DYRK1-mediated phosphorylation of endocytic components is required for extracellular lumen expansion in ascidian notochord.

BACKGROUND: The biological tube is a basal biology structure distributed in all multicellular animals, from worms to humans, and has diverse biological functions. Formation of tubular system is crucial for embryogenesis and adult metabolism. Ascidian Ciona notochord lumen is an excellent in vivo model for tubulogenesis. Exocytosis has been known to be essential for tubular lumen formation and expansion. The roles of endocytosis in tubular lumen expansion remain largely unclear. RESULTS: In this study, we first identified a dual specificity tyrosine-phosphorylation-regulated kinase 1 (DYRK1), the protein kinase, which was upregulated and required for ascidian notochord extracellular lumen expansion. We demonstrated that DYRK1 interacted with and phosphorylated one of the endocytic components endophilin at Ser263 that was essential for notochord lumen expansion. Moreover, through phosphoproteomic sequencing, we revealed that in addition to endophilin, the phosphorylation of other endocytic components was also regulated by DYRK1. The loss of function of DYRK1 disturbed endocytosis. Then, we demonstrated that clathrin-mediated endocytosis existed and was required for notochord lumen expansion. In the meantime, the results showed that the secretion of notochord cells is vigorous in the apical membrane. CONCLUSIONS: We found the co-existence of endocytosis and exocytosis activities in apical membrane during lumen formation and expansion in Ciona notochord. A novel signaling pathway is revealed that DYRK1 regulates the endocytosis by phosphorylation that is required for lumen expansion. Our finding thus indicates a dynamic balance between endocytosis and exocytosis is crucial to maintain apical membrane homeostasis that is essential for lumen growth and expansion in tubular organogenesis.

DYRK1-mediated phosphorylation of endocytic components is required for extracellular lumen expansion in ascidian notochord

BACKGROUND: The biological tube is a basal biology structure distributed in all multicellular animals, from worms to humans, and has diverse biological functions. Formation of tubular system is crucial for embryogenesis and adult metabolism. Ascidian Ciona notochord lumen is an excellent in vivo model for tubulogenesis. Exocytosis has been known to be essential for tubular lumen formation and expansion. The roles of endocytosis in tubular lumen expansion remain largely unclear. RESULTS: In this study, we first identified a dual specificity tyrosine-phosphorylation-regulated kinase 1 (DYRK1), the protein kinase, which was upregulated and required for ascidian notochord extracellular lumen expansion. We demonstrated that DYRK1 interacted with and phosphorylated one of the endocytic components endophilin at Ser263 that was essential for notochord lumen expansion. Moreover, through phosphoproteomic sequencing, we revealed that in addition to endophilin, the phosphorylation of other endocytic components was also regulated by DYRK1. The loss of function of DYRK1 disturbed endocytosis. Then, we demonstrated that clathrin-mediated endocytosis existed and was required for notochord lumen expansion. In the meantime, the results showed that the secretion of noto-chord cells is vigorous in the apical membrane. CONCLUSIONS: We found the co-existence of endocytosis and exocytosis activities in apical membrane during lumen formation and expansion in Ciona notochord. A novel signaling pathway is revealed that DYRK1 regulates the endocytosis by phosphorylation that is required for lumen expansion. Our finding thus indicates a dynamic balance between endocytosis and exocytosis is crucial to maintain apical membrane homeostasis that is essential for lumen growth and expansion in tubular organogenesis.

Experiences with the marsupial frogs: reminiscences of a developmental biologist.

