Your search keyword '"Ptychodera Flava"' showing total 31 results

1. Reiterative use of FGF signaling in mesoderm development during embryogenesis and metamorphosis in the hemichordate Ptychodera flava

Author

Tzu-Pei Fan, Hsiu-Chi Ting, Jr-Kai Yu, and Yi-Hsien Su

Subjects

FGF, Mesoderm, Ptychodera flava, Hemichordate, Metamorphosis, Evolution, QH359-425

Abstract

Abstract Background Mesoderm is generally considered to be a germ layer that is unique to Bilateria, and it develops into diverse tissues, including muscle, and in the case of vertebrates, the skeleton and notochord. Studies on various deuterostome animals have demonstrated that fibroblast growth factor (FGF) signaling is required for the formation of many mesodermal structures, such as vertebrate somites, from which muscles are differentiated, and muscles in sea urchin embryos, suggesting an ancient role of FGF signaling in muscle development. However, the formation of trunk muscles in invertebrate chordates is FGF-independent, leading to ambiguity about this ancient role in deuterostomes. To further understand the role of FGF signaling during deuterostome evolution, we investigated the development of mesodermal structures during embryogenesis and metamorphosis in Ptychodera flava, an indirect-developing hemichordate that has larval morphology similar to echinoderms and adult body features that are similar to chordates. Results Here we show that genes encoding FGF ligands, FGF receptors and transcription factors that are known to be involved in mesoderm formation and myogenesis are expressed dynamically during embryogenesis and metamorphosis. FGF signaling at the early gastrula stage is required for the specification of the mesodermal cell fate in P. flava. The mesoderm cells are then differentiated stepwise into the hydroporic canal, the pharyngeal muscle and the muscle string; formation of the last two muscular structures are controlled by FGF signaling. Moreover, augmentation of FGF signaling during metamorphosis accelerated the process, facilitating the transformation from cilia-driven swimming larvae into muscle-driven worm-like juveniles. Conclusions Our data show that FGF signaling is required for mesoderm induction and myogenesis in the P. flava embryo, and it is reiteratively used for the morphological transition during metamorphosis. The dependence of muscle development on FGF signaling in both planktonic larvae and sand-burrowing worms supports its ancestral role in deuterostomes.

Published

2018

2. Regeneration in the enteropneust hemichordate, Ptychodera flava, and its evolutionary implications.

Author

Arimoto, Asuka and Tagawa, Kuni

Subjects

*ENTEROPNEUSTA, *PTYCHODERA flava, *REGENERATION (Biology), *BIOLOGICAL evolution, *BIOINFORMATICS, *ANIMAL morphology

Abstract

Hemichordates are marine invertebrates that are closely related to chordates, but while their body plans are comparable to those of chordates, they possess a remarkable capacity for regeneration, even as adults. A small fragment is sufficient to form a complete individual. Unlike echinoderms, their larvae transform directly into adults; therefore, hemichordate systems offer clear morphological and molecular parallels between regeneration and development. Morphological events in regeneration are generally similar to organogenesis in juveniles. Nonetheless, comparative analysis of gene expression in these two morphological phenomena suggests that hemichordate regeneration is regulated by regeneration‐specific mechanisms, as well as by developmental mechanisms. Dependency upon resident pluripotent/multipotent stem cells is a significant difference in metazoan regeneration, and such stem cells are essential for regeneration in many lineages. Based on the present gene expression study, regeneration in acorn worms is more closely related to that in vertebrates, because it employs endogenous stem cell‐independent transdifferentiation. [ABSTRACT FROM AUTHOR]

Published

2018

3. Head regeneration in hemichordates is not a strict recapitulation of development.

Author

Luttrell, Shawn M., Gotting, Kirsten, Ross, Eric, Alvarado, Alejandro Sánchez, and Swalla, Billie J.

Abstract

Background: Head or anterior body part regeneration is commonly associated with protostome, but not deuterostome invertebrates. However, it has been shown that the solitary hemichordate Ptychodera flava possesses the remarkable capacity to regenerate their entire nervous system, including their dorsal neural tube and their anterior head-like structure, or proboscis. Hemichordates, also known as acorn worms, are marine invertebrate deuterostomes that have retained chordate traits that were likely present in the deuterostome ancestor, placing these animals in a vital position to study regeneration and chordate evolution. All acorn worms have a tripartite body plan, with an anterior proboscis, middle collar region, and a posterior trunk. The collar houses a hollow, dorsal neural tube in ptychoderid hemichordates and numerous chordate genes involved in brain and spinal cord development are expressed in a similar anterior-posterior spatial arrangement along the body axis. Results: We have examined anterior regeneration in the hemichordate Ptychodera flava and report the spatial and temporal morphological changes that occur. Additionally, we have sequenced, assembled, and analyzed the transcriptome for eight stages of regenerating P. flava, revealing significant differential gene expression between regenerating and control animals. Conclusions: Importantly, we have uncovered developmental steps that are regeneration-specific and do not strictly follow the embryonic program. Developmental Dynamics 245:1159-1175, 2016. © 2016 The Authors. Developmental Dynamics published by Wiley Periodicals, Inc. on behalf of American Association of Anatomists [ABSTRACT FROM AUTHOR]

Published

2016

4. Reproductive periodicity, spawning induction, and larval metamorphosis of the hemichordate acorn worm Ptychodera flava.

