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1.
陶敏  刘少军  张卓慧  陈婕  刘文彬  刘筠 《水产学报》2014,38(9):1201-1210
为研究性腺型芳香化酶P450aromA(cyp19a1a基因编码)在不同倍性鲫鲤卵巢发育过程中的作用,实验采用同源克隆和cDNA末端快速扩增技术(RACE),获得了二倍体红鲫、三倍体湘云鲫和四倍体鲫鲤的cyp19a1a基因cDNA全长。结果显示,3种鱼cyp19a1a基因均编码517个氨基酸残基,而且编码的蛋白都包含P450aromA特有的跨膜螺旋区、I-螺旋区、Ozol’s肽区、芳香化酶特异保守区以及血红素结合区。采用RT-PCR分析cyp19a1a基因mRNA在3种不同倍性鱼类组织中的表达情况,结果显示,cyp19a1a基因主要在实验鱼的卵巢中表达,其次在精巢、脑、脾脏有少量表达。采用实时荧光定量PCR对cyp19a1a基因mRNA在不同倍性鱼卵巢中的表达进行分析,结果发现,cyp19a1a基因在不同倍性鱼的非繁殖期卵巢的表达都高于繁殖期卵巢,并且在繁殖期和非繁殖期,cyp19a1a基因在三倍体湘云鲫的表达量高于二倍体红鲫和四倍体鲫鲤。采用免疫组织化学方法对CYP19A蛋白在不同倍性鲫鲤卵巢中的定位进行分析,结果发现,CYP19A蛋白主要定位在滤泡细胞、Ⅳ时相卵母细胞的放射膜上以及Ⅱ时相卵母细胞的卵浆中。研究表明,性腺型芳香化酶在不同倍性鲫鲤卵巢发育过程中的表达存在一定的差异性,三倍体鱼cyp19a1a基因mRNA水平表达异常,推测与其不育有关联性。  相似文献   

2.
奥利亚罗非鱼卵巢芳香化酶基因的克隆及其表达   总被引:3,自引:0,他引:3       下载免费PDF全文
采用RT-PCR和快速扩增cDNA末端(Rapid amplification of cDNA ends,RACE)法分离出奥利亚罗非鱼(Oreochromis aureus)卵巢芳香化酶(P450aromA)的全序列,得到1784bp的全长eDNA,包括38bp5'非翻译区,1566 bp阅读框以及含Poly(A)信号(AATAAA)的167bp3'非翻译区[不包括Poly(A)].阅读框共编码521个氨基酸,推算的蛋白质分子量为59kD.同源性分析显示,奥利亚罗非鱼P450aromA的氨基酸序列与其他鱼类性腺芳香化酶(P450arom)具有70%以上的同源性,与其他鱼类脑P450arom有60%左右同源性,但其芳香化酶高保守区包括I-螺旋区、芳香化酶特异保守区和血红素结合区分别与其他鱼类P450arom的同源性高达83%~96%、78%~86%和85% ~100%.系统发育分析表明,奥利亚罗非鱼P450aromA属于鱼类性腺P450arom,分子系统进化树分析结果与根据传统的形态学和生化特征分类结果基本一致.生物信息学分析显示,奥利亚罗非鱼P450aromA基因编码的蛋白无信号肽,无跨膜区域,为非分泌型蛋白.同时还含有多个酪蛋白激酶Ⅱ磷酸化位点、N-糖基激化位点、N-肉豆蔻酰化位点及蛋白激酶C磷酸化位点.使用Taqman探针法检测P450aromA在奥利亚罗非鱼咸鱼各种组织中的表达.结果发现,P450aromA只在卵巢中表达.同时比较了鱼苗、鱼种和成鱼卵巢中P450aromA的表达差异,结果显示,鱼苗中无P450aromA的表达,成鱼中P450aromA的表达量是鱼种阶段的30倍.  相似文献   

