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  • The Company of Biologists  (11)
  • Biodiversity Research  (11)
  • 1
    Online Resource
    Online Resource
    Physostomous channel catfish, Ictalurus punctatus , modify swimming mode and buoyancy based on flow conditions
    The Company of Biologists ; 2016
    In:  Journal of Experimental Biology
    Details
    In: Journal of Experimental Biology, The Company of Biologists
    Abstract: The employment of gliding in aquatic animals as a means of conserving energy has been theoretically predicted and discussed for decades. Several studies have shown that some species glide, whereas others do not. Freshwater fish species that widely inhabit both lentic and lotic environments are thought to be able to adapt to fluctuating flow conditions in terms of locomotion. In adapting to the different functional demands of lentic and lotic environments on fish energetics, physostomous (open swim bladder) fish may optimise their locomotion and activity by controlling their net buoyancy; few buoyancy studies have however been conducted on physostomous fish in the wild. We deployed accelerometers on free-ranging channel catfish, Ictalurus punctatus, in both lentic and lotic environments, to quantify their swimming activity, and to determine their buoyancy condition preferences, and whether gliding conserves energy. Individual comparisons of swimming efforts between ascent and descent phases revealed that all fish in the lentic environment had negative buoyancy. However, all individuals showed many descents without gliding phases, which was contrary to the behaviour predicted to minimise the cost of transport. The fact that significantly fewer gliding phases were observed in the lotic environment, together with the existence of neutrally buoyant fish, indicated that channel catfish seem to optimise their locomotion through buoyancy control based on flow conditions. The buoyancy optimisation of channel catfish relative to the flow conditions that they inhabit not only reflects differences in swimming behaviour but also provides new insights into the adaptation of physostome fish species to various freshwater environments.
    Type of Medium: Online Resource
    ISSN: 1477-9145 , 0022-0949
    URL: Article
    DOI: 10.1242/jeb.140202
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2016
    detail.hit.zdb_id: 1482461-9
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  • 2
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    Online Resource
    The murine homolog of SALL4 , a causative gene in Okihiro syndrome, is essential for embryonic stem cell proliferation, and cooperates with Sall1 in anorectal, heart, brain and kidney development
    The Company of Biologists ; 2006
    In:  Development Vol. 133, No. 15 ( 2006-08-01), p. 3005-3013
    Details
    In: Development, The Company of Biologists, Vol. 133, No. 15 ( 2006-08-01), p. 3005-3013
    Abstract: Mutations in SALL4, the human homolog of the Drosophilahomeotic gene spalt (sal), cause the autosomal dominant disorder known as Okihiro syndrome. In this study, we show that a targeted null mutation in the mouse Sall4 gene leads to lethality during peri-implantation. Growth of the inner cell mass from the knockout blastocysts was reduced, and Sall4-null embryonic stem (ES) cells proliferated poorly with no aberrant differentiation. Furthermore, we demonstrated that anorectal and heart anomalies in Okihiro syndrome are caused by Sall4haploinsufficiency and that Sall4/Sall1 heterozygotes exhibited an increased incidence of anorectal and heart anomalies, exencephaly and kidney agenesis. Sall4 and Sall1 formed heterodimers, and a truncated Sall1 caused mislocalization of Sall4 in the heterochromatin; thus, some symptoms of Townes-Brocks syndrome caused by SALL1 truncations could result from SALL4 inhibition.
    Type of Medium: Online Resource
    ISSN: 1477-9129 , 0950-1991
    URL: Article
    DOI: 10.1242/dev.02457
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2006
    detail.hit.zdb_id: 2007916-3
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  • 3
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    Online Resource
    Germline development in rat revealed by visualization and deletion of Prdm14
    The Company of Biologists ; 2020
    In:  Development
    Details
    In: Development, The Company of Biologists
    Abstract: Primordial germ cells (PGCs), the founder cells of the germline, are specified in pre-gastrulating embryos in mammals, and subsequently migrate towards gonads to mature into functional gametes. Here, we investigated PGC development in rats, by genetically modifying Prdm14, a unique marker and a critical PGC transcriptional regulator. We trace PGC development in rats, for the first time, from specification until sex determination stage in fetal gonads using Prdm14 H2BVenus knock-in rats. We uncover that Prdm14’s crucial role in PGC specification is conserved between rat and mice, by analyzing Prdm14 deficient rat embryos. Notably, loss of Prdm14 completely abrogates the PGC program: failure in maintenance and/or activation of germ cell markers and pluripotency genes. Finally, we profile the transcriptome of the postimplantation epiblast and all PGC stages in rat, to reveal enrichment of distinct gene sets at each transition point, thereby providing an accurate transcriptional time-line for rat PGC development. Thus, the novel genetically modified rats and data sets obtained in this study will advance our knowledge on conserved vs species-specific features for germline development in mammals.