This article provides a brief account of the career of Eugenia M. del Pino. Casual events and serendipity played important roles in modeling her career as a developmental biologist. In collaboration with colleagues and students, she analyzed the biology and development of the marsupial frog Gastrotheca riobambae (family: Hemiphractidae) in comparison with Xenopus laevis and tropical frogs. The emphasis was placed on oogenesis and the early stages of development. Topics include the mono- and multi-nucleated modes of oogenesis. She described two modes of gastrulation in frogs, gastrulation modes one and two, according to the timing of notochord elongation. She was able to establish a pioneer laboratory for the comparative analysis of frog development in Ibero America at the Pontifical Catholic University of Ecuador, in Quito. Her contributions to society include her influence in the establishment of the National Academy of Sciences of Ecuador, and efforts toward the conservation of the Galápagos Archipelago. She is part of a pioneer group of professors that placed Biology as an academic discipline in Ecuador. The experiences of her career reveal that we all face difficulties in our jobs. However, nothing is impossible when we follow a passion. Her work reveals that the key to success is to turn obstacles into opportunities.

Metastatic poorly differentiated chordoma: the eyes do not see what the mind does not know

Chordoma is a rare tumor. It has unique clinical, pathological and immunohistochemical characteristics. Accurate diagnosis is essential as the tumor shows an aggressive clinical course and requires a multimodal therapeutic approach. A case with wide spread distant metastatic disease that was initially thought to represent metastatic thyroid carcinoma is presented. Appropriate clincopathologic correlation and the histologic findings raised the possibility of poorly differentiated chordoma. The diagnosis was confirmed by immunohistochemistry for INI-1 and Brachyury. The approach to the diagnosis emphasizing the clinical and pathologic findings of this case is discussed and reviewed in the context of the published literature.

Reto neuroquirúrgico actual del cordoma cervical / Current neurosurgical challenge of the cervical chordoma

El cordoma es un tumor osteocartilaginoso raro, de lento crecimiento, con una tasa de incidencia global de 8,4 casos por cada 10 millones de habitantes. Comúnmente aparece en la quinta y sexta década de la vida, predomina en el sexo masculino. Se presenta un paciente masculino de 47 años de edad, con cervicobraquialgia, cuadriparesia y masa tumoral palpable en región anterolateral del cuello. El estudio de resonancia magnética demostró la presencia de una lesión retrofraríngea con destrucción vertebral y compresión extradural. Se decidió resección quirúrgica de la lesión. El diagnóstico histopatológico por inmunohistoquímica arrojó como resultado, un cordoma(AU)

Chordoma is a rare, slow-growing osteocartilaginous tumor with an overall incidence rate of 8.4 cases per 10 million inhabitants. Commonly appears in the fifth and sixth decade of life, predominates in the male sex. We present a 47-year-old male patient with cervicobrachialgia, quadriparesis and palpable tumor mass in the anterolateral region of the neck. The magnetic resonance study showed the presence of a retropharyngeal lesion with vertebral destruction and extradural compression. Surgical resection of the lesion was decided. The histopathological diagnosis by immunohistochemistry resulted in a chordoma(AU)

Reto neuroquirúrgico actual del cordoma cervical / Current neurosurgical challenge of the cervical chordoma

El cordoma es un tumor osteocartilaginoso raro, de lento crecimiento, con una tasa de incidencia global de 8,4 casos por cada 10 millones de habitantes. Comúnmente aparece en la quinta y sexta década de la vida, predomina en el sexo masculino. Se presenta un paciente masculino de 47 años de edad, con cervicobraquialgia, cuadriparesia y masa tumoral palpable en región anterolateral del cuello. El estudio de resonancia magnética demostró la presencia de una lesión retrofraríngea con destrucción vertebral y compresión extradural. Se decidió resección quirúrgica de la lesión. El diagnóstico histopatológico por inmunohistoquímica arrojó como resultado, un cordoma(AU)

Chordoma is a rare, slow-growing osteocartilaginous tumor with an overall incidence rate of 8.4 cases per 10 million inhabitants. Commonly appears in the fifth and sixth decade of life, predominates in the male sex. We present a 47-year-old male patient with cervicobrachialgia, quadriparesis and palpable tumor mass in the anterolateral region of the neck. The magnetic resonance study showed the presence of a retropharyngeal lesion with vertebral destruction and extradural compression. Surgical resection of the lesion was decided. The histopathological diagnosis by immunohistochemistry resulted in a chordoma(AU)

