The FTZ-F1 genes encode orphan receptors of the nuclear receptor superfamily and in mammals have been found to play important roles in the proper development of the adrenal-gonadal axis and sex-determination.We isolat...The FTZ-F1 genes encode orphan receptors of the nuclear receptor superfamily and in mammals have been found to play important roles in the proper development of the adrenal-gonadal axis and sex-determination.We isolated the homologue of FTZ-F1 in genetically improved farmed tilapia(gfFTZ-F1).The full-length cDNA was isolated from the ovary,which included an open reading frame encoding a predicted protein of 486 amino acids.Sequence,tissue distribution and phylogenic analysis of the FTZ-F1 showed that the gfFTZ-F1 belonged to SF-1/Ad4BP group and that gfFTZ-F1 transcripts were only expressed in the gonads and kidney but not in other tissues.Likewise our data suggests that the gfFTZ-F1 gene may share similar functions with other fish and mammalian counterparts,though further study is needed to make any definitive conclusions.展开更多
The FTZ-F1 genes encode orphan receptors of the nuclear receptor superfamily and in mammals have been found to play important roles in the proper development of the adrenal-gonadal axis and sex-determination.We isolat...The FTZ-F1 genes encode orphan receptors of the nuclear receptor superfamily and in mammals have been found to play important roles in the proper development of the adrenal-gonadal axis and sex-determination.We isolated the homologue of FTZ-F1 in genetically improved farmed tilapia(gfFTZ-F1).The full-length cDNA was isolated from the ovary,which included an open reading frame encoding a predicted protein of 486 amino acids.Sequence,tissue distribution and phylogenic analysis of the FTZ-F1 showed that the gfFTZ-F1 belonged to SF-1/Ad4BP group and that gfFTZ-F1 transcripts were only expressed in the gonads and kidney but not in other tissues.Likewise our data suggests that the gfFTZ-F1 gene may share similar functions with other fish and mammalian counterparts,though further study is needed to make any definitive conclusions.展开更多
[Objectives] This study aimed to determine the infection pathway and target organs of Streptococcus agalactiae in GIFT strain of Nile tilapia, thus providing theoretical basis for the breeding of disease-resistant til...[Objectives] This study aimed to determine the infection pathway and target organs of Streptococcus agalactiae in GIFT strain of Nile tilapia, thus providing theoretical basis for the breeding of disease-resistant tilapia and development of S. agalactiae vaccines.[Methods] GIFT strain of Nile tilapia was inoculated by S. agalactiae through intraperitoneal injection, oral gavage and in vitro immersion. The gill, spleen, liver and small intestine tissues of infected tilapia were collected for pathomorphological observation. Immunohistochemical localization was conducted using rabbit anti- S. agalactiae serum to identify the distribution pattern of S. agalactiae in various tissues of tilapia and its target organs via different infection pathways.[Results] GIFT strain of Nile tilapia could be infected by S. agalactiae via three artificial inoculation modes. Specifically, pathological changes occurred at 2 h post-inoculation in intraperitoneal injection and oral gavage groups, whereas tilapia in in vitro immersion group showed pathological changes at 5 h post-inoculation, and the lesion intensity in in vitro immersion group was slighter than that in intraperitoneal injection and oral gavage groups. Immunohistochemical localization indicated that the appearance time of positive signals in intraperitoneal injection group demonstrated an order of spleen→liver and gill→small intestine; positive signals in oral gavage group appeared in the order of small intestine→gill and spleen→liver; the appearance time of positive signals in in vitro immersion group showed an order of gill→spleen→liver and small intestine.[Conclusions] GIFT strain of Nile tilapia could be infected by S. agalactiae via intraperitoneal injection, oral gavage and in vitro immersion. The corresponding positive signals for pathogen infection were preferentially present in the spleen, intestine and gill tissues. Thus, preventing S. agalactiae contamination in aquaculture water and food sources is an effective measure to control the outbreak of S. agalactiae infections in tilapia under natural aquaculture conditions.展开更多
基金the Natural Science Foundation of Shanxi Province,China (2009021038)the Doctor Initial Foundation of Shanxi Agricultural University (XB2009003)+2 种基金the Science and Technology Innovational Foundation of Shanxi Agricultural University (2009005)the Nonprofit Research Institutes,Special Foundation for Operating Expenses of Basic Research Projects of Guangxi Zhuang Autonomous Region(2060302 GXIF-2008-01)the Scientific Research and Technological Development Projects of Nanning City(200801016B)
文摘The FTZ-F1 genes encode orphan receptors of the nuclear receptor superfamily and in mammals have been found to play important roles in the proper development of the adrenal-gonadal axis and sex-determination.We isolated the homologue of FTZ-F1 in genetically improved farmed tilapia(gfFTZ-F1).The full-length cDNA was isolated from the ovary,which included an open reading frame encoding a predicted protein of 486 amino acids.Sequence,tissue distribution and phylogenic analysis of the FTZ-F1 showed that the gfFTZ-F1 belonged to SF-1/Ad4BP group and that gfFTZ-F1 transcripts were only expressed in the gonads and kidney but not in other tissues.Likewise our data suggests that the gfFTZ-F1 gene may share similar functions with other fish and mammalian counterparts,though further study is needed to make any definitive conclusions.