3.
黄颡鱼卵巢P-450arom基因的克隆及组织表达   总被引:3,自引:0,他引:3       下载免费PDF全文
P-450芳香化酶(P450arom)是催化雄激素生物合成雌激素的关键酶。本研究采用RT-PCR和RACE(Rapid Amplification of cDNA Ends)法,分离和克隆了黄颡鱼(Pelteobasrus fulvidraco)卵巢P450芳香化酶基因HP450arom A,并使用荧光实时定量RT—PCR对其组织表达进行了分析。结果表明,HP450arom A cDNA全长1914bp[不包括poly(A)],5’端非翻译区有13bp,3’端362bp[不包含poly(A)],阅读框(Open Reading Frame,ORF)1539bp,翻译成513个氨基酸,计算的蛋白质分子量为58.7kD。同源性分析显示,HP450aromA的氨基酸序列与其他鱼卵巢P450arom具有60%~90%的同源性,与其他鱼脑P450arom为57%-60%同源,与鸡卵巢和人胚盘P450arom则为51%和52%同源;但芳香化酶高保守区包括Ⅰ-螺旋区,芳香化酶特异保守区Ⅱ和血红素结合区Ⅲ和其他鱼芳香化酶相比同源性分别高达68%~97%、78%-91%和71%~100%。系统发育分析表明,HP450arom A与鱼类卵巢P450arom属于同一分支,黄颡鱼和鲇鱼亲缘关系最近,这和传统的分类方法结论一致。荧光实时定量RT-PCR研究结果显示,HP450arom A在前脑、下丘脑、脑垂体、精巢、肝脏中不表达,只在卵巢中表达。这说明HP450arom A的表达具有组织特异性,并可推测其对卵巢发育起着重要作用。与本室分离的HP450arom B在卵巢的表达量相比,卵巢中HP450arom A的表达量是HP450arom B的18.7倍。  相似文献   

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黄鳝脑芳香化酶基因cDNA的克隆及组织表达特异性分析   总被引:1,自引:0,他引:1  
根据NCBI数据库报道的黄鳝芳香化酶基因的gDNA序列,设计了一对特异性引物.用Trizol试剂盒提取黄鳝脑总RNA,反转录获得cDNA第一条链,进行PCR扩增.扩增产物经过回收、连接、测序后得到了一条长1514 bp的芳香化酶基因cDNA序列.同源性比较表明该基因属于脑型P450aromB,与其他鱼类脑型P450aromB的同源性较高(>70%),与性腺型P450aromA的同源性较低(<60%),与自身性腺型芳香化酶同源性为59.5%.采用RT-PCR的方法对该基因在雄性黄鳝的各组织表达情况进行了分析,结果表明,该基因的转录本较高的表达于脑和精巢中,较低的在皮肤中表达,而在肝脏、心脏、小肠、肌肉等组织中没有检测到该基因的表达.  相似文献   

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采用组织学和分子生物学方法,研究了投喂芳香化酶抑制剂来曲唑(LE)后暗纹东方鲀(Takifugu obscures)初孵仔鱼CYP19A、DMRT1基因表达以及性腺的组织学变化,以期进一步了解P450芳香化酶(P450arom)在鱼类早期性别分化过程中的作用。RT-PCR结果显示,对照组样品CYP19A和DMRT1表达显示性二态,雌性表达CYP19A基因,雄性表达DMRT1基因。LE处理组在性别分化期间,雄性样品单一表达DMRT1,雌性样品则同时表达CYP19A和DMRT1。qRT-PCR结果显示:LE处理组雌性仔鱼CYP19A基因表达被显著抑;虽然在仔鱼出膜后22d(dph)的表达水平高于9 dph,但仅为同日对照组的2.11%。LE处理组雌性样品22 dph时DMRT1基因表达量上调,至150 dph时达对照组雄性水平。55 dph的性腺组织学结果表明,LE处理可导致暗纹东方鲀稚鱼原始卵巢退化,并向功能性精巢发育。150 dph的LE处理组性腺均为精巢,并与对照组精巢发育同步。结论认为,暗纹东方鲀性腺分化期间P450arom是卵巢形成和维持发育所必须的,抑制P450arom活性可导致雌性暗纹东方鲀发生雄性化逆转。  相似文献   