    Type of Medium: Online Resource
    ISSN: 1477-9129 , 0950-1991
    URL: Article
    DOI: 10.1242/dev.183798
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2020
    detail.hit.zdb_id: 2007916-3
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  • 4
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    Online Resource
    DPP signaling controls development of the lamina glia required for retinal axon targeting in the visual system of Drosophila
    The Company of Biologists ; 2005
    In:  Development Vol. 132, No. 20 ( 2005-10-15), p. 4587-4598
    Details
    In: Development, The Company of Biologists, Vol. 132, No. 20 ( 2005-10-15), p. 4587-4598
    Abstract: The Drosophila visual system consists of the compound eyes and the optic ganglia in the brain. Among the eight photoreceptor (R) neurons, axons from the R1-R6 neurons stop between two layers of glial cells in the lamina,the most superficial ganglion in the optic lobe. Although it has been suggested that the lamina glia serve as intermediate targets of R axons,little is known about the mechanisms by which these cells develop. We show that DPP signaling plays a key role in this process. dpp is expressed at the margin of the lamina target region, where glial precursors reside. The generation of clones mutant for Medea, the DPP signal transducer, or inhibition of DPP signaling in this region resulted in defects in R neuron projection patterns and in the lamina morphology, which was caused by defects in the differentiation of the lamina glial cells. glial cells missing/glial cells deficient (gcm; also known as glide) is expressed shortly after glia precursors start to differentiate and migrate. Its expression depends on DPP; gcm is reduced or absent in dpp mutants or Medea clones, and ectopic activation of DPP signaling induces ectopic expression of gcmand REPO. In addition, R axon projections and lamina glia development were impaired by the expression of a dominant-negative form of gcm,suggesting that gcm indeed controls the differentiation of lamina glial cells. These results suggest that DPP signaling mediates the maturation of the lamina glia required for the correct R axon projection pattern by controlling the expression of gcm.
    Type of Medium: Online Resource
    ISSN: 1477-9129 , 0950-1991
    URL: Article
    DOI: 10.1242/dev.02040
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2005
    detail.hit.zdb_id: 2007916-3
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  • 5
    Online Resource
    Online Resource
    Neural Control of the Buccal Muscle Movement in the African Giant Snail Achatina Fulica
    The Company of Biologists ; 1991
    In:  Journal of Experimental Biology Vol. 155, No. 1 ( 1991-01-01), p. 415-433
    Details
    In: Journal of Experimental Biology, The Company of Biologists, Vol. 155, No. 1 ( 1991-01-01), p. 415-433
    Abstract: Five pairs of neurones, R(L)-B1, R(L)-B2, R(L)-B3, R(L)-B4 and R(L)-B5, controlling buccal muscle movement, were identified in the buccal ganglia of the African giant snail Achatina fulica Férussac. All these neurones fired during the radula retraction phase of rhythmic buccal activity. Neurones Bl, B2, B4 and B5 made direct excitatory connections to the radula retractor, and Bl, B2, B3 and B5 also made direct excitatory connections with the outer muscle of the buccal mass. Of these neurones, B4 had the most potent effect on contraction of the ipsilateral radula retractor. Physiological and pharmacological analyses suggested that the principal excitatory transmitter of B4 at the neuromuscular junctions was acetylcholine (ACh), although glutamate and aspartate also elicited the contraction. A pair of cerebral ganglion cells, v-RCDN and v-LCDN, was found to have modulatory effects on the muscle contraction evoked by B4 firing and ACh application. Morphological, physiological and immunohistochemical analyses suggested that the modulatory actions of v-CDN on muscle contraction are mediated by serotonin, which may be released from nerve terminals of v-CDN and act directly on the muscle. v-CDN also increased the activity of motoneurone B4. v-CDN shared several common features with serotonergic cerebral cells in other gastropod molluscs.