Ontogenetic development of tetra Astyanax lacustris (Characiformes: Characidae)

Ontogenetic development of the tetra Astyanax lacustris was studied under laboratory conditions. Larvae obtained by induced reproduction were maintained individually in tissue-culture plates, at 25°C. Daily observations and morphometric measurements were performed. Larvae hatched with a total length (TL) of 3.02 ± 0.34 mm (average ± standard deviation) without pigmentation and 0.06 ± 0.02 mm³ of yolk reserves. The yolk-sac larval period lasted 26 h post-hatching (hph). During this period, eye pigmentation started, the digestive tract emerged, the anus opened, and the animals began to show steady movements. Inflation of the swimming bladder initiates the preflexion stage, which extended until 230 hph. During this stage, the transition from endogenous to exogenous feeding was observed, with the yolk reserve being completely absorbed after 74 hph (TL: 4.17 ± 0.36 mm). Up to 86 hph it was possible to observe the first food ingested within the digestive tract. This period was followed by the flexion stage, with the folding of the notochord tip and development of the caudal fin (11-13 days post-hatching). Finally, during the last larval developmental stage (postflexion), the segmentation of the fin rays was completed, and the emergence of scales was observed (TL: 5.97 ± 0.65 mm). The larval ontogenetic development of A. lacustris was completed after 22 post-hatching days (dph).(AU)

O desenvolvimento ontogenético do lambari Astyanax lacustris (Pisces, Characidae) foi estudado em condições ambientais controladas. Larvas obtidas através de reprodução induzida, foram mantidas individualmente em placas de cultivo celular, a 25°C. Diariamente foram realizadas observações e medições morfométricas. As larvas eclodiram com 3,02 ± 0,34 mm (média ± desvio padrão) de comprimento total (CT); sem pigmentação e com 0,06 ± 0,02 mm³ de reserva vitelínica. O período larval vitelino estendeu-se durante as primeiras 26 horas pós-eclosão (hpe) e durante este período teve início o processo de pigmentação dos olhos, o surgimento do tubo digestório, abertura anal e os animais passaram a apresentar movimentação constante. Com o inflamento da bexiga natatória tem início o estágio de pré-flexão, que se estendeu por até 230 hpe. Durante este estágio, foi observada a transição entre a alimentação endógena e a exógena, sendo a reserva vitelínica totalmente absorvida após 74 hpe (com os animais atingindo 4,17 ± 0,36 mm de CT) e em até 86 hpe foi possível observar a primeira alimentação no trato digestório. Após esse período, teve início o estágio de flexão da parte final da notocorda e da estruturação da nadadeira caudal (11 e 13 dias após a eclosão). Por fim, no último estágio de desenvolvimento larval (pós-flexão), foi observada a segmentação completa dos raios das nadadeiras e o início do aparecimento das escamas (CT: 5,97 ± 0,65 mm). O desenvolvimento ontogenético larval de A. lacustris foi concluído após 22 dias pós-eclosão (dpe).(AU)

Ontogenetic development of tetra Astyanax lacustris (Characiformes: Characidae)

