Lectin‐binding pattern of the senegalese sole <i>Solea senegalensis</i> oogenesis

Accogli, Gianluca; Zizza, Sara; García-López, Ángel; Sarasquete, Carmen; Desantis, Salvatore

doi:10.1002/jemt.22040

Cited by 5 publications

(6 citation statements)

References 47 publications

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“…The glycoconjugate pattern is specie specific, being cortical alveoli rich in α- N -acetyl- D -glucosamine (α-GlcNAc), sialic acids, α- N -Acetyl- D -galactosamine (α-GalNAc), α- or β-GalNAc, β- D -Galactosyl-(1-3)- N -acetyl- D -galactosamine (β- D -Gal(1-3)-GalNAc) in swordfish [8]; GalNAc and α-galactose (αGal) in flatfish [19]; GlcNAc, GalNAc, Gal and sialic acid in protogynous teleost Epinephelus marginatus [20] and GlcNAc, GalNAc and sialic acid in bluefin tuna [7]. …”

Section: The Glycobiology In Oogenesismentioning

confidence: 99%

“…Zona radiate of dusky grouper Epinephelus marginatus is characterized by a higher content of GlcNAc and sialic acid [20] as in swordfish zona radiate in which α- L -Fuc residues are also detected [8]. During oocyte development, the glycan pattern changes and this may reflect the different activity of zona radiate during different phases of oogenesis [19]. …”

Section: The Glycobiology In Oogenesismentioning

confidence: 99%

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Glycobiology of Reproductive Processes in Marine Animals: The State of the Art

Gallo

Costantini

2012

Marine Drugs

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Glycobiology is the study of complex carbohydrates in biological systems and represents a developing field of science that has made huge advances in the last half century. In fact, it combines all branches of biomedical research, revealing the vast and diverse forms of carbohydrate structures that exist in nature. Advances in structure determination have enabled scientists to study the function of complex carbohydrates in more depth and to determine the role that they play in a wide range of biological processes. Glycobiology research in marine systems has primarily focused on reproduction, in particular for what concern the chemical communication between the gametes. The current status of marine glycobiology is primarily descriptive, devoted to characterizing marine glycoconjugates with potential biomedical and biotechnological applications. In this review, we describe the current status of the glycobiology in the reproductive processes from gametogenesis to fertilization and embryo development of marine animals.

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Section: The Glycobiology In Oogenesismentioning

confidence: 99%

Section: The Glycobiology In Oogenesismentioning

confidence: 99%

Glycobiology of Reproductive Processes in Marine Animals: The State of the Art

Gallo

Costantini

2012

Marine Drugs

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“…In fish and insect eggs, a lectin-binding glycoprotein bound tightly to the micropylar region has a role as sperm guidance toward the micropylar canal (Yanagimachi, et al, 2013). After egg activation, glycoconjugates from the cortical alveoli (CA) are released into the perivitelline space, contributing to chorion hardening, bacterial agglutination, and block to polyspermy (Motta et al, 2005;Accogli, et al, 2012). Additionally, adhesive structures associated with the zona radiata have an essential role in the egg attachment to the substratum (Rizzo et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, adhesive structures associated with the zona radiata have an essential role in the egg attachment to the substratum (Rizzo et al, 2002). Since lectins have specific binding affinities for terminal sugar residues (Lis and Sharon, 1998), then lectinbinding pattern can provide suitable knowledge on the glycidic molecules distribution in fish oocytes (Ortiz-Delgado et al, 2008;Accogli, et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Comparative morphology of the oocyte surface and early development in four characiformes from the São Francisco River, Brazil