Author

Lin, Ching‐Yi, Tung, Che‐Huang, Yu, Jr‐Kai, and Su, Yi‐Hsien

Subjects

ENTEROPNEUSTA, PTYCHODERA flava, SPAWNING, METAMORPHOSIS, INVERTEBRATE reproduction, INVERTEBRATE evolution

Abstract

ABSTRACT The indirect-developing enteropneust acorn worm Ptychodera flava has been used as a hemichordate model system for studying the developmental evolution of deuterostome body plans and the origins of chordate characteristics. However, research progress has been hindered by the limited accessibility of its embryonic materials and metamorphosing larvae. In this study, we identified an abundant population of P. flava in Penghu, Taiwan, and examined the feasibility of using this animal for developmental studies. Through histological examination, we established that the reproductive season of this population is between September and December, with a peak breeding period in October and November. In addition, we have developed new procedures that can induce P. flava spawning at any time of the day during the breeding season, with a higher successful rate than that achieved using a previously published method. Moreover, the culturing system we developed enables rearing of P. flava larvae through various planktonic stages and eventual metamorphosis into benthic juveniles, all under laboratory conditions. We anticipate that the animal resources and new technical procedures reported here will further facilitate the use of P. flava as a model organism for evolutionary and developmental biology research. J. Exp. Zool. (Mol. Dev. Evol.) 326B:47-60, 2016. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2016

5. FGF signaling repertoire of the indirect developing hemichordate Ptychodera flava.

Author

Fan, Tzu-Pei and Su, Yi-Hsien

Abstract

Fibroblast growth factors (FGFs) are a group of ligands that play multiple roles during development by transducing signals through FGF receptors (FGFRs) to downstream factors. At least 22 FGF ligands and 4 receptors have been identified in vertebrates, while six to eight FGF ligands and a single FGFR are present in invertebrate chordates, such as tunicates and amphioxus. The chordate FGFs can be categorized into at least seven subfamilies, and the members of which expanded during the evolution of early vertebrates. In contrast, only one FGF and two FGFRs have been found in sea urchins. Thus, it is unclear whether the FGF subfamilies duplicated in the lineage leading to the chordates, or sea urchins lost several fgf genes. Analyses of the FGF signaling repertoire in hemichordates, which together with echinoderms form the closest group to the chordates, may provide insights into the evolution of FGF signaling in deuterostomes. In this study, we identified five FGFs and three FGFRs from Ptychodera flava , an indirect-developing hemichordate acorn worm. Phylogenetic analyses revealed that hemichordates possess a conserved FGF8/17/18 in addition to several putative hemichordate-specific FGFs. Analyses of sequence similarity and protein domain organizations suggested that the sea urchin and hemichordate FGFRs arose from independent lineage-specific duplications. Furthermore, the acorn worm fgf and fgfr genes were demonstrated to be expressed during P. flava embryogenesis. These results set the foundations for further functional studies of FGF signaling in hemichordates and provided insights into the evolutionary history of the FGF repertoire. [ABSTRACT FROM AUTHOR]

Published

2015

6. A New Copepod With Transformed Body Plan and Unique Phylogenetic Position Parasitic in the Acorn Worm Ptychodera flava.

Author

Tung, Che-Huang, Cheng, Yu-Rong, Lin, Ching-Yi, Ho, Ju-Shey, Kuo, Chih-Horng, Yu, Jr-Kai, and Su, Yi-Hsien

Subjects

*COPEPODA, *ENTEROPNEUSTA, *PTYCHODERA flava, *BIOLOGICAL evolution, *PARASITES

Abstract

Symbiotic copepods compose one-third of the known copepod species and are associated with a wide range of animal groups. Two parasitic copepods endoparasitic in acorn worms (Hemichordata), Ive balanoglossi and Ubius hilli, collected in the Mediterranean Sea and Australian waters, respectively, were described a century ago. Here we report a new parasitic copepod species, Ive ptychoderae sp. nov., found in Ptychodera flava, a widespread acorn worm in the Indo-Pacific Ocean and an emerging organism for developmental and evolutionary studies. The female of I. ptychoderae is characterized by having a reduced maxilliped and five pairs of annular swellings along the body that are morphologically similar but distinguishable from those in the two previously described parasitic copepods in acorn worms. Phylogenetic analysis based on the 18S rDNA sequence shows that I. ptychoderae may belong to Poecilostomatoida but represent a new family, which we name Iveidae fam. nov. Ive ptychoderae is commonly found in the acorn worm population with an average prevalence of 42% during the collecting period. The infection of the parasite induces the formation of cysts and causes localized lesions of the host tissues, suggesting that it may have negative effects on its host. Interestingly, most cysts contain a single female with one or multiple male copepods, suggesting that their sex determination may be controlled by environmental conditions. The relationships between the parasitic copepods and acorn worms thus provide a platform for understanding physiological and ecological influences and coevolution between parasites and hosts. [ABSTRACT FROM AUTHOR]

Published

2014

7. Hedgehog Expression During Development and Regeneration in the Hemichordate, Ptychodera flava.

Author

Arimoto, Asuka and Tagawa, Kuni

Abstract

Hedgehog is a toolkit gene conserved in metazoans. However, its function differs among taxa, and it shows versatile expression patterns in morphogenesis. We analyzed the expression pattern of hedgehog in the indirect development of the hemichordate, Ptychodera flava, during development and regeneration. Pf-Hh showed distinct enteropneust-specific expression at the anterior tip of the larvae, as well as deuterostome-conserved expression in the pharyngeal endoderm. In contrast, the gene is expressed only in the pharyngeal region during anterior regeneration, but not in the anterior tip of the proboscis. These data suggest that anterior regeneration is driven not only by conserved developmental mechanisms, but also by some regeneration-specific mechanism(s). [ABSTRACT FROM AUTHOR]

Published

2015

8. Identification of an intact ParaHox cluster with temporal colinearity but altered spatial colinearity in the hemichordate Ptychodera flava.