Ontogenetic development of the tetra Astyanax lacustris was studied under laboratory conditions. Larvae obtained by induced reproduction were maintained individually in tissue-culture plates, at 25°C. Daily observations and morphometric measurements were performed. Larvae hatched with a total length (TL) of 3.02 ± 0.34 mm (average ± standard deviation) without pigmentation and 0.06 ± 0.02 mm³ of yolk reserves. The yolk-sac larval period lasted 26 h post-hatching (hph). During this period, eye pigmentation started, the digestive tract emerged, the anus opened, and the animals began to show steady movements. Inflation of the swimming bladder initiates the preflexion stage, which extended until 230 hph. During this stage, the transition from endogenous to exogenous feeding was observed, with the yolk reserve being completely absorbed after 74 hph (TL: 4.17 ± 0.36 mm). Up to 86 hph it was possible to observe the first food ingested within the digestive tract. This period was followed by the flexion stage, with the folding of the notochord tip and development of the caudal fin (11-13 days post-hatching). Finally, during the last larval developmental stage (postflexion), the segmentation of the fin rays was completed, and the emergence of scales was observed (TL: 5.97 ± 0.65 mm). The larval ontogenetic development of A. lacustris was completed after 22 post-hatching days (dph).(AU)

O desenvolvimento ontogenético do lambari Astyanax lacustris (Pisces, Characidae) foi estudado em condições ambientais controladas. Larvas obtidas através de reprodução induzida, foram mantidas individualmente em placas de cultivo celular, a 25°C. Diariamente foram realizadas observações e medições morfométricas. As larvas eclodiram com 3,02 ± 0,34 mm (média ± desvio padrão) de comprimento total (CT); sem pigmentação e com 0,06 ± 0,02 mm³ de reserva vitelínica. O período larval vitelino estendeu-se durante as primeiras 26 horas pós-eclosão (hpe) e durante este período teve início o processo de pigmentação dos olhos, o surgimento do tubo digestório, abertura anal e os animais passaram a apresentar movimentação constante. Com o inflamento da bexiga natatória tem início o estágio de pré-flexão, que se estendeu por até 230 hpe. Durante este estágio, foi observada a transição entre a alimentação endógena e a exógena, sendo a reserva vitelínica totalmente absorvida após 74 hpe (com os animais atingindo 4,17 ± 0,36 mm de CT) e em até 86 hpe foi possível observar a primeira alimentação no trato digestório. Após esse período, teve início o estágio de flexão da parte final da notocorda e da estruturação da nadadeira caudal (11 e 13 dias após a eclosão). Por fim, no último estágio de desenvolvimento larval (pós-flexão), foi observada a segmentação completa dos raios das nadadeiras e o início do aparecimento das escamas (CT: 5,97 ± 0,65 mm). O desenvolvimento ontogenético larval de A. lacustris foi concluído após 22 dias pós-eclosão (dpe).(AU)

FoxA4 favours notochord formation by inhibiting contiguous mesodermal fates and restricts anterior neural development in Xenopus embryos.

In vertebrates, the embryonic dorsal midline is a crucial signalling centre that patterns the surrounding tissues during development. Members of the FoxA subfamily of transcription factors are expressed in the structures that compose this centre. Foxa2 is essential for dorsal midline development in mammals, since knock-out mouse embryos lack a definitive node, notochord and floor plate. The related gene foxA4 is only present in amphibians. Expression begins in the blastula -chordin and -noggin expressing centre (BCNE) and is later restricted to the dorsal midline derivatives of the Spemann's organiser. It was suggested that the early functions of mammalian foxa2 are carried out by foxA4 in frogs, but functional experiments were needed to test this hypothesis. Here, we show that some important dorsal midline functions of mammalian foxa2 are exerted by foxA4 in Xenopus. We provide new evidence that the latter prevents the respecification of dorsal midline precursors towards contiguous fates, inhibiting prechordal and paraxial mesoderm development in favour of the notochord. In addition, we show that foxA4 is required for the correct regionalisation and maintenance of the central nervous system. FoxA4 participates in constraining the prospective rostral forebrain territory during neural specification and is necessary for the correct segregation of the most anterior ectodermal derivatives, such as the cement gland and the pituitary anlagen. Moreover, the early expression of foxA4 in the BCNE (which contains precursors of the whole forebrain and most of the midbrain and hindbrain) is directly required to restrict anterior neural development.

Variation in the schedules of somite and neural development in frogs.