Honorato‐Sampaio

Prado

Sato

et al. 2015

Journal of Morphology

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Early development from the egg fertilization to complete resorption of the yolk-sac is a critical period in the life cycle of teleost fish. Knowledge of this process provides essential parameters for aquaculture and identification of spawning sites in the wild. In the present study, a comparative morphological analysis of the oocyte surface as well as early development was performed in four commercially valuable species from the São Francisco River: Brycon orthotaenia, Leporinus obtusidens, Prochilodus argenteus, and Salminus franciscanus. Stripped oocytes, embryo, and yolk-sac larvae were analyzed by scanning electron microscopy (SEM) and histology. A set of 10 lectins was used for investigation of lectin-binding pattern in oocytes. In the four species, the outer layer of the zona radiata reacted to most lectins, indicating complex polysaccharides at the oocyte surface while no reactivity was detected in the inner zona radiata and yolk globules. Typical structural arrangements were recognized at the micropylar region by SEM. The four species showed nonadhesive eggs, short embryonic period (18-20 h at 24 ± 1°C), and poorly developed larvae at hatching. At 24 h posthatching (hph), larvae of the four species had neuromasts on the body surface. Rudimentary cement glands for larval attachment were identified on the cephalic region at 24 and 48 hph in B. orthotaenia and S. franciscanus, and following they were in regression. The time for whole yolk resorption varied among species from 48 to 120 hph, occurring earlier in S. franciscanus, followed by B. orthotaenia, P. argenteus, and L. obtusidens. The formation of the digestive tract and the mouth opening indicated initiation of exogenous feeding 24 h before complete resorption of the yolk. Together, our data indicate similarities in the early development among species that may be related to the life cycle strategies and phylogeny.

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“…These amino‐acidic residues can also link fucose (Fuc), glucose (Glc), mannose (Man), and N ‐acetylglucosamine (GlcNAc) to form other classes of O ‐linked glycans (reviewed in Lowe and Marth, ). Histochemical techniques using lectins have been widely employed to characterize the oligosaccharide pattern of the glycoproteins present in the ovarian follicles of lower vertebrates (Fang and Welsch, ; Prisco et al, ; Farias et al, ; Rodler, ; Scillitani et al, ; Accogli et al, ) as well as of several mammalian species (see Desantis et al, ). In mammals, lectin histochemistry has been also applied to investigate the glycan pattern in isolated antral oocytes of humans (Talevi et al, ; Jiménez‐Movilla et al, ), cow (Verini‐Supplizi et al, ; de Paz et al, ; Velàsquez et al, 2007), pig (Parillo et al, ; Pastor et al, ), and equine (Desantis et al, ), as well as in the postovulatory oocytes from mouse (Avilés et al, , ), rat (Avilés et al, ) and hamster (Avilés et al, ; El‐Mestra and Kan, 2001).…”

Section: Introductionmentioning

confidence: 99%

Differential expression and localization of glycosidic residues in in vitro- and in vivo-matured cumulus-oocyte complexes in equine and porcine species

et al. 2014

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Glycoprotein oligosaccharides play major roles during reproduction, yet their function in gamete interactions is not fully elucidated. Identification and comparison of the glycan pattern in cumulus-oocyte complexes (COCs) from species with different efficiencies of in vitro spermatozoa penetration through the zona pellucida (ZP) could help clarify how oligosaccharides affect gamete interactions. We compared the expression and localization of 12 glycosidic residues in equine and porcine in vitro-matured (IVM) and preovulatory COCs by means of lectin histochemistry. The COCs glycan pattern differed between animals and COC source (IVM versus preovulatory). Among the 12 carbohydrate residues investigated, the IVM COCs from these two species shared: (a) sialo- and βN-acetylgalactosamine (GalNAc)-terminating glycans in the ZP; (b) sialylated and fucosylated glycans in cumulus cells; and (c) GalNAc and N-acetylglucosamine (GlcNAc) glycans in the ooplasm. Differences in the preovulatory COCs of the two species included: (a) sialoglycans and GlcNAc terminating glycans in the equine ZP versus terminal GalNAc and internal GlcNAc in the porcine ZP; (b) terminal galactosides in equine cumulus cells versus terminal GlcNAc and fucose in porcine cohorts; and (c) fucose in the mare ooplasm versus lactosamine and internal GlcNAc in porcine oocyte cytoplasm. Furthermore, equine and porcine cumulus cells and oocytes contributed differently to the synthesis of ZP glycoproteins. These results could be attributed to the different in vitro fertilization efficiencies between these two divergent, large-animal models.

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Lectin‐binding pattern of the senegalese sole Solea senegalensis oogenesis

Cited by 5 publications

References 47 publications

Glycobiology of Reproductive Processes in Marine Animals: The State of the Art

Glycobiology of Reproductive Processes in Marine Animals: The State of the Art

Comparative morphology of the oocyte surface and early development in four characiformes from the São Francisco River, Brazil

Differential expression and localization of glycosidic residues in in vitro- and in vivo-matured cumulus-oocyte complexes in equine and porcine species

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