Two transcription factors, Sox9a and Foxl2 were cloned from half-smooth tongue sole (Cynoglossus semilaevis). Sox9a is a new duplication of C.semilaevis Sox9 gene. The complete cDNA of Sox9a gene was 1 842 bp long c...Two transcription factors, Sox9a and Foxl2 were cloned from half-smooth tongue sole (Cynoglossus semilaevis). Sox9a is a new duplication of C.semilaevis Sox9 gene. The complete cDNA of Sox9a gene was 1 842 bp long coding for 487 amino acids and Foxl2 gene was 1 817 bp coding for 308 amino acids. Sox9a was expressed higher in male brain, pituitary and gonad and Foxl2 were higher in female brain, pituitary and gonad. The expression of Sox9a gene in gonads of neo-males was higher than that of normal females. Sox9a and Foxl2 were expressed higher in gastrula stage than in other stages. In the period of sex differentiation, the expression of Sox9a was first going up and then going down and Foxl2 was higher expressed at 37 dph. The highest expressions of Sox9a and Foxl2 genes occurred in nine-month and 12-month old gonad tissues, respectively. Sox9a gene was considered to have inevitable links with sex reversal, sex differentiation and cell differentiation of embryos and formation of spermatogenic ceils. Foxl2 was considered to play a role in sex differentiation, cell differentiation of embryos but not to be necessary for sex determination and sex reversal.展开更多
The Chinese tongue sole(Cynoglossus semilaevis) is widely cultured in the coastal region of East Asia and has excellent economic value. However, the high albino rate of the breeding population has caused a significant...The Chinese tongue sole(Cynoglossus semilaevis) is widely cultured in the coastal region of East Asia and has excellent economic value. However, the high albino rate of the breeding population has caused a significant loss to the aquaculture industry. To study the molecular mechanism of albinism, the present study used an albino Chinese tongue sole family to construct three simple sequence repeat(SSR) linkage groups, and draft a preliminary linkage map related to albinism. After albinism-related loci mapping, 18 albinism-related loci were detected under two models(containing 2407 genes) compared to the Chinese tongue sole genome. One of these loci, the tyrosinase related protein(tyrp2), which has been reported previously as an important gene regulating both eumelanin and phaeomelanin levels, was indicated to be the possible cause of albinism. Thirty-five Gene Ontology(GO) terms and 14 Kyoto Encyclopedia of Genes and Genome pathways were annotated via bioinformatic analyses. One GO term with protein tyrosine kinase activity, which contained 10 genes, was previously suggested to affect fish albinism. These results establish a foundation for further in-depth study of albinism in Chinese tongue sole.展开更多
The phenomenon of sex dimorphism prevails among many fi sh species. It has attracted the general research interest due to its close relationship to fi sh growth and thus aquaculture productivity. In Chinese tongue sol...The phenomenon of sex dimorphism prevails among many fi sh species. It has attracted the general research interest due to its close relationship to fi sh growth and thus aquaculture productivity. In Chinese tongue sole ( Cynoglossus semilaevis ), 17β-estradiol (E2) can be used reportedly to induce the feminization of fi sh, although the detailed regulatory network remained elusive. We treated the tongue sole fry before sex diff erentiation with E2 (10 and 30 μg/L) to identify potential targets of E2 in Chinese tongue sole. The E2 treatment indeed induced genetic male fi sh sex-reversal to phenotypic female. Using an iTRAQ-based comparative proteomic analysis, 409 proteins that diff erentially expressed after E2 induction were identifi ed, including 259 up-regulated and 150 down-regulated proteins. Furthermore, 19 diff erentially expressed proteins identifi ed in the comparative proteomic analysis were selected to assess their transcription and eight of them exhibited the same tendency. Functions of the eight proteins included mainly nucleotide and protein binding. Interestingly, a far upstream element-binding protein 3-like isoform exhibited the signifi cant upregulation both at transcription and translation levels after E2 treatment. This work identifi ed a set of candidate proteins for E2 response and deepened our understanding of E2 regulatory mechanism.展开更多
Galectins,a family of ?-galactoside-binding proteins,participate in both innate immunity and adaptive immunity.This study identified one novel galectin-related protein from half-smooth tongue sole Cynoglossus semilaev...Galectins,a family of ?