The timing of notochord, somite, and neural development was analyzed in the embryos of six different frog species, which have been divided into two groups, according to their developmental speed. Rapid developing species investigated were Xenopus laevis (Pipidae), Engystomops coloradorum, and Engystomops randi (Leiuperidae). The slow developers were Epipedobates machalilla and Epipedobates tricolor (Dendrobatidae) and Gastrotheca riobambae (Hemiphractidae). Blastopore closure, notochord formation, somite development, neural tube closure, and the formation of cranial neural crest cell-streams were detected by light and scanning electron microscopy and by immuno-histochemical detection of somite and neural crest marker proteins. The data were analyzed using event pairing to determine common developmental aspects and their relationship to life-history traits. In embryos of rapidly developing frogs, elongation of the notochord occurred earlier relative to the time point of blastopore closure in comparison with slowly developing species. The development of cranial neural crest cell-streams relative to somite formation is accelerated in rapidly developing frogs, and it is delayed in slowly developing frogs. The timing of neural tube closure seemed to be temporally uncoupled with somite formation. We propose that these changes are achieved through differential timing of developmental modules that begin with the elongation of the notochord during gastrulation in the rapidly developing species. The differences might be related to the necessity of developing a free-living tadpole quickly in rapid developers.

RGMa and RGMb expression pattern during chicken development suggest unexpected roles for these repulsive guidance molecules in notochord formation, somitogenesis, and myogenesis.

BACKGROUND: Repulsive guidance molecules (RGM) are high-affinity ligands for the Netrin receptor Neogenin, and they are crucial for nervous system development including neural tube closure; neuronal and neural crest cell differentiation and axon guidance. Recent studies implicated RGM molecules in bone morphogenetic protein signaling, which regulates a variety of developmental processes. Moreover, a role for RGMc in iron metabolism has been established. This suggests that RGM molecules may play important roles in non-neural tissues. RESULTS: To explore which tissues and processed may be regulated by RGM molecules, we systematically investigated the expression of RGMa and RGMb, the only RGM molecules currently known for avians, in the chicken embryo. CONCLUSIONS: Our study suggests so far unknown roles of RGM molecules in notochord, somite and skeletal muscle development.

Muscle development and differentiation in the urodele Ambystoma mexicanum.

Muscle differentiation has been widely described in zebrafish and Xenopus, but nothing is known about this process in amphibian urodeles. Both anatomical features and locomotor activity in urodeles are known to show intermediate features between fish and anurans. Therefore, a better understanding of myogenesis in urodeles could be useful to clarify the evolutionary changes that led to the formation of skeletal muscle in the trunk of land vertebrates. We report here a detailed morphological and molecular investigation on several embryonic stages of Ambystoma mexicanum and show that the first differentiating muscle fibers are the slow ones, originating from a myoblast population initially localized close to the notochord that forms a superficial layer on the somitic surface afterwards. Subsequently, fast fibers differentiation ensues. We also identified and cloned A. mexicanum Myf5 as a muscle-specific transcriptional factor likely involved in urodele muscle differentiation.

Acesso endoscópico endonasal para cordomas do clivus: relato de caso e revisão da literatura / Endoscopic endonasal approach for clival chordomas – case report and review of literature

Cordomas do clivo são lesões agressivas que se originam de remanescentes da notocorda primitiva, apresentando diagnostico e conduta desafiadoras. A ressecção radical da lesão tem sido recomendada para melhor prognóstico e o tratamento cirúrgico constitui desafio ao neurocirurgião. Vias de acesso transbasal, orbitozigomática, subtemporal, transcondilar, transmaxilar, e transesfenoidal extendida tem sido opções no tratamento cirúrgico. Relatamos caso de cordoma de clivus tratado por via endoscópica endonasal transesfenoidal.

Comparison of Lim1 expression in embryos of frogs with different modes of reproduction.

