Results 161 to 170 of about 2,159 (212)
The nascent RNA labelling compound 5-ethynyl uridine (EU) integrates into DNA in some animals. [PDF]
BMC Mol Cell BiolKjosavik MA +9 more
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Transcriptome sequencing of seven deep marine invertebrates. [PDF]
Sci DataBurns JA +14 more
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Evolution of the Tri-PDZ Domain in PSD95 (DLG-4 Gene). [PDF]
Mol Biol EvolNilkant R +7 more
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Ocean to Tree: Leveraging Single-Molecule RNA-Seq to Repair Genome Gene Models and Improve Phylogenomic Analysis of Gene and Species Evolution. [PDF]
Methods Mol BiolHsiao J +4 more
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Predator-induced vertical behavior of a ctenophore
Hydrobiologia, 2012 Although many studies have focused on Mnemiopsis leidyi predation, little is known about the role of this ctenophore as prey when abundant in native and invaded pelagic systems. We examined the response of the ctenophore M.
Josefin Titelman +2 more
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Suspected chemoreceptors in coelenterates and ctenophores
Microscopy Research and Technique, 1992AbstractChemoreceptors in coelenterates and ctenophores have not been identified with certainty. Among prospective chemoreceptive cells are the sensory nerve cells, the cnidocyst bearing cnidocytes, and the epitheliomuscular cells that are likely to be involved in feeding or aggression. Both behaviors are mediated by coordinated chemical and mechanical
KassSimon, G., Hufnagel, L. A.
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Ctenophores: an evolutionary-developmental perspective
Current Opinion in Genetics & Development, 2016Ctenophores are non-bilaterian metazoans of uncertain phylogenetic position, some recent studies placing them as sister-group to all other animals whereas others suggest this placement is artefactual and ctenophores are more closely allied with cnidarians and bilaterians, with which they share nerve cells, muscles and gut.
Jager, Muriel, Manuel, Michaël
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2022
This chapter deals with the total luminescent fauna of the phylum, Ctenophora,; the emission maxima in observed species of ctenophores, the description of luminescent species of ctenophores, and their mechanism of bioluminescence.
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This chapter deals with the total luminescent fauna of the phylum, Ctenophora,; the emission maxima in observed species of ctenophores, the description of luminescent species of ctenophores, and their mechanism of bioluminescence.
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1975
Animals in which:- 1. The body is cellular. 2. The gametes are formed from specialised cells. 3. Choanocytes are never present. 4. The principal aperture of the body is inhalent. 5. During development there is no reversal of cell layers. 6.
J. E. Webb, J. A. Wallwork, J. H. Elgood
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Animals in which:- 1. The body is cellular. 2. The gametes are formed from specialised cells. 3. Choanocytes are never present. 4. The principal aperture of the body is inhalent. 5. During development there is no reversal of cell layers. 6.
J. E. Webb, J. A. Wallwork, J. H. Elgood
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1990
Ctenophores constitute a small phylum of approximatly 100 species. All species are marine and most of them are large planktonic forms moving with 8 rows of beating ciliated comb plates (ctenes). The animals have a simple body plan with biradial symmetry defined by the position of the tentacles (tentacular plane) and the stomodeum (sagittal or stomodeal
Danièle Carre +2 more
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Ctenophores constitute a small phylum of approximatly 100 species. All species are marine and most of them are large planktonic forms moving with 8 rows of beating ciliated comb plates (ctenes). The animals have a simple body plan with biradial symmetry defined by the position of the tentacles (tentacular plane) and the stomodeum (sagittal or stomodeal
Danièle Carre +2 more
openaire +1 more source