-galactoside-binding proteins,participate in both innate immunity and adaptive immunity.This study identified one novel galectin-related protein from half-smooth tongue sole Cynoglossus semilaevis,which was designated as Cs GRP.The full-length c DNA of its encoding gene was 785 bp in length with a 528 bp open reading frame encoding a putative protein of 176 amino acids.The deduced Cs GRP contained a putative 131-aa galactoside-binding lectin domain and 3 critical residues responsible for carbohydrate binding(R^(93),W^(109) and R^(114)).Genomic structural analysis revealed that Cs GRP consisted of five exons and four introns.Cs GRP showed 68% similarity with Poecilia latipinna GRP and 67% similarity with Stegastes partitus GRP.Cs GRP showed the highest expression level in liver,although its expression was detected in all tested tissues.When challenged with Vibrio harveyi,the expression of Cs GRP was significantly down-regulated in liver(P < 0.05).In addition,we found that in spleen and kidney of C.semilaevis,the Cp G island of Cs GRP showed significantly higher(P < 0.05) methylation level in disease-resistant family of C.semilaevis(DR-Cs) than in disease-susceptible ones(DS-Cs).Our results suggested that Cs GRP may play important roles in the immune response of C.semilaevis.Moreover,DNA methylation patterns provided valuable data for understanding the relationship between epigenetic regulation and immunity,which would assist the animal genetic research and improve the animal breeding in the future.展开更多
The signaling molecule hedgehog(Hh) is essential for cellular signaling required for body pattern formation in embryonic and individual development in vertebrate and invertebrates.Patched 1(Ptc1),a receptor of Hh,...The signaling molecule hedgehog(Hh) is essential for cellular signaling required for body pattern formation in embryonic and individual development in vertebrate and invertebrates.Patched 1(Ptc1),a receptor of Hh,mediates the activity of Hh by binging the Hh ligands.In this study,the Ptc1 of half-smooth tongue sole Cynoglossus semilaevis(CsPtc1) was cloned and characterized.The full-length of CsPtc1 cDNA is 5 212 nucleotides(nt),and encodes a protein with 1 543 amino acid residues.CsPtc1 shared many features with Ptc1 of other telesot species.Real-time quantitative PCR revealed CsPtc1 mRNA expressed in brain,liver,heart,gill,intestines,spleen,gonad and kidney,with expression level in testis significantly higher than in ovary.In testis,hybridization signals were mainly detected in primary spermatocytes,secondary spermatocytes,and sertoli cells,while weak signals were found in oocytes.Correspondingly,the degree of methylation is higher in female than in male and pseudomale.Results indicate that CsPtc1 may be involved in Desert Hedgehog(DHH) maintenance of the male and pseudo-male germ line and spermatogenesis.展开更多
The cyp19ala gene encodes an aromatase that plays a key role in sex differentiation of the gonad. The first bacterial artificial chromosome (BAC) sequence of half-smooth tongue sole (Cynoglossus sernilaeuis) conta...The cyp19ala gene encodes an aromatase that plays a key role in sex differentiation of the gonad. The first bacterial artificial chromosome (BAC) sequence of half-smooth tongue sole (Cynoglossus sernilaeuis) containing the intact cyp19ala gene was reported and the conservation and synteny of the cyp19ala gene among teleosts were analyzed in the study. The BAC is 107 367 bp in size, with an overall guanine-cytosine (GC) content of 43.44%, and contains 4.38% transposable elements. Nine genes were predicted, including seven functional genes and two hypothetical genes. The cyp19ala gene of all tested teleosts has nine exons and eight introns, and potential binding sites flanking the transcriptional start site are conserved. The ex- pression pattern among teleosts is also similar during ovarian differentiation. Synteny analysis revealed a conserved gene cluster PKH4B-SL9A5-FHOD3-CEBPG-CEBPA among teleosts. These findings suggest that, among teleosts, cyp19ala genes not only have similar genomic structures, but also have conserved function- s. The genomic environment of cyp19ala in tongue sole is not universal in teleosts, reflecting the particular evolution of tongue sole cyp19ala after it diverged from the other teleosts.展开更多
基金The National High Technology Research and Development Program of China (863 Program) under contract No.2006AA10A401the Taishan Scholar Project of Shandong Province,Chinathe National Natural Science Foundation of China under contract Nos 41006107 and 30972244
文摘Two transcription factors, Sox9a and Foxl2 were cloned from half-smooth tongue sole (Cynoglossus semilaevis). Sox9a is a new duplication of C.semilaevis Sox9 gene. The complete cDNA of Sox9a gene was 1 842 bp long coding for 487 amino acids and Foxl2 gene was 1 817 bp coding for 308 amino acids. Sox9a was expressed higher in male brain, pituitary and gonad and Foxl2 were higher in female brain, pituitary and gonad. The expression of Sox9a gene in gonads of neo-males was higher than that of normal females. Sox9a and Foxl2 were expressed higher in gastrula stage than in other stages. In the period of sex differentiation, the expression of Sox9a was first going up and then going down and Foxl2 was higher expressed at 37 dph. The highest expressions of Sox9a and Foxl2 genes occurred in nine-month and 12-month old gonad tissues, respectively. Sox9a gene was considered to have inevitable links with sex reversal, sex differentiation and cell differentiation of embryos and formation of spermatogenic ceils. Foxl2 was considered to play a role in sex differentiation, cell differentiation of embryos but not to be necessary for sex determination and sex reversal.