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黄颡鱼脑P-450芳香化酶基因的克隆和组织表达   总被引:6,自引:1,他引:5  
徐跑 《水产学报》2005,29(5):591-598
P-450芳香化酶(P450arom)是催化雄激素生物合成雌激素的关键酶。本文采用RT-PCR和RACE法,首次分离和克隆了黄颡鱼脑P450芳香酶基因HP450aromB,并使用荧光实时定量RT-PCR对其组织表达进行了研究。结果表明HP450aromB cDNA全长2080bp(不包括poly(A)),5′端非翻译区有25bp,3′端555bp(不包含poly(A)),阅读框(open reading frame,ORF)1500bp,编码500个氨基酸,推测的蛋白质分子量为56kDa。同源性分析显示,HP450aromB的氨基酸序列与其它鱼脑P450arom具有70%以上的同源性,与其它鱼卵巢P450arom为60%左右同源,与人胚盘和鸡卵巢P450arom则为50%左右同源;但芳香化酶高保守区包括Ⅰ-螺旋区,芳香化酶特异保守区Ⅱ及血红系结合区Ⅲ和其它鱼芳香化酶相比同源性分别为83%~96%,78%~86%和85%~100%。系统发育分析表明HP450aromB与鱼类脑P450arom属于同一分支的,并且也显示了黄颡鱼和鲶鱼分类地位最近,这和传统的分类一致。实时定量RT-PCR研究显示,HP460arom B在前脑,下丘脑,垂体、卵巢、精巢均有表达,在肝脏没表达,表达量脑部高于性腺,但雌雄鱼脑部HP450aromB的表达总量没显著差异。  相似文献   

7.
甘为  方展强 《水产学报》2016,40(10):1542-1555
硬骨鱼类CYP19基因与生物的性别分化和激素调节相关,因此可开发用来探究环境激素污染与基因表达的关系。本研究首次克隆和分析了食蚊鱼CYP19a cDNA的全系列,为将CYP19基因作为监测环境激素生物标志物的研究提供了全面的实验数据。根据CYP19a基因c DNA保守区域设计引物,扩增保守区域并测序。采用RACE法扩增食蚊鱼CYP19a基因c DNA序列全长,对其蛋白序列进行同源性分析,并将序列应用于CYP19a mRNA转录水平的RT-PCR法检测中。成功克隆食蚊鱼CYP19a基因全长,获得CYP19a基因总长为2020 bp,ORF为238~1791 bp,共编码518个氨基酸,对其编码的蛋白质进行有关信号肽、跨膜螺旋、亲水性/疏水性、一级结构、二级结构和三级结构分析,与其他硬骨鱼类底鰆、青鰆、平鲷、鲫、鲤和斑马鱼的性腺CYP19a基因作同源性比较,其基因相似度分别为93%、84%、84%、71%、71%和66%。用MEGA6.0软件对19个物种的CYP19a基因进行聚类分析,食蚊鱼CYP19a基因与底鰆、青鰆同源性最高,说明芳香化酶在进化上相对保守。确定从食蚊鱼性腺所克隆的CYP19a基因是芳香化酶基因,证明食蚊鱼的芳香化酶是由CYP19a和CYP19b两种基因编码的。食蚊鱼卵巢芳香化酶具有3个高度保守的片段,并具有催化活性。  相似文献   

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向性成熟的泥鳅(Misgurnus anguillicaudatus)和大鳞副泥鳅(Paramisgurnus dabryanus)个体注射绒毛膜促性腺激素,对所获得的卵子和精子进行人工授精。把胚胎分别置于20℃、25℃和30℃条件下,使其发育。经性腺检查发现,随着温度的升高两种泥鳅中雄性个体所占的比例明显升高,获得明显的偏雄比率群体。根据已知细胞色素P450芳香化酶CYP19α基因序列设计嵌套简并引物用巢式PCR扩增并克隆出了两种泥鳅的CYP19α的DNA片段。泥鳅CYP19α片段和大鳞副泥鳅CYP19α片段分别长941bp和935bp。在此基础上用各自的特异引物克隆出两种泥鳅CYP19α的相应CDNA片段。通过基因组DNA和cDNA序列的比较证明两种泥鳅的CYP19α基因均包含2个内含子和3个外显子,编码的蛋白质序列长84氨基酸残基。以GAPDH基因为对照,分别对2种泥鳅成体组织和不同发育阶段胚胎的CYP19α进行了半定量RT-PCR表达分析,结果表明,二者在成体组织中具有大致相似的表达模式,在卵巢和脑组织中表达量较大,在精巢和肝组织中微量表达,在胚胎中二者的表达模式差异较大。  相似文献   