Author

Tetsuro Ikuta, Yi-Chih Chen, Annunziata, Rossella, Hsiu-Chi Ting, Che-huang Tung, Ryo Koyanagi, Kunifumi Tagawa, Humphreys, Tom, Fujiyama, Asao, Saiga, Hidetoshi, Satoh, Nori, Jr-Kai Yu, Arnone, Maria Ina, and Yi-Hsien Su

Subjects

*PTYCHODERA flava, *METAMORPHOSIS, *HEREDITY, *GENES, *DNA

Abstract

Background: ParaHox and Hox genes are thought to have evolved from a common ancestral ProtoHox cluster or from tandem duplication prior to the divergence of cnidarians and bilaterians. Similar to Hox clusters, chordate ParaHox genes including Gsx, Xlox, and Cdx, are clustered and their expression exhibits temporal and spatial colinearity. In non-chordate animals, however, studies on the genomic organization of ParaHox genes are limited to only a few animal taxa. Hemichordates, such as the Enteropneust acorn worms, have been used to gain insights into the origins of chordate characters. In this study, we investigated the genomic organization and expression of ParaHox genes in the indirect developing hemichordate acorn worm Ptychodera flava. Results: We found that P. flava contains an intact ParaHox cluster with a similar arrangement to that of chordates. The temporal expression order of the P. flava ParaHox genes is the same as that of the chordate ParaHox genes. During embryogenesis, the spatial expression pattern of PfCdx in the posterior endoderm represents a conserved feature similar to the expression of its orthologs in other animals. On the other hand, PfXlox and PfGsx show a novel expression pattern in the blastopore. Nevertheless, during metamorphosis, PfXlox and PfCdx are expressed in the endoderm in a spatially staggered pattern similar to the situation in chordates. Conclusions: Our study shows that P. flava ParaHox genes, despite forming an intact cluster, exhibit temporal colinearity but lose spatial colinearity during embryogenesis. During metamorphosis, partial spatial colinearity is retained in the transforming larva. These results strongly suggest that intact ParaHox gene clustering was retained in the deuterostome ancestor and is correlated with temporal colinearity. [ABSTRACT FROM AUTHOR]

Published

2013

9. Identical Genomic Organization of Two Hemichordate Hox Clusters

Author

Freeman, Robert, Ikuta, Tetsuro, Wu, Michael, Koyanagi, Ryo, Kawashima, Takeshi, Tagawa, Kunifumi, Humphreys, Tom, Fang, Guang-Chen, Fujiyama, Asao, Saiga, Hidetoshi, Lowe, Christopher, Worley, Kim, Jenkins, Jerry, Schmutz, Jeremy, Kirschner, Marc, Rokhsar, Daniel, Satoh, Nori, and Gerhart, John

Subjects

*GENOMICS, *HEMICHORDATA, *HOMEOBOX genes, *STRONGYLOCENTROTUS purpuratus, *PTYCHODERA flava, *AMPHIOXUS, *GENE regulatory networks

Abstract

Summary: Genomic comparisons of chordates, hemichordates, and echinoderms can inform hypotheses for the evolution of these strikingly different phyla from the last common deuterostome ancestor [1–5]. Because hox genes play pivotal developmental roles in bilaterian animals [6–8], we analyzed the Hox complexes of two hemichordate genomes. We find that Saccoglossus kowalevskii and Ptychodera flava both possess 12-gene clusters, with mir10 between hox4 and hox5, in 550 kb and 452 kb intervals, respectively. Genes hox1–hox9/10 of the clusters are in the same genomic order and transcriptional orientation as their orthologs in chordates, with hox1 at the 3′ end of the cluster. At the 5′ end, each cluster contains three posterior genes specific to Ambulacraria (the hemichordate-echinoderm clade), two forming an inverted terminal pair. In contrast, the echinoderm Strongylocentrotus purpuratus contains a 588 kb cluster [9] of 11 orthologs of the hemichordate genes, ordered differently, plausibly reflecting rearrangements of an ancestral hemichordate-like ambulacrarian cluster. Hox clusters of vertebrates and the basal chordate amphioxus [10] have similar organization to the hemichordate cluster, but with different posterior genes. These results provide genomic evidence for a well-ordered complex in the deuterostome ancestor for the hox1–hox9/10 region, with the number and kind of posterior genes still to be elucidated. [Copyright &y& Elsevier]