    Type of Medium: Online Resource
    ISSN: 0022-0949 , 1477-9145
    URL: Article
    DOI: 10.1242/jeb.155.1.415
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 1991
    detail.hit.zdb_id: 1482461-9
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  • 6
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    Online Resource
    Gene expression profiles in Ciona intestinalis tailbud embryos
    The Company of Biologists ; 2001
    In:  Development Vol. 128, No. 15 ( 2001-08-01), p. 2893-2904
    Details
    In: Development, The Company of Biologists, Vol. 128, No. 15 ( 2001-08-01), p. 2893-2904
    Abstract: A set of 3423 expressed sequence tags derived from the Ciona intestinalis tailbud embryos was categorized into 1213 independent clusters. When compared with DNA Data Bank of Japan database, 502 clusters of them showed significant matches to reported proteins with distinct function, whereas 184 lacked sufficient information to be categorized (including reported proteins with undefined function) and 527 had no significant similarities to known proteins. Sequence similarity analyses of the 502 clusters in relation to the biosynthetic function, as well as the structure of the message population at this stage, demonstrated that 390 of them were associated with functions that many kinds of cells use, 85 with cell-cell communication and 27 with transcription factors and other gene regulatory proteins. All of the 1213 clusters were subjected to whole-mount in situ hybridization to analyze the gene expression profiles at this stage. A total of 387 clusters showed expression specific to a certain tissue or organ; 149 showed epidermis-specific expression; 34 were specific to the nervous system; 29 to endoderm; 112 to mesenchyme; 32 to notochord; and 31 to muscle. Many genes were also specifically expressed in multiple tissues. The study also highlighted characteristic gene expression profiles dependent on the tissues. In addition, several genes showed intriguing expression patterns that have not been reported previously; for example, four genes were expressed specifically in the nerve cord cells and one gene was expressed only in the posterior part of muscle cells. This study provides molecular markers for each of the tissues and/or organs that constitutes the Ciona tailbud embryo. The sequence information will also be used for further genome scientific approach to explore molecular mechanisms involved in the formation of one of the most primitive chordate body plans.
    Type of Medium: Online Resource
    ISSN: 1477-9129 , 0950-1991
    URL: Article
    DOI: 10.1242/dev.128.15.2893
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2001
    detail.hit.zdb_id: 2007916-3
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  • 7
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    Online Resource
    Focal adhesion kinase controls morphogenesis of the Drosophila optic stalk
    The Company of Biologists ; 2007
    In:  Development Vol. 134, No. 8 ( 2007-04-15), p. 1539-1548
    Details
    In: Development, The Company of Biologists, Vol. 134, No. 8 ( 2007-04-15), p. 1539-1548
    Abstract: Photoreceptor cell axons (R axons) innervate optic ganglia in the Drosophila brain through the tubular optic stalk. This structure consists of surface glia (SG) and forms independently of R axon projection. In a screen for genes involved in optic stalk formation, we identified Fak56D encoding a Drosophila homolog of mammalian focal adhesion kinase (FAK). FAK is a main component of the focal adhesion signaling that regulates various cellular events, including cell migration and morphology. We show that Fak56D mutation causes severe disruption of the optic stalk structure. These phenotypes were completely rescued by Fak56D transgene expression in the SG cells but not in photoreceptor cells. Moreover, Fak56D genetically interacts with myospheroid, which encodes an integrin β subunit. In addition,we found that CdGAPr is also required for optic stalk formation and genetically interacts with Fak56D. CdGAPr encodes a GTPase-activating domain that is homologous to that of mammalian CdGAP, which functions in focal adhesion signaling. Hence the optic stalk is a simple monolayered structure that can serve as an ideal system for studying glial cell morphogenesis and the developmental role(s) of focal adhesion signaling.
    Type of Medium: Online Resource
    ISSN: 1477-9129 , 0950-1991
    URL: Article
    DOI: 10.1242/dev.001529
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2007
    detail.hit.zdb_id: 2007916-3
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  • 8
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    Online Resource
    Modulation of the Buccal Muscle Contraction by Identified Serotonergic and Peptidergic Neurons in the Snail Achatina Fulica
    The Company of Biologists ; 1995
    In:  Journal of Experimental Biology Vol. 198, No. 3 ( 1995-03-01), p. 729-738
    Details
    In: Journal of Experimental Biology, The Company of Biologists, Vol. 198, No. 3 ( 1995-03-01), p. 729-738
    Abstract: Serotonergic and peptidergic modulation of buccal muscle contraction at an identified neuromuscular synapse in the African giant snail Achatina fulica was examined. A pair of excitatory motoneurons of the radula protractor was identified in the buccal ganglia and these were named B10 neurons. Pharmacological experiments revealed the B10s to be cholinergic. The serotonergic cerebral neuron v-CDN enhanced B10-evoked contraction of the radula protractor, and it is suggested that this effect is mediated postsynaptically by serotonin released from the v-CDN terminals. Immunohistochemical analyses revealed that the B10 motoneurons contained an Achatina cardioexcitatory peptide-1 (ACEP-1)-like substance in their cell body, axon and terminals in the radula protractor. From electron microscopic observation, the ACEP-1-like immunoreactive substance was found to be localized in dense-cored vesicles but not in clear vesicles in the nerve terminals. ACEP-1 applied to the radula protractor markedly enhanced B10-evoked contraction of the muscle by increasing the amplitude of excitatory junction potentials (EJPs). The increase of EJP amplitude in the presence of the peptide was probably due to the increased release of acetylcholine from the terminals of B10. It is suggested that the cholinergic motoneuron B10 uses ACEP-1 as an excitatory cotransmitter.