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性腺型芳香化酶基因是一种调节雌雄激素平衡的基因。为初步探究暗纹东方鲀性腺型芳香化酶基因在性腺发育和性别分化过程中的作用,通过RACE及荧光定量PCR技术,成功克隆出暗纹东方鲀性腺型芳香化酶基因的cDNA全长序列,共1786 bp,编码514个氨基酸,与红鳍东方鲀及星点东方鲀同源性最高。氨基酸序列分析显示,该基因编码的蛋白是一种稳定的亲水性蛋白,但不存在信号肽序列;性腺型芳香化酶含有38个磷酸化位点、4个N-糖基化位点、2个跨膜保守结构域;其氨基酸序列在哺乳动物和鱼类中均十分保守,且含有跨膜区、Ⅰ-螺旋区、Ozol′s肽区、芳香化酶特异性保守区和亚铁血红素结合区等功能保守区。表达分析显示,暗纹东方鲀性腺型芳香化酶基因主要在肌肉和卵巢中表达,其次在其他组织中也有少量表达,而且在幼鱼不同发育期卵巢中的表达量呈现出逐渐升高再降低的表达趋势,在精巢中则基本不表达。研究结果表明,性腺型芳香化酶基因很可能参与了暗纹东方鲀雌鱼性腺分化后卵巢的发育、雌性特征的维持和其他组织的发育等过程。  相似文献   

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根据5种硬骨鱼已知CYP3A序列保守区设计兼并引物,以异育银鲫cDNA为模板扩增得到CYP3A基因片段,根据得到片段序列设计特异引物并利用cDNA末端快速扩增技术(RACE)获得全长cDNA。得到异育银鲫CYP3A基因全长为1 769 bp,开放阅读框为1 545个核苷酸,编码514个氨基酸。其预测蛋白质分子量为58.624 ku,理论等电点为6.30。将异育银鲫CYP3A序列理论编码氨基酸序列提交细胞色素P450命名委员会(Cytochrome P450 Nomenclature Committee)并由其命名为CYP3A136。氨基酸序列分析显示,其与稀有鮈鲫、草鱼、鲦同源性较高,并且具有高度保守的血红素结合区域FXXGXXXCXG。异育银鲫CYP3A基因的半定量RT-PCR显示,在肝和肠组织中转录水平最高,在肾和鳃中次之,其余组织较低。  相似文献   

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Cytochrome P450 aromatase, which is encoded by the CYP19a gene, converts androgens to estradiol. Considerable evidence suggests that estrogens play an important role in fish reproductive process. Therefore CYP19a is an excellent candidate gene for reproductive traits. Variants in the promoter of the CYP19a gene might also be involved in the control of aromatase expression and affect regulatory mechanism linking cholesterol metabolism to the synthesis of sex steroids. In this study, nine single-nucleotide polymorphisms (SNPs) were detected with polymerase chain reaction-single stranded conformational polymorphism (PCR-SSCP), namely A-680G, G-672A, AGTAGT-649 inserting or deleting, T-623C, C-410A, T7-454A, T-402C, TTTCCAGACTGA-345 inserting or deleting, and G-297C. Nine SNPs within the promoter of the CYP19a gene were tested for association with four reproductive traits [serum testosterone (T), serum 17β-estradiol (E2), hepatosomatic index (HSI), and gonadosomatic index (GSI)] in a population of 50 female Japanese flounder individuals. A locus, P3 (TTTCCAGACTGA-345 inserting or deleting, G-297C), was significantly associated with 17β-estradiol (E2) level (P < 0.05) in female Japanese flounder. In addition, there was significant association between one diplotype based on nine SNPs and reproductive trait. The genetic effect for E2 level of diplotype D3 was significantly higher than those of other diplotypes (P < 0.05). Results indicate that these genetic effects of those variants on E2 level may help to explain CYP19a gene status in the reproductive endocrinology of Japanese flounder.  相似文献   