A polyclonal antibody was used to detect the expression of the homeodomain protein Lim1 (Lhx1) in embryos of Xenopus laevis, Engystomops randi, Colostethus machalilla and Gastrotheca riobambae. These frogs belong to four separate families, and have differences in their modes of reproduction and developmental rates. The expression of Lim1 in embryos of these frogs resembled the X. laevis expression pattern. Thus, the dorsal blastopore lip, axial mesoderm, pronephros and certain cells of the central nervous system were Lim1-positive in embryos of all frogs. There were, however, time differences; thus, in the mid-gastrula of the rapidly developing embryos of X. laevis and E. randi, the Lim1 protein was simultaneously detected in the prechordal plate (head organizer) and notochord (trunk organizer). In contrast, only the prechordal plate was Lim1-positive during gastrulation in the slow developing embryos of C. machalilla. The notochord elongated and became Lim1-positive after closure of the blastopore in C. machalilla and G. riobambae embryos. The prechordal plate of G. riobambae embryos could not be clearly detected, as the Lim1-signal remained around the blastopore during gastrulation. These observations indicate that the timing of gene expression at the dorsal blastopore lip in embryos of slow developing frogs differs from that of X. laevis. Moreover, the comparison shows that the developmental processes of the head and trunk organizers are basically separable and become dissociated in embryos of the slow developing frog, C. machalilla.

Un caso raro de malformación del tubo neural: síndrome de hendidura notocordal / A rare case of neural tube defect: split notochord syndrome

Se trata de una embarazada de 33 años de edad, II gesta, I para, con 27 semanas de gestación, referida con el diagnóstico de ascitis fetal. Al estudio ecosonográfico se encuentra polihidramnios, abdomen fetal distendido ocupado por una gran masa líquida que inicialmente impresiona como ascitis fetal, además se encuentra intestino ecogénico compatible con peritonitis meconial y polimicrogiria. En una posterior evaluación ultrasonográfico se observa defecto en columna vertebral a nivel del sacro de donde emerge una imagen anecogénica equivalente a la conocida "espina bífida anterior" corroborándose restos de hallazgos ecográficos anteriores. A las 33 semanas de gestación se realiza cesárea extrayéndose recién nacido vivo, masculino, 2820 g y 45 cm de talla, con puntuación de Apgar de 6 y 7 al 1 y 5 minuto de vida respectivamente. Presentó síndrome de distrés respiratorio transitorio y sintomatología de obstrucción intestinal, la cual fue resuelta quirúrgicamente. Atresia intestinal y se confirma el síndrome de hendidura notocordal. El recién nacido falleció por sepsis. No se realizó autopsia. Los hallazgos ultrasonográficos dependen del tipo de lesión, pero frecuentemente se reportan como quistes abdomino-torácicos, mielo-meningocele y espina bífida. El pronóstico generalmente es ominoso, pero dependerá de la extensión de las lesiones y anomalías asociadas

A 33 years old woman, gravida II, para I, was referred at 27 weeks gestation with the diagnosis of fetal ascites. Ultrasound report showed, polyhydramnios, fetal abdomen distended occupied by a large liquid mass initially impressed as fetal ascites, echogenic bowel is also consistent with meconium peritonitis and polymicrogiria. In a subsequent ultrasonography was observed column defect on the sacrum where emerges a cystic mass equivalent to the known "anterior spina bifida", others previous ultrasound findings were confirmed. Cesarean section was performed at 33 weeks gestation, obtaining male live newborn, 2820 g and 45 cm in length, with Apgar score of 6 y 7 at 1 and 5 minutes, respectively. The newborn presented transient distress respiratory syndrome and symptoms of intestinal obstruction which was resolved surgically. Intestinal atresia, and confirming the split notochord syndrome. The newborn died of sepsis. No autopsy was performed. The ultrasound findings depend on the form of the lesion, but often are abdomino-thoracic cysts, myelomeningocele and spina bifida. The prognosis is usually ominous, but depends on the extent of the lesions and associated anomalies

Developmental expression of prion protein and its ligands stress-inducible protein 1 and vitronectin.