Published

2012

10. Isolation of brominated quinones showing chemiluminescence activity from luminous acorn worm, Ptychodera flava

Author

Kanakubo, Akira and Isobe, Minoru

Subjects

*HYDROGEN peroxide, *LUMINESCENCE, *AROMATIC compounds, *BONES

Abstract

Abstract: Luminous acorn worm, Ptychodera flava emits green light by stimulating with diluted hydrogen peroxide. We have recently reported isolation and structure determination of 2,3,5,6-tetrabromohydroquinone as a luminous substance and riboflavin as a possible light emitter. There are three other luminous substances in the extracts from P. flava, so here we report the isolation and structure determination of other luminous substances as 2,3,5-tribromohydroquinone, tetrabromo-1,4-benzoquinone, and 2,3,5-tribromo-6-(2,3,5-tribromo-4-hydroxy-phenoxy)-benzene-1,4-diol. Besides, this is the first report of isolation of tetrabromo-1,4-benzoquinone from acorn worm. Structure–activity relationship of chemiluminescence activity of halogenated quinone derivatives reveals that a highly halogen substitution and 1,4-quinone skeleton are important for high chemiluminescence activity. [Copyright &y& Elsevier]

Published

2005

11. A cDNA Resource for Gene Expression Studies of a Hemichordate, Ptychodera flava.

Author

Tagawa, Kuni, Arimito, Asuka, Sasaki, Akane, Izumi, Mizuki, Fujita, Satoko, Humphreys, Tom, Fujiyama, Asao, Kagoshima, Hiroshi, Shin-I, Tadasu, Kohara, Yuji, Satoh, Nori, and Kawashima, Takeshi

Abstract

Recent investigations into the evolution of deuterostomes and the origin of chordates have paid considerable attention to hemichordates (acorn worms), as hemichordates and echinoderms are the closest chordate relatives. The present study prepared cDNA libraries from Ptychodera flava, to study expression and function of genes involved in development of the hemichordate body plan. Expressed sequence tag (EST) analyses of nine cDNA libraries yielded 18,832 cloned genes expressed in eggs, 18,739 in blastulae, 18,539 in gastrulae, 18,811 in larvae, 18,978 in juveniles, 11,802 in adult proboscis, 17,259 in stomochord, 11,886 in gills, and 11,580 in liver, respectively. A set of 34,159 uni-gene clones of P. flava was obtained. This cDNA resource will be valuable for studying temporal and spatial expression of acorn worm genes during development. [ABSTRACT FROM AUTHOR]

Published

2014

12. Head regeneration in hemichordates is not a strict recapitulation of development

Author

Eric D. Ross, Kirsten Gotting, Alejandro Sánchez Alvarado, Shawn M. Luttrell, and Billie J. Swalla

Subjects

0301 basic medicine, Nervous system, Stem Cells in Development, Disease & Repair Special Issue Research Article, Chordate, Hemichordate, 03 medical and health sciences, hemichordate, 0302 clinical medicine, medicine, Animals, deuterostome, Chordata, Ptychodera flava, Phylogeny, Research Articles, Deuterostome, biology, Proboscis, Neural tube, Anatomy, biology.organism_classification, Biological Evolution, 030104 developmental biology, medicine.anatomical_structure, Body plan, regeneration, Protostome, transcriptome, 030217 neurology & neurosurgery, Research Article, Developmental Biology

Abstract

Background: Head or anterior body part regeneration is commonly associated with protostome, but not deuterostome invertebrates. However, it has been shown that the solitary hemichordate Ptychodera flava possesses the remarkable capacity to regenerate their entire nervous system, including their dorsal neural tube and their anterior head‐like structure, or proboscis. Hemichordates, also known as acorn worms, are marine invertebrate deuterostomes that have retained chordate traits that were likely present in the deuterostome ancestor, placing these animals in a vital position to study regeneration and chordate evolution. All acorn worms have a tripartite body plan, with an anterior proboscis, middle collar region, and a posterior trunk. The collar houses a hollow, dorsal neural tube in ptychoderid hemichordates and numerous chordate genes involved in brain and spinal cord development are expressed in a similar anterior–posterior spatial arrangement along the body axis. Results: We have examined anterior regeneration in the hemichordate Ptychodera flava and report the spatial and temporal morphological changes that occur. Additionally, we have sequenced, assembled, and analyzed the transcriptome for eight stages of regenerating P. flava, revealing significant differential gene expression between regenerating and control animals. Conclusions: Importantly, we have uncovered developmental steps that are regeneration‐specific and do not strictly follow the embryonic program. Developmental Dynamics 245:1159–1175, 2016. © 2016 The Authors. Developmental Dynamics published by Wiley Periodicals, Inc. on behalf of American Association of Anatomists, Key findings We describe internal and external regeneration morphology from day 1 through day 15 of anterior regeneration.We detail the transcriptome for eight stages of anterior regeneration describing hundreds of putative genes.Anterior regeneration does not strictly follow the embryonic program.There is temporal plasticity during regeneration, as well as different modes of acquiring the same anterior structures.

Published

2016

13. Reiterative use of FGF signaling in mesoderm development during embryogenesis and metamorphosis in the hemichordate Ptychodera flava

Author

Fan, Tzu-Pei, Ting, Hsiu-Chi, Yu, Jr-Kai, and Su, Yi-Hsien

Published

2018

14. Ciliary feeding of tornaria larvae of Ptychodera flava (Hemichordata: Enteropneusta).

Author

Strathmann, R. and Bonar, D.

