Development of the swimbladder in the European eel (Anguilla anguilla)

Zwerger, Petra; Nimeth, K.; Würtz, Jürgen; Salvenmoser, Willi; Pelster, Bernd

doi:10.1007/s00441-001-0488-5

Cited by 19 publications

(14 citation statements)

References 24 publications

(29 reference statements)

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“…A BLAST search of the Danio rerio transcriptome returns no matches at either the RNA or protein level for surfactant protein C, so we have concluded that this gene is not present in the zebrafish genome and therefore have not attempted to include it here. Other studies have found that surfactant proteins A and B are present in the swimbladder during development, and are important for swimbladder inflation in some taxa [Anguilla rostrata (Zwerger et al 2002) and Stizostedion vitreum (Marty et al 1995)]. Though initially it was unclear if this surfactant was expressed in swimbladder tissue or diffused from another structure, Prem et al (2000) showed that these surfactant proteins are in fact secreted from the gas gland cells of the adult swimbladder, in eels (Anguilla rostrata) and perch (Perca fluviatilis).…”

Section: Introductionmentioning

confidence: 99%

Expression of a lung developmental cassette in the adult and developing zebrafish swimbladder

Cass

Servetnick

McCune

2013

Evolution and Development

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The presence of an air-filled organ (AO), either lungs or a swimbladder, is a defining character of the Osteichthyes (bony vertebrates, including tetrapods). Despite the functional and structural diversity of AOs, it was not previously known whether the same group of developmental regulatory genes are involved in the early development of both lungs and swimbladders. This study demonstrates that a suite of genes (Nkx2.1, FoxA2, Wnt7b, GATA6), previously reported to be co-expressed only in the tetrapod lung, is also co-expressed in the zebrafish swimbladder. We document the expression pattern of these genes in the adult and developing zebrafish swimbladder and compare the expression patterns to those in the mouse lung. Early-acting genes involved in endoderm specification are expressed in the same relative location and stage of AO development in both taxa (FoxA2 and GATA6), but the order of onset and location of expression are not completely conserved for the later acting genes (Nkx2.1 and Wnt7b). Co-expression of this suite of genes in both tetrapod lungs and swimbladders of ray-finned fishes is more likely due to common ancestry than independent co-option, because these genes are not known to be co-expressed anywhere except in the AOs of Osteichthyes. Any conserved gene product interactions may comprise a character identity network (ChIN) for the osteichthyan AO.

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Section: Introductionmentioning

confidence: 99%

Expression of a lung developmental cassette in the adult and developing zebrafish swimbladder

Cass

Servetnick

McCune

2013

Evolution and Development

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“…Eels do not develop a swim bladder until after metamorphosis near the end of the glass stage, based on observations of an anguillid (Zwerger et al 2002), so their lipid content, high water content, and almost complete lack of ossified structures may contribute to their buoyancy (Pfeiler 1999). A comparative study of the specific gravity of 25 taxa of 7 phyla of zooplankton and 6 taxa of leptocephali found that leptocephali were among the species with the lowest specific gravities and highest buoyancies ).…”

Section: -5 Physiology and Energeticsmentioning

confidence: 99%

Ecology of Anguilliform Leptocephali: Remarkable Transparent Fish Larvae of the Ocean Surface Layer

Miller¹

2009

Aqua-BioSci. Monogr. (ABSM)

142

249

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“…The ‘true’ biological value to investigate is here tentatively assumed to relate to the loss of internal swimbladder volume. The eel swimbladder is an organ involved in many important functions such as buoyancy control, gas exchange, absorption and secretion (Zwerger, Nimeth, Würtz, Salvenmoser & Pelster 2002; Tesch 2003), so that any reduction in the lumen gas volume is expected to severely impact on the general metabolism and physiology of the fish (Würtz et al 1996; Palstra et al 2007).…”

mentioning

confidence: 99%

An evaluation of indices of gross pathology associated with the nematode Anguillicoloides crassus in eels

Lefebvre

Fazio

Palstra

et al. 2010

Journal of Fish Diseases

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This study compares two alternative indices for quantifying the gross pathology of the swimbladder of eels, Anguilla anguilla (L.), infected with the nematode Anguillicoloides crassus. Two observers recorded twice the scores obtained by the two indices on the same set of 71 wild caught eels (from elver to silver eels, French Mediterranean lagoons). The Length Ratio Index (LRI), performed better than the Swimbladder Degenerative Index (SDI), in three of four predefined criteria of decision. First, the LRI better correlated with an estimate of the swimbladder volume reduction, a functional consequence of the infection (representativeness). Also, the LRI was less prone to subjectivity (inter-observer variability) and more precise (intra-observer variability), although less easy to generate (time needed for measurement/assessment). Using a sub-sample of 32 unaffected eels (showing minor if any swimbladder damage and no living worms at autopsy), we ascertained a linear relationship between the swimbladder length and the total body length, a prerequisite of isometric growth, to definitively accept the new ratio index as a valid alternative to the SDI. Also, because the LRI can be recorded on live specimens with radio-imagery (non-invasive method), we recommend its use, and provide a graph of correspondence between the SDI scores, the LRI scores and the estimated proportion of gas loss in the swimbladder.

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Development of the swimbladder in the European eel (Anguilla anguilla)

Cited by 19 publications

References 24 publications

Expression of a lung developmental cassette in the adult and developing zebrafish swimbladder

Expression of a lung developmental cassette in the adult and developing zebrafish swimbladder

Ecology of Anguilliform Leptocephali: Remarkable Transparent Fish Larvae of the Ocean Surface Layer

An evaluation of indices of gross pathology associated with the nematode Anguillicoloides crassus in eels

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