基金the Natural Science Foundation of Shanxi Province,China(2009021038)the Doctor Initial Foundation of Shanxi Agricultural University(XB2009003)+2 种基金the Science and Technology Innovational Foundation of Shanxi Agricultural University(2009005)the Nonprofit Research Institutes,Special Foundation for Operating Expenses of Basic Research Projects of Guangxi Zhuang Autonomous Region(2060302 GXIF-2008-01)the Scientific Research and Technological Development Projects of Nanning City(200801016B)。
文摘The FTZ-F1 genes encode orphan receptors of the nuclear receptor superfamily and in mammals have been found to play important roles in the proper development of the adrenal-gonadal axis and sex-determination.We isolated the homologue of FTZ-F1 in genetically improved farmed tilapia(gfFTZ-F1).The full-length cDNA was isolated from the ovary,which included an open reading frame encoding a predicted protein of 486 amino acids.Sequence,tissue distribution and phylogenic analysis of the FTZ-F1 showed that the gfFTZ-F1 belonged to SF-1/Ad4BP group and that gfFTZ-F1 transcripts were only expressed in the gonads and kidney but not in other tissues.Likewise our data suggests that the gfFTZ-F1 gene may share similar functions with other fish and mammalian counterparts,though further study is needed to make any definitive conclusions.
基金Supported by Science and Technology Major Project of Guangxi(GK AA17204080-2)Guangxi Key Research and Development Program(GK AB16380077)+1 种基金Freshwater Fishery Industry Technology System of China(CARS-46)Aquathe Disease Resistance Breeding Project of Natinal Blue Granary plan(2019-2023)
文摘[Objectives] This study aimed to determine the infection pathway and target organs of Streptococcus agalactiae in GIFT strain of Nile tilapia, thus providing theoretical basis for the breeding of disease-resistant tilapia and development of S. agalactiae vaccines.[Methods] GIFT strain of Nile tilapia was inoculated by S. agalactiae through intraperitoneal injection, oral gavage and in vitro immersion. The gill, spleen, liver and small intestine tissues of infected tilapia were collected for pathomorphological observation. Immunohistochemical localization was conducted using rabbit anti- S. agalactiae serum to identify the distribution pattern of S. agalactiae in various tissues of tilapia and its target organs via different infection pathways.[Results] GIFT strain of Nile tilapia could be infected by S. agalactiae via three artificial inoculation modes. Specifically, pathological changes occurred at 2 h post-inoculation in intraperitoneal injection and oral gavage groups, whereas tilapia in in vitro immersion group showed pathological changes at 5 h post-inoculation, and the lesion intensity in in vitro immersion group was slighter than that in intraperitoneal injection and oral gavage groups. Immunohistochemical localization indicated that the appearance time of positive signals in intraperitoneal injection group demonstrated an order of spleen→liver and gill→small intestine; positive signals in oral gavage group appeared in the order of small intestine→gill and spleen→liver; the appearance time of positive signals in in vitro immersion group showed an order of gill→spleen→liver and small intestine.[Conclusions] GIFT strain of Nile tilapia could be infected by S. agalactiae via intraperitoneal injection, oral gavage and in vitro immersion. The corresponding positive signals for pathogen infection were preferentially present in the spleen, intestine and gill tissues. Thus, preventing S. agalactiae contamination in aquaculture water and food sources is an effective measure to control the outbreak of S. agalactiae infections in tilapia under natural aquaculture conditions.