    Type of Medium: Online Resource
    ISSN: 0022-0949 , 1477-9145
    URL: Article
    DOI: 10.1242/jeb.198.3.729
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 1995
    detail.hit.zdb_id: 1482461-9
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  • 9
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    Online Resource
    Identified Neurones Involved in the Control of Rhythmic Buccal Motor Activity in the Snail Achatina Fulica
    The Company of Biologists ; 1992
    In:  Journal of Experimental Biology Vol. 164, No. 1 ( 1992-03-01), p. 117-133
    Details
    In: Journal of Experimental Biology, The Company of Biologists, Vol. 164, No. 1 ( 1992-03-01), p. 117-133
    Abstract: In the land snail Achatina fulica, it has been suggested that two pairs of cerebral neurones, ventral cerebral distinct neurones (v-CDNs) and Cl neurones, and a pair of buccal motoneurones (B1s) are involved in the control of rhythmic motor activity (RMA) in the buccal ganglia. These neurones, when tonically fired by depolarizing current injection, could individually initiate and maintain RMA in previously quiescent isolated ganglia. The rhythm elicited by v-CDN persisted for several cycles after the firing of v-CDN stopped, while that elicited by Cl or B1 ceased immediately after the firing of these neurones stopped. RMA also occurred spontaneously and could be induced by labial nerve stimulation in a reduced preparation. Nevertheless, such rhythms were not always accompanied by the firing of v-CDN, Cl or BL. Thus, the firing of these neurones appears to be sufficient, but not essential, for rhythm generation in the experimental conditions. Taste stimulation of the lip in semi-intact preparations often induced RMA in the buccal ganglia. However, v-CDN and B1 were not tonically excited by the stimulation. It seems unlikely that v-CDN and B1 are critical elements in the generation of the feeding rhythm. Cl responded to taste stimuli with excitation after RMA had begun, suggesting that Cl is involved in the taste-induced buccal rhythm.
    Type of Medium: Online Resource
    ISSN: 0022-0949 , 1477-9145
    URL: Article
    DOI: 10.1242/jeb.164.1.117
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 1992
    detail.hit.zdb_id: 1482461-9
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  • 10
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    Online Resource
    Characterization of the pufferfish Otx2 cis-regulators reveals evolutionarily conserved genetic mechanisms for vertebrate head specification
    The Company of Biologists ; 2004
    In:  Development Vol. 131, No. 1 ( 2004-01-01), p. 57-71
    Details
    In: Development, The Company of Biologists, Vol. 131, No. 1 ( 2004-01-01), p. 57-71
    Abstract: The Otx2 gene, containing a highly conserved paired-type homeobox, plays a pivotal role in the development of the rostral head throughout vertebrates. Precise regulation of the temporal and spatial expression of Otx2 is likely to be crucial for proper head specification. However, regulatory mechanisms of Otx2 expression remain largely unknown. In this study, the Otx2 genome of the puffer fish Fugu rubripes, which has been proposed as a model vertebrate owing to its highly compact genome, was cloned. Consistently, Fugu Otx2 possesses introns threefold smaller in size than those of the mouse Otx2 gene. Otx2 mRNA was transcribed after MBT, and expressed in the rostral head region throughout the segmentation and pharyngula periods of wild-type Fugu embryos. To elucidate regulatory mechanisms of Otx2 expression, the expression of Otx2-lacZreporter genes nearly covering the Fugu Otx2 locus, from –30.5 to +38.5 kb, was analyzed, by generating transgenic mice. Subsequently, seven independent cis-regulators were identified over an expanse of 60 kb; these regulators are involved in the mediation of spatiotemporally distinct subdomains of Otx2 expression. Additionally, these expression domains appear to coincide with local signaling centers and developing sense organs. Interestingly, most domains do not overlap with one another, which implies that cis-regulators for redundant expression may be abolished exclusively in the pufferfish so as to reduce its genome size. Moreover, these cis-regions were also able to direct expression in zebrafish embryos equivalent to that observed in transgenic mice. Further comparative sequence analysis of mouse and pufferfish intergenic regions revealed eight highly conserved elements within these cis-regulators. Therefore, we propose that, in vertebrate evolution, the Otx2 promoter acquires multiple, spatiotemporally specific cis-regulators in order to precisely control highly coordinated processes in head development.
    Type of Medium: Online Resource
    ISSN: 1477-9129 , 0950-1991
    URL: Article
    DOI: 10.1242/dev.00877
    Language: English
    Publisher: The Company of Biologists
    Publication Date: 2004
    detail.hit.zdb_id: 2007916-3
    SSG: 12
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