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Multiple P450 proteins have been purified from several teleost species, including rainbow trout (Oncorhynchus mykiss), scup (Stenotomus chrysops) and Atlantic cod (Gadus morhua). Identity, relationships and/or functions have been established in these fish species for the cytochrome P4501 As. Information about the structure, function, regulation and relationships of other piscine cytochrome P450 (CYP) proteins is sparse. In the present study we have focused on constitutively expressed CYP forms, P450con and LMC5 isolated from rainbow trout, P450A from scup, and P450b from Atlantic cod, and we consider evidence for the relationship of these proteins to mammalian members of the CYP3A subfamily. Reciprocal western blot analysis shows that P450con and LMC5, isolated from rainbow trout in two different laboratories, are closely related and ostensibly identical proteins. These trout proteins show specific reciprocal cross-reactivity with scup P450A, and polyclonal antibodies (PAb) to the trout and scup proteins both recognize cod P450b, indicating that rainbow trout P450con/LMC5, scup P450A and cod P450b are immunochemically-related proteins. In analyses of liver microsomes of trout, scup and cod, PAb to trout P450con/LMC5 and scup P450A recognize only bands that are identical in migration to the CYP proteins purified from these species, and which were used as immunogens. These CYP proteins purified from fish are each immunochemically-related to mammalian CYP3A proteins, showing recognition by PAb to human CYP3A4 and to rat CYP3A1. PAb to the mammalian CYP3As also recognize the same bands in liver microsomes from these fish species as seen by PAb to the fish proteins. These results strongly suggest that these fish proteins are members of theCYP3 gene family and probably theCYP3A subfamily. Although sequence analysis is required before their designation in the CYP3A subfamily can be confirmed and specified, we refer to these as CYP3A-like. Immunoblot analyses of hepatic microsomes from other fish species with PAb to scup P450A and trout P450con show that multiple CYP3A-like proteins are expressed in liver of several species, including killifish (Fundulus heteroclitus) and winter flounder (Pleuronectes americanus). Important questions still remain to be addressed concerning CYP3A structure, multiplicity, physiological function, regulation and metabolism of endogenous as well as exogenous substrates in fish.Part of this study was presented at the 10th International Symposium on Microsomes and Drug Oxidations. Toronto, Canada, July 18–21, 1994.  相似文献   

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Cytochrome P450c17 (CYP17, 17α‐hydroxylase/17,20‐lyase) is a critical enzyme in the production of androgens and estrogens in vertebrates. A 2102 bp full‐length cDNA of P450c17‐II (CYP17A2) has been isolated from the ovary of half‐smooth tongue sole, Cynoglossus semilaevis which encodes 524 amino acids. The putative P450c17‐II enzyme shares higher sequence identity with those of teleosts than with P450c17‐I of vertebrate. The similarity between the two types of tongue sole P450c17 was 48%.Semi‐quantitative RT‐PCR analysis of spatial expression showed the enzyme was specifically expressed in the ovary and the head kidney. However, temporal expression shows that P450c17‐II can be found in the brain. Furthermore, temporal expression pattern of P450c17‐II in ovary and brain revealed developmental stage‐dependency, and ovary P450c17‐II expressed remarkably throughout the whole reproductive cycle. Otherwise, the expression pattern of P450c17‐II in head kidney indicated negative ovary development‐dependence. In addition, combined with our data on P450c17‐I, T and E2 levels, the results further endorse the critical role of P450c17‐II during shift in steroidogenesis, suggesting that P450c17‐I and ‐II may act together to this physiological process. Based on the present study, we indicate an important role for P450c17‐II during ovarian development.  相似文献   

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摘要: 采用组织学和分子生物学方法, 研究了投喂芳香化酶抑制剂来曲唑(LE)后暗纹东方鲀(Takifugu obscures)初孵仔鱼CYP19ADMRT1基因表达以及性腺的组织学变化, 以期进一步了解P450芳香化酶(P450arom)在鱼类早期性别分化过程中的作用。RT-PCR结果显示, 对照组样品CYP19ADMRT1表达显示性二态, 雌性表达CYP19A基因, 雄性表达DMRT1基因。LE处理组在性别分化期间, 雄性样品单一表达DMRT1, 雌性样品则同时表达CYP19ADMRT1qRT-PCR结果显示: LE处理组雌性仔鱼CYP19A基因表达被显著抑; 虽然在仔鱼出膜后22 d(dph)的表达水平高于9 dph, 但仅为同日对照组的2.11%LE处理组雌性样品22 dphDMRT1基因表达量上调, 150 dph时达对照组雄性水平。55 dph的性腺组织学结果表明, LE处理可导致暗纹东方鲀稚鱼原始卵巢退化, 并向功能性精巢发育。150 dphLE处理组性腺均为精巢, 并与对照组精巢发育同步。结论认为, 暗纹东方鲀性腺分化期间P450arom是卵巢形成和维持发育所必须的, 抑制P450arom活性可导致雌性暗纹东方鲀发生雄性化逆转。

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