Subjects

PTYCHODERA flava, PLANKTON, MARINE plankton, AQUATIC biology, HEMICHORDATA

Abstract

Ciliary feeding by tornariae of Ptychodera flava (Eschholtz) and other tornariae from the plankton is compared with Garstang's (1939) account of feeding by these larvae, which account contains errors, and with ciliary feeding by echinoderm larvae. Some details of ciliation are also described. As in echinoderm larvae, band cilia beat away from the food grooves and retain particles on the upstream side of the ciliated band, but tornariae use muscles less in ingestion and rejection. In early-stage and most late-stage echinoderm larvae, the ciliated band functions in both swimming and feeding, but in tornariae the ciliated band is arranged meridionally so that few portions of the ciliated band produce a posteriorly-directed current and a locomotory teletroch is needed for swimming. Faster-swimming tornariae observed in bowls achieved higher ingestion and clearance rates. These observations raise questions about form and function in the giant Planctosphaera pelagica. Cilia of the locomotory telotroch increase in length as tornariae increase in size, but there is little increase in length of cilia which capture food. Instead, the length of the ciliated band increases relative to other larval tissues by means of increasing convolution of the band. Hence, the volume of water processed for food probably increases relative to energy expended by larvae during development to the tentaculate stage. However, the length of the ciliated band may decrease relative to other larval surfaces with continued increase in size beyond this stage. These interpretations of growth and feeding efficiency are consistent with the reported geographic distribution of tornariae with and without tentacles. [ABSTRACT FROM AUTHOR]

Published

1976

15. Modified continuous flow respirometer to measure the effect of tannery effluents on the respiration of earthworms.

Author

Joseph, Josephine, Ismail, Sultan, and Sharief, S.

Subjects

RESPIROMETERS, SEWAGE & the environment, EARTHWORMS, RESPIRATORY measurements, OXYGEN consumption, PTYCHODERA flava

Abstract

The article presents a study on continuous flow respirometer to evaluate tannery effluent effects on the earthworms respiration. It states that the Lampito mauritii Kinberg has been used as the test organism of the study and the flow system as used to determine the oxygen consumption of Ptychodera flava. Result shows that there was a reduction in the oxygen consumption of L. mauritii by 48 percent and the mortality rate of earthworms depend on the concentrations of affluent.

Published

1992

16. Effect of the epidermal secretions of Hemichordate, Ptychodera flava on growth of Amphora coffeaeformis and Cyclotella meneghiniana (Diatoms).

Author

Azariah, Jayapaul, Rao, V, and Sridharan, V

Abstract

The effect of epidermal secretions of Ptychodera flava collected during nonbreeding and breeding seasons on growth of two diatoms Amphora coffeaeformis and Cyclotella meneghiniana is studied. Differential effect of the secretions on growth rate of the diatoms indicates differences in their potency. Low concentrations tend to stimulate growth. The ecological significance of the secretions has been briefly commented upon. [ABSTRACT FROM AUTHOR]

Published

1978

17. Reiterative use of FGF signaling in mesoderm development during embryogenesis and metamorphosis in the hemichordate Ptychodera flava

Author

Yi-Hsien Su, Tzu-Pei Fan, Hsiu-Chi Ting, and Jr-Kai Yu

Subjects

0301 basic medicine, Mesoderm, animal structures, Evolution, Muscle Fibers, Skeletal, Embryonic Development, Germ layer, Ligands, Muscle Development, Fibroblast growth factor, 03 medical and health sciences, 0302 clinical medicine, Notochord, QH359-425, medicine, Animals, FGF, Chordata, Ptychodera flava, Ecology, Evolution, Behavior and Systematics, Deuterostome, Metamorphosis, biology, Myogenesis, Metamorphosis, Biological, Gene Expression Regulation, Developmental, biology.organism_classification, Receptors, Fibroblast Growth Factor, Hemichordate, Cell biology, Fibroblast Growth Factors, Gastrulation, 030104 developmental biology, medicine.anatomical_structure, Larva, embryonic structures, Mesoderm formation, 030217 neurology & neurosurgery, Signal Transduction, Transcription Factors, Research Article

Abstract

Background Mesoderm is generally considered to be a germ layer that is unique to Bilateria, and it develops into diverse tissues, including muscle, and in the case of vertebrates, the skeleton and notochord. Studies on various deuterostome animals have demonstrated that fibroblast growth factor (FGF) signaling is required for the formation of many mesodermal structures, such as vertebrate somites, from which muscles are differentiated, and muscles in sea urchin embryos, suggesting an ancient role of FGF signaling in muscle development. However, the formation of trunk muscles in invertebrate chordates is FGF-independent, leading to ambiguity about this ancient role in deuterostomes. To further understand the role of FGF signaling during deuterostome evolution, we investigated the development of mesodermal structures during embryogenesis and metamorphosis in Ptychodera flava, an indirect-developing hemichordate that has larval morphology similar to echinoderms and adult body features that are similar to chordates. Results Here we show that genes encoding FGF ligands, FGF receptors and transcription factors that are known to be involved in mesoderm formation and myogenesis are expressed dynamically during embryogenesis and metamorphosis. FGF signaling at the early gastrula stage is required for the specification of the mesodermal cell fate in P. flava. The mesoderm cells are then differentiated stepwise into the hydroporic canal, the pharyngeal muscle and the muscle string; formation of the last two muscular structures are controlled by FGF signaling. Moreover, augmentation of FGF signaling during metamorphosis accelerated the process, facilitating the transformation from cilia-driven swimming larvae into muscle-driven worm-like juveniles. Conclusions Our data show that FGF signaling is required for mesoderm induction and myogenesis in the P. flava embryo, and it is reiteratively used for the morphological transition during metamorphosis. The dependence of muscle development on FGF signaling in both planktonic larvae and sand-burrowing worms supports its ancestral role in deuterostomes. Electronic supplementary material The online version of this article (10.1186/s12862-018-1235-9) contains supplementary material, which is available to authorized users.