基金financially supported by the National Natural Science Foundation of China (Nos. 31570078, 31472273)the China Agriculture Research System (No. CARS-47-G03)the Taishan Scholar Climbing Program of Shandong Province, China
文摘The Chinese tongue sole(Cynoglossus semilaevis) is widely cultured in the coastal region of East Asia and has excellent economic value. However, the high albino rate of the breeding population has caused a significant loss to the aquaculture industry. To study the molecular mechanism of albinism, the present study used an albino Chinese tongue sole family to construct three simple sequence repeat(SSR) linkage groups, and draft a preliminary linkage map related to albinism. After albinism-related loci mapping, 18 albinism-related loci were detected under two models(containing 2407 genes) compared to the Chinese tongue sole genome. One of these loci, the tyrosinase related protein(tyrp2), which has been reported previously as an important gene regulating both eumelanin and phaeomelanin levels, was indicated to be the possible cause of albinism. Thirty-five Gene Ontology(GO) terms and 14 Kyoto Encyclopedia of Genes and Genome pathways were annotated via bioinformatic analyses. One GO term with protein tyrosine kinase activity, which contained 10 genes, was previously suggested to affect fish albinism. These results establish a foundation for further in-depth study of albinism in Chinese tongue sole.
基金Supported by the Natural Science Foundation of Shandong Province(No.ZR2014CQ053)the National Natural Science Foundation of China(No.31402293)the Taishan Scholar Climbing Program of Shandong Province,China
文摘The phenomenon of sex dimorphism prevails among many fi sh species. It has attracted the general research interest due to its close relationship to fi sh growth and thus aquaculture productivity. In Chinese tongue sole ( Cynoglossus semilaevis ), 17β-estradiol (E2) can be used reportedly to induce the feminization of fi sh, although the detailed regulatory network remained elusive. We treated the tongue sole fry before sex diff erentiation with E2 (10 and 30 μg/L) to identify potential targets of E2 in Chinese tongue sole. The E2 treatment indeed induced genetic male fi sh sex-reversal to phenotypic female. Using an iTRAQ-based comparative proteomic analysis, 409 proteins that diff erentially expressed after E2 induction were identifi ed, including 259 up-regulated and 150 down-regulated proteins. Furthermore, 19 diff erentially expressed proteins identifi ed in the comparative proteomic analysis were selected to assess their transcription and eight of them exhibited the same tendency. Functions of the eight proteins included mainly nucleotide and protein binding. Interestingly, a far upstream element-binding protein 3-like isoform exhibited the signifi cant upregulation both at transcription and translation levels after E2 treatment. This work identifi ed a set of candidate proteins for E2 response and deepened our understanding of E2 regulatory mechanism.
