Dynamics of spicule production in the marine sponge Hymeniacidon perlevis during in vitro cell culture and seasonal development in the field

Cao, Xupeng; Fu, Wantao; Yu, Xingju; Zhang, Wei

doi:10.1007/s00441-007-0443-1

Cited by 27 publications

(31 citation statements)

References 32 publications

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“…This finding suggests that silicatein expression is not directly connected with number of spicules, although it should be recognised that these silicatein genes are expressed at high levels before the start of spicule formation. This delay seen in the early stages between silicatein expression and spicule number can be expected as spiculogenesis requires multiple steps before the initial silica deposition, including translation, phosphorylation and self-assembly (Cao et al 2007). This will confound the correlation of expression with spicule number, in addition to the variability observed in both data throughout development.…”

Section: Discussionmentioning

confidence: 99%

“…3.7). In Hymeniacidon perlevis, it was shown that silicatein expression changed depending on the sampling part of the individual, front, middle or back; each part affected by different micro-environment like water current flow capacity, higher flow resulted in higher expression (Cao et al 2007). Larvae in this study were from a pool of adult sponges collected in different parts of the reef.…”

Section: Discussionmentioning

confidence: 99%

“…The spicule preparation protocol was performed as described by Cao et al (2007), with some modifications. To maintain the original number of spicules, fixed embryos, larvae and postlarvae were transferred individually on a grid glass slide, in 1-2 µl of 70% ethanol.…”

Section: Spicule Preparationmentioning

confidence: 99%

“…Afterward, silicatein has been isolated from other marine sponges, including Petrosia ficiformis (Pozzolini et al 2004), Hymeniacidon perlevis (Cao et al 2007), Cratomorpha meyeri (Müller et al 2008b), Latrunculia oparinae (Kozhemyako et al 2009) and Geodia cydonium (Müller et al 2007c), as well as freshwater sponges including Lubomirskia baicalensis (Kaluzhnaya et al 2005;Kaluzhnaya et al 2011), Ephydatia fluviatilis (Funayama et al 2005;Mohri et al 2008) and Ephydatia muelleri (Kaluzhnaya et al 2011). …”

Section: Introductionmentioning

confidence: 99%

“…Silicatein is present specifically in siliceous sponges (demonsponges, hexactinellids and homoscleromorphs) and was first discovered in the axial filament of the demosponge Tethya aurantia where two genes have been isolated, silicatein α and silicatein β (Shimizu et al 1998). Silicatein genes have since been identified in other marine and freshwater sponges (Krasko et al 2000;Pozzolini et al 2004;Cao et al 2007;Kaluzhnaya et al 2005;Funayama et al 2005;Mohri et al 2008).…”

Section: Introductionmentioning

confidence: 99%

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Analysis of silicatein gene expression and spicule formation in the demosponge Amphimedon queenslandica

Gauthier¹

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The skeletal elements in most sponges are siliceous spicules. These are fabricated into species-specific sizes and shapes. Demosponges, in particular, have specialised cells called sclerocytes that possess the unique ability to synthesise biosilica and these spicules.Underlying the diversity of demosponge spicules morphology is a conserved protein, called silicatein. This thesis aims to investigate the process of spiculogenesis in the different developmental stages of the demosponge Amphimedon queenslandica, and the evolution and developmental expression of the silicatein gene family in relation to spicule formation.A. queenslandica is the only sponge species to have its genome fully sequenced, assembled and annotated, and currently is one of the best models to study sponge development (Srivastava et al. 2010). This species broods embryos year-round, facilitating the access to Conservation of gene structure and exon length in silicatein and cathepsin L genes suggests that these genes have preserved an ancestral gene structure common to both gene families in both marine and freshwater sponges.Using in situ hybridisation, I demonstrated that silicatein genes are expressed during A. queenslandica early embryonic development, with genes being expressed exclusively in sclerocytes. Analysis of gene expression levels through embryogenesis and metamorphosis, using RNA-Seq performed on a pool of same stage individuals, revealed that all silicatein-like genes are differentially expressed throughout development, and the expression of silicatein genes occurs prior to spicule formation. However, some silicatein-like gene expression levels and spicule number do not appear to be tightly correlated.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Spicule Preparationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Analysis of silicatein gene expression and spicule formation in the demosponge Amphimedon queenslandica

Gauthier¹

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Bioremediation of bacteria pollution using the marine sponge Hymeniacidon perlevis in the intensive mariculture water system of turbot Scophthalmus maximus

Zhang

Xue

et al. 2009

Biotech & Bioengineering

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Sessile filter-feeding marine sponges (Porifera) have been reported to possess high efficiency in removing bacteria pollution from natural or aquaculture seawater. However, no investigation has been carried out thus far in a true mariculture farm water system. Therefore this study sought to investigate the ability of the marine sponge Hymeniacidon perlevis to bioremediate the bacteria pollution in the intensive aquaculture water system of turbot Scophthalmus maximus. Sponge specimens were hung in fish culture effluent at different temperature to investigate the optimal temperature condition for bacteria removal by H. perlevis. Turbots S. maximus were co-cultured with sponge H. perlevis in 1.5 m(3) of water system at 15-18 degrees C for 6 weeks to control the growth of bacteria. It was found that H. perlevis was able to remove pathogenic bacteria efficiently at 10-20 degrees C, with a maximal removal of 71.4-78.8% of fecal coliform, 73.9-98.7% of pathogenic vibrio, and 75.0-83.7% of total culturable bacteria from fish-culture effluent at 15 degrees C; H. perlevis continuously showed good bioremediation of bacteria pollution in the S. maximus culture water system, achieving removal of 60.0-90.2% of fecal coliform, 37.6-81.6% of pathogenic vibrio, and 45.1-83.9% of total culturable bacteria. The results demonstrate that H. perlevis is an effective bioremediator of bacteria pollution in the turbot S. maximus culture farm water system.

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Toward understanding the morphogenesis of siliceous spicules in freshwater sponge: Differential mRNA expression of spicule‐type‐specific silicatein genes in Ephydatia fluviatilis

Mohri

Nakatsukasa

Masuda

et al. 2008

Developmental Dynamics

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Siliceous spicules of sponges are morphologically diverse and provide good models for understanding the morphogenesis of biomineralized products. The silica deposition enzyme silicatein is a component of siliceous spicules of sponges and is thought to be the key molecule determining the morphology of spicules. Here, we focused on the silicateins of the freshwater sponge Ephydatia fluviatilis, which has two types of morphologically and functionally different spicules, called megascleres and gemmoscleres. We isolated six isoforms of silicateins and examined their mRNA expression in the cells producing megascleres and gemmoscleres. The spicule-type-specific mRNA expression of these isoforms and differential expression during spicule development suggest that the characteristic morphology of spicules is due to the specific properties and combinatory functions of silicatein isoforms. Developmental Dynamics 237:3024 -3039, 2008.

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Dynamics of spicule production in the marine sponge Hymeniacidon perlevis during in vitro cell culture and seasonal development in the field

Cited by 27 publications

References 32 publications

Analysis of silicatein gene expression and spicule formation in the demosponge Amphimedon queenslandica

Analysis of silicatein gene expression and spicule formation in the demosponge Amphimedon queenslandica

Bioremediation of bacteria pollution using the marine sponge Hymeniacidon perlevis in the intensive mariculture water system of turbot Scophthalmus maximus

Toward understanding the morphogenesis of siliceous spicules in freshwater sponge: Differential mRNA expression of spicule‐type‐specific silicatein genes in Ephydatia fluviatilis

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