Published

2018

18. Isolation of brominated quinones showing chemiluminescence activity from luminous acorn worm, Ptychodera flava

Author

Akira Kanakubo and Minoru Isobe

Subjects

Light emitter, Clinical Biochemistry, Pharmaceutical Science, Photochemistry, Biochemistry, law.invention, Structure-Activity Relationship, chemistry.chemical_compound, Species Specificity, Chordata, Nonvertebrate, law, Drug Discovery, Animals, Organic chemistry, Bioluminescence, Phenols, Hydrogen peroxide, Molecular Biology, Chemiluminescence, Molecular Structure, biology, Organic Chemistry, Quinones, Ptychodera flava, Bromine, biology.organism_classification, Quinone, chemistry, Luminescent Measurements, Molecular Medicine, Acorn worm

Abstract

Luminous acorn worm, Ptychodera flava emits green light by stimulating with diluted hydrogen peroxide. We have recently reported isolation and structure determination of 2,3,5,6-tetrabromohydroquinone as a luminous substance and riboflavin as a possible light emitter. There are three other luminous substances in the extracts from P. flava, so here we report the isolation and structure determination of other luminous substances as 2,3,5-tribromohydroquinone, tetrabromo-1,4-benzoquinone, and 2,3,5-tribromo-6-(2,3,5-tribromo-4-hydroxy-phenoxy)-benzene-1,4-diol. Besides, this is the first report of isolation of tetrabromo-1,4-benzoquinone from acorn worm. Structure-activity relationship of chemiluminescence activity of halogenated quinone derivatives reveals that a highly halogen substitution and 1,4-quinone skeleton are important for high chemiluminescence activity.

Published

2005

19. Identification of an intact ParaHox cluster with temporal colinearity but altered spatial colinearity in the hemichordate Ptychodera flava

Author

Hsiu-Chi Ting, Asao Fujiyama, Jr-Kai Yu, Rossella Annunziata, Nori Satoh, Maria Ina Arnone, Tom Humphreys, Yi-Hsien Su, Hidetoshi Saiga, Yi-Chih Chen, Ryo Koyanagi, Che-Huang Tung, Tetsuro Ikuta, and Kunifumi Tagawa

Subjects

Colinearity, Zoology, ParaHox, Chordate, Hemichordate, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Chordata, Nonvertebrate, medicine, Animals, Hox gene, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, Homeodomain Proteins, 0303 health sciences, Deuterostome, Genome, biology, biology.organism_classification, medicine.anatomical_structure, Ptychodera Flava, Evolutionary biology, Multigene Family, Tandem exon duplication, Acorn worm, Endoderm, 030217 neurology & neurosurgery, Research Article

Abstract

Background ParaHox and Hox genes are thought to have evolved from a common ancestral ProtoHox cluster or from tandem duplication prior to the divergence of cnidarians and bilaterians. Similar to Hox clusters, chordate ParaHox genes including Gsx, Xlox, and Cdx, are clustered and their expression exhibits temporal and spatial colinearity. In non-chordate animals, however, studies on the genomic organization of ParaHox genes are limited to only a few animal taxa. Hemichordates, such as the Enteropneust acorn worms, have been used to gain insights into the origins of chordate characters. In this study, we investigated the genomic organization and expression of ParaHox genes in the indirect developing hemichordate acorn worm Ptychodera flava. Results We found that P. flava contains an intact ParaHox cluster with a similar arrangement to that of chordates. The temporal expression order of the P. flava ParaHox genes is the same as that of the chordate ParaHox genes. During embryogenesis, the spatial expression pattern of PfCdx in the posterior endoderm represents a conserved feature similar to the expression of its orthologs in other animals. On the other hand, PfXlox and PfGsx show a novel expression pattern in the blastopore. Nevertheless, during metamorphosis, PfXlox and PfCdx are expressed in the endoderm in a spatially staggered pattern similar to the situation in chordates. Conclusions Our study shows that P. flava ParaHox genes, despite forming an intact cluster, exhibit temporal colinearity but lose spatial colinearity during embryogenesis. During metamorphosis, partial spatial colinearity is retained in the transforming larva. These results strongly suggest that intact ParaHox gene clustering was retained in the deuterostome ancestor and is correlated with temporal colinearity.

Published

2013

20. Molecular Identification of Ptychodera flava (Hemichordata: Enteropneusta): Reconsideration in Light of Nucleotide Polymorphism in the 18S Ribosomal RNA Gene.

Author

Urata M

Subjects

Animals, DNA, Ribosomal Spacer genetics, Phylogeny, Chordata, Nonvertebrate genetics, Polymorphism, Genetic, RNA, Ribosomal, 18S genetics

Abstract

Seven nuclear and mitochondrial DNA markers were examined in 12 specimens of Ptychodera flava, a model acorn worm used in molecular biology, collected in Japan from three local populations with different modes of living. A comparison of intraspecific results did not show genetically isolated populations despite the species' enclave habitats and asexual reproduction. Moreover, both the nuclear 18S ribosomal RNA gene and mitochondrial 16S ribosomal RNA gene sequences were identical to those from Moorea in French Polynesia, nearly 10,000 kilometers away from Japan. I also provide the first definitive information regarding polymorphisms in 18S ribosomal RNA gene, the external transcribed spacer (ETS), internal transcribed spacers (ITS), and mitochondrial cytochrome c oxidase subunit 1 (mtCO1) sequence in hemichordates using newly designed primer sets, and I show both high larval vagility and certain criteria for the molecular identification of this species.

