essentially normal larvae; however, at the midgastrula stage these halves formed primarily anterior or posterior structures indicating that regional specification had taken place along the anterior-posterior axis. The plane of the first cleavage, which predicts the plane of bilateral symmetry, can be shifted by either changing the cleavage pattern that generates the bilateral 16-cell blastomere configuration or by isolating embryo halves prior to, or during, the 16-cell stage. These results indicate that while the plane of the first cleavage predicts the axis of bilateral symmetry, the axis is not established until the fourth cleavage. The development of Discinisca is compared to development in the inarticulate brachiopod Glottidia of the family Lingulidae and to Phoronis in the phylum Phoronida.