基金supported by the National Natural Science Foundation(No.31530078)the Central Public-Interest Scientific Institution Basal Research Fund,CAFS(Nos.2016HY-ZD0201,2017GH02)+4 种基金the China Agriculture Research System(No.CARS-47-G03)the Taishan Scholar Climbing Project Fund of Shandong,Chinathe China Postdoctoral Science Foundation(No.2015M582171)the Post-Doctoral Applied Research Project Fund of Qingdao CityApplied Basic Research Project of Qingdao City(No.16-5-1-52-jch)
文摘Galectins,a family of ?-galactoside-binding proteins,participate in both innate immunity and adaptive immunity.This study identified one novel galectin-related protein from half-smooth tongue sole Cynoglossus semilaevis,which was designated as Cs GRP.The full-length c DNA of its encoding gene was 785 bp in length with a 528 bp open reading frame encoding a putative protein of 176 amino acids.The deduced Cs GRP contained a putative 131-aa galactoside-binding lectin domain and 3 critical residues responsible for carbohydrate binding(R^(93),W^(109) and R^(114)).Genomic structural analysis revealed that Cs GRP consisted of five exons and four introns.Cs GRP showed 68% similarity with Poecilia latipinna GRP and 67% similarity with Stegastes partitus GRP.Cs GRP showed the highest expression level in liver,although its expression was detected in all tested tissues.When challenged with Vibrio harveyi,the expression of Cs GRP was significantly down-regulated in liver(P < 0.05).In addition,we found that in spleen and kidney of C.semilaevis,the Cp G island of Cs GRP showed significantly higher(P < 0.05) methylation level in disease-resistant family of C.semilaevis(DR-Cs) than in disease-susceptible ones(DS-Cs).Our results suggested that Cs GRP may play important roles in the immune response of C.semilaevis.Moreover,DNA methylation patterns provided valuable data for understanding the relationship between epigenetic regulation and immunity,which would assist the animal genetic research and improve the animal breeding in the future.
基金The National Natural Science Foundation under contract Nos 31130057 and 31472269the Taishan Scholar Project Fund of Shandong of China
文摘The signaling molecule hedgehog(Hh) is essential for cellular signaling required for body pattern formation in embryonic and individual development in vertebrate and invertebrates.Patched 1(Ptc1),a receptor of Hh,mediates the activity of Hh by binging the Hh ligands.In this study,the Ptc1 of half-smooth tongue sole Cynoglossus semilaevis(CsPtc1) was cloned and characterized.The full-length of CsPtc1 cDNA is 5 212 nucleotides(nt),and encodes a protein with 1 543 amino acid residues.CsPtc1 shared many features with Ptc1 of other telesot species.Real-time quantitative PCR revealed CsPtc1 mRNA expressed in brain,liver,heart,gill,intestines,spleen,gonad and kidney,with expression level in testis significantly higher than in ovary.In testis,hybridization signals were mainly detected in primary spermatocytes,secondary spermatocytes,and sertoli cells,while weak signals were found in oocytes.Correspondingly,the degree of methylation is higher in female than in male and pseudomale.Results indicate that CsPtc1 may be involved in Desert Hedgehog(DHH) maintenance of the male and pseudo-male germ line and spermatogenesis.
基金The National Nature Science Foundation of China under contract Nos 41006107, 31072202 and 31130057the National High-Technology R&D Program of China (863 Program) under contract No. 2012AA10A403-2+1 种基金the Special Fund for Agro-scientific Research in the Public Interest of China under contract No. 200903046Taishan Scholar Project Fund of Shandong of China
文摘The cyp19ala gene encodes an aromatase that plays a key role in sex differentiation of the gonad. The first bacterial artificial chromosome (BAC) sequence of half-smooth tongue sole (Cynoglossus sernilaeuis) containing the intact cyp19ala gene was reported and the conservation and synteny of the cyp19ala gene among teleosts were analyzed in the study. The BAC is 107 367 bp in size, with an overall guanine-cytosine (GC) content of 43.44%, and contains 4.38% transposable elements. Nine genes were predicted, including seven functional genes and two hypothetical genes. The cyp19ala gene of all tested teleosts has nine exons and eight introns, and potential binding sites flanking the transcriptional start site are conserved. The ex- pression pattern among teleosts is also similar during ovarian differentiation. Synteny analysis revealed a conserved gene cluster PKH4B-SL9A5-FHOD3-CEBPG-CEBPA among teleosts. These findings suggest that, among teleosts, cyp19ala genes not only have similar genomic structures, but also have conserved function- s. The genomic environment of cyp19ala in tongue sole is not universal in teleosts, reflecting the particular evolution of tongue sole cyp19ala after it diverged from the other teleosts.