Published

2015

21. Environmental studies on natural halogen compounds. I Estimation of biomass of the acorn wormPtychodera flava Eschscholtz (Hemichordata: Enteropneusta) and excretion rate of metabolites at Kattore Bay, Kohama Island, Okinawa

Author

Higa, Tatsuo and Sakemi, Shin-Ichi

Published

1983

22. Effect of the epidermal secretions of Hemichordate,Ptychodera flava on growth ofAmphora coffeaeformis andCyclotella meneghiniana (Diatoms)

Author

Azariah, Jayapaul, Rao, V N R, and Sridharan, V T

Published

1978

23. Ciliary Feeding of Tornaria Larvae of Ptychodera flava (Hemichordata: Enteropneusta)

Author

Bonar, D. and Strathmann, R.

Subjects

MARINE biology

Published

1976

24. Effect of the epidermal secretions of Hemichordate,Ptychodera flava on growth ofAmphora coffeaeformis andCyclotella meneghiniana (Diatoms)

Author

V T Sridharan, Jayapaul Azariah, and V N R Rao

Subjects

biology, Ecological significance, Botany, Cyclotella meneghiniana, Ptychodera flava, Potency, General Medicine, Amphora coffeaeformis, Hemichordate, biology.organism_classification, Volume concentration

Abstract

The effect of epidermal secretions ofPtychodera flava collected during nonbreeding and breeding seasons on growth of two diatomsAmphora coffeaeformis andCyclotella meneghiniana is studied. Differential effect of the secretions on growth rate of the diatoms indicates differences in their potency. Low concentrations tend to stimulate growth. The ecological significance of the secretions has been briefly commented upon.

Published

1978

25. Ciliary feeding of tornaria larvae of Ptychodera flava (Hemichordata: Enteropneusta)

Author

R. Strathmann and Dale B. Bonar

Subjects

Larva, Ecology, Telotroch, biology, Cilium, fungi, Ptychodera flava, Anatomy, Aquatic Science, biology.organism_classification, Geographic distribution, Echinoderm, human activities, Clearance rate, Ecology, Evolution, Behavior and Systematics, Planctosphaera

Abstract

Ciliary feeding by tornariae of Ptychodera flava (Eschholtz) and other tornariae from the plankton is compared with Garstang's (1939) account of feeding by these larvae, which account contains errors, and with ciliary feeding by echinoderm larvae. Some details of ciliation are also described. As in echinoderm larvae, band cilia beat away from the food grooves and retain particles on the upstream side of the ciliated band, but tornariae use muscles less in ingestion and rejection. In early-stage and most late-stage echinoderm larvae, the ciliated band functions in both swimming and feeding, but in tornariae the ciliated band is arranged meridionally so that few portions of the ciliated band produce a posteriorly-directed current and a locomotory teletroch is needed for swimming. Faster-swimming tornariae observed in bowls achieved higher ingestion and clearance rates. These observations raise questions about form and function in the giant Planctosphaera pelagica. Cilia of the locomotory telotroch increase in length as tornariae increase in size, but there is little increase in length of cilia which capture food. Instead, the length of the ciliated band increases relative to other larval tissues by means of increasing convolution of the band. Hence, the volume of water processed for food probably increases relative to energy expended by larvae during development to the tentaculate stage. However, the length of the ciliated band may decrease relative to other larval surfaces with continued increase in size beyond this stage. These interpretations of growth and feeding efficiency are consistent with the reported geographic distribution of tornariae with and without tentacles.

Published

1976

26. Observations on the biochemical composition of the enteropneust

Author

P. Govindarajulu and S. Krishnan

Subjects

Biochemical composition, Ptychodera flava, Zoology, General Medicine, General Pharmacology, Toxicology and Pharmaceutics, Biology, General Biochemistry, Genetics and Molecular Biology

Published

1968

27. THE PBEOBAL CHJAEY ORGAN OF THE ENTEBOPNEUSTA: 11. The Preoral Ciliary Organ of the Enteropneusta: its Occurrence, Structure, and possible Phylogenetic Significance

Author

F. W. Rogers Brambell and H. A. Cole

Subjects

Balanoglossus carnosus, Harrimania kupfferi, Ptychodera flava, Zoology, Ptychodera, General Medicine, Anatomy, Biology, biology.organism_classification, Saccoglossus

Abstract

Summary The preoral ciliary organ on the base of the proboscis of Saccoglosstis cam-brensis, sp. n., is described in detail. It is in the form of a continuous band of cells bearing long cilia bounding a U-shaped groove. The surrounding epidermis, and that of the groove itself, is provided with shorter cilia. An account is given of the cytological structure of the component cells. Cells, which from their structure are thought to be sensory, are numerous in the walls of the groove. Similar organs are recorded in Saccoglossus kowaievskyi Agassiz, S. irihacensis Kapelus, Harrimania kupfferi von Willemoes-Suhm, Olossobalanus minutus Kowalevsky, Balanoglossus carnosus Willey, B. capensis Gilchrist, and Ptychodera flava Eschscholtz. The occurrence, possible function, and homology of this organ are discussed. The evidence available supports the suggestion that the preoral ciliary organ of the Enteropneusta is homologous with the preoral pit and wheel-organ of Amphioxus and with the hypophysis of the Craniata. We wish to take this opportunity of expressing our thanks to Professor J. P. Hill, F.R.S., Professor C. J. van der Horst, and Professor W. Garstang for advice and criticism. We are indebted also to Professor C. J. van der Horst for the specimens of S. inhacensis, to Professor J. H. Orton for the opportunity of examining specimens of Ptychodera sp. and Olossobalanus minutus, and to the Director of the British Museum (Natural History) and Miss Hastings for access to the collections at South Kensington. The expenses of this research were defrayed by a grant to one of us (F. W. R. B.) from the Government Grant Committee of the Royal Society, for which we wish to express our thanks.