Prion protein (PrP(C)) is the normal isoform of PrP(Sc), a protein involved in neurodegenerative disorders. PrP(C) participates in neuritogenesis, neuroprotection, and memory consolidation through its interaction with the secreted protein stress-inducible protein 1 (STI1) and the extracellular matrix protein vitronectin (Vn). Although PrP(C) mRNA expression has been documented during embryogenesis, its protein expression patterns have not been evaluated. Furthermore, little is known about either Vn or STI protein expression. In this study, PrP(C), STI1, and Vn protein expression was explored throughout mouse embryonic life. We found that the distributions of the three proteins were spatiotemporally related. STI1 and Vn expression became evident at E8, earlier than PrP(C), in the nervous system and heart. At E10, we observed, in the spinal cord, a gradient of expression of the three proteins, more abundant in the notochord and floor plate, suggesting that they can have a role in axonal growth. As development proceeded, the three proteins were detected in other organs, suggesting that they may play a role in the development of nonneural tissues as well. Finally, although STI1 and Vn are PrP(C) ligands, their expression was not altered in PrP(C)-null mice.

A comparative analysis of frog early development.

The current understanding of Xenopus laevis development provides a comparative background for the analysis of frog developmental modes. Our analysis of development in various frogs reveals that the mode of gastrulation is associated with developmental rate and is unrelated to egg size. In the gastrula of the rapidly developing embryos of the foam-nesting frogs Engystomops coloradorum and Engystomops randi, archenteron and notochord elongation overlapped with involution at the blastopore lip, as in X. laevis embryos. In embryos of dendrobatid frogs and in the frog without tadpoles Eleutherodactylus coqui, which develop somewhat more slowly than X. laevis, involution and archenteron elongation concomitantly occurred during gastrulation; whereas elongation of the notochord and, therefore, dorsal convergence and extension, occurred in the postgastrula. In contrast, in the slow developing embryos of the marsupial frog Gastrotheca riobambae, only involution occurred during gastrulation. The processes of archenteron and notochord elongation and convergence and extension were postgastrulation events. We produced an Ab against the homeodomain protein Lim1 from X. laevis as a tool for the comparative analysis of development. By the expression of Lim1, we were able to identify the dorsal side of the G. riobambae early gastrula, which otherwise was difficult to detect. Moreover, the Lim1 expression in the dorsal lip of the blastopore and notochord differed among the studied frogs, indicating variation in the timing of developmental events. The variation encountered gives evidence of the modular character of frog gastrulation.

Gastrulation of Gastrotheca riobambae in comparison with other frogs.

Blastopore formation, the embryonic disk, archenteron and notochord elongation, and Brachyury expression in the marsupial frog Gastrotheca riobambae was compared with embryos of Xenopus laevis and of the dendrobatids Colostethus machalilla and Epipedobates anthonyi. In contrast with X. laevis embryos, the blastopore closes before elongation of the archenteron and notochord in the embryos of G. riobambae and of the dendrobatid frogs. Moreover, the circumblastoporal collar (CBC) thickens due to the accumulation of involuted cells. An embryonic disk, however, is formed only in the G. riobambae gastrula. We differentiate three gastrulation patterns according to the speed of development: In X. laevis, elongation of the archenteron and notochord begin in the early to mid gastrula, whereas in the dendrobatids C. machalilla and E. anthonyi the archenteron elongates at mid gastrula and the notochord elongates after gastrulation. In G. riobambae, only involution takes place during gastrulation. Archenteron and notochord elongation occur in the post gastrula. In the non-aquatic reproducing frogs, the margin of the archenteron expands anisotropically, resulting in an apparent displacement of the CBC from a medial to a posterior location, resembling the displacement of Hensen's node in the chick and mouse. The differences detected indicate that amphibian gastrulation is modular.