Published

1939

28. The fine structure of the stomochord of the enteropneusts Harrimania kupfferi and Ptychodera flava

Author

Ulrich Welsch and Volker Storch

Subjects

Cell type, Embryo, Nonmammalian, Histology, Stomochord, Cilium, Ptychodera flava, Epithelial Cells, Cell Biology, Vacuole, Anatomy, Biology, Oral cavity, Biological Evolution, Nerve Fibers, Myelinated, Mucus, Pathology and Forensic Medicine, Microscopy, Electron, Chordata, Nonvertebrate, Harrimania kupfferi, Animals

Abstract

The stomochord of Harrimania kupfferi and Ptychodera flava. a tubular structure which extends from the oral cavity into the presoma, consists of two cell types: a) epithelial cells interconnected by desmosomes, which bear at their apical pole a brush-border and cilia. The largest part of these cells is occupied by a voluminous vacuole; b) mucus cells.

Published

1970

29. New bromoperoxidases of marine origin: partial purification and characterization

Author

G. Graham Allan, Tim J. Ahern, and Darrell G. Medcalf

Subjects

Ph optimum, Annelida, Iodide, Digitonin, Chloride, Halogens, medicine, Animals, Benzyl Alcohols, Bromoperoxidase, chemistry.chemical_classification, Chromatography, biology, Ptychodera flava, Halogenation, General Medicine, Marine invertebrates, Enzyme Activation, Enzyme, chemistry, Biochemistry, Peroxidases, Solubility, Rhodophyta, biology.protein, Spectrophotometry, Ultraviolet, Seasons, medicine.drug

Abstract

Enzymes capable of catalyzing the bromination of p- hydroxybenzyl alcohol by Br− have been shown to be present in crude homogenates of the alga Rhodomela larix (Rhodophyta). There are also indications of such activity in the marine invertebrates Thelepus setosus and Ptychodera flava laysanica. Detailed analysis of R. larix samples indicated that the activity in this species is greatest in the late spring and summer. After partial purification the enzyme had a pH optimum of approx. 4.4, a temperature optimum around 32°C and was inhibited by NaN3. This algal bromoperoxidase requires the presence of H2O2 and can brominate monochlorodimedon and oxidize iodide, but it cannot oxidize chloride. The enzyme appears to be particulate.

Published

1980

30. Constituents of the Hemichordate Ptychodera Flava Laysanica

Author

Paul J. Scheuer and Tatsuo Higa

Subjects

biology, Evolutionary biology, Phylum, media_common.quotation_subject, Gill slit, Phylum Hemichordata, Ptychodera flava, Balanoglossus, Hemichordate, Thyroid function, biology.organism_classification, Phyletic gradualism, media_common

Abstract

The phylum Hemichordata occupies an intermediate phyletic position between the echinoderms and the chordates. The morphological link to the chordates is a series of pharingeal clefts or gill slits, but to date no unique chemical relationship between the two phyla has been uncovered. Some members of one of the two classes of the hemichordates, the acorn worms or Enteropneusta, give off an offensive odour, which is often described as iodoformlike1. This is an intriguing observation since evolution of thyroid function with its iodine-containing hormone has never been traced to the hemichordates2. Previous attempts at uncovering thyroid-like activity in a hemichordate, where a likely biosynthetic path might begin with iodination of tyrosine3, have included studies of iodine distribution in Balanoglossus gigas 4 and 131I radiochromatography, which proved the presence of 3-iodotyrosine in Sacoglossus horsti 5.

Published

1977

31. The structure of the nerve fibre layer and neurocord in the enteropneusts

Author

P. N. Dilly, V. Storch, and Ulrich Welsch

Subjects

Histology, Materials science, Nerve fibre, Nerve fibre layer, Nerve Fibers, Myelinated, Nervous System, Pathology and Forensic Medicine, law.invention, law, Chordata, Nonvertebrate, medicine, Myocyte, Animals, Basement membrane, Neurons, biology, Ptychodera flava, Cell Biology, Anatomy, biology.organism_classification, Microscopy, Electron, medicine.anatomical_structure, Spinal Cord, Harrimania kupfferi, Synapses, Biophysics, Electron microscope, Saccoglossus

Abstract

The nerve fibre layer and the neurocord of the Enteropneusts Saccoglossus horsti, Harrimania kupfferi and Ptychodera flava have been examined with the electron microscope. The nerve fibres vary in diameter between 0.15 to 10 μm. The majority of the fibres are of the smaller diameters. The nerve fibre layer is intraepidermal, and is divided by processes running radially from the epithelial cells to the basement membrane that separates the nerve fibre layer from the muscle cells.

Published

1970