草鱼免疫相关基因Prkrip1的克隆和表达分析

随着草鱼养殖规模的扩大, 草鱼的病毒性疾病极大地影响着草鱼的产量。开展鱼类病毒免疫反应相关功能基因的研究意义重大。研究首先通过同源克隆的方法从草鱼中克隆到了一段Prkrip1基因的EST序列, 进一步通过RACE、长片段PCR和Genome walking的方法获得了该基因的全长cDNA序列、基因组DNA序列和启动子区序列。氨基酸序列分析显示, Prkrip1含有3个核定位信号和一个双链RNA结合区, 并具有与PKR结合的保守N端区; 荧光报告基因的表达证实我们所克隆到的启动子区是有活性的, 可用于后续该基因的转录调控分析; Real-time PCR分析发现, Prkrip1 基因在草鱼的肝和血中表达量最高, GCRV感染后在大部分免疫组织中均上调表达, 说明该基因确实与病毒感染相关。研究结果为Prkrip1基因在硬骨鱼类的功能研究提供了线索, 也为鱼类天然免疫反应中调控PKR信号通路的系统研究提供了理论依据。       

草鱼钠磷协同转运载体Slc34a2基因的克隆及组织表达分析

为了揭示草鱼对磷的吸收机制,运用RT-PCR和快速扩增cDNA末端方法,从草鱼（Ctenopharyngodon idella）肠中克隆获得钠磷协同转运载体基因Slc34a2,该基因全长为2446 bp,包含了1938 bp的开放阅读框,47 bp的5非编码区（Untranslated region,UTR）和461 bp的3UTR,编码645个氨基酸。草鱼SLC34A2蛋白的分子式为C3215H5125N801O902S30,分子量大小为70.39 kD,等电点为5.68,总平均疏水指数为0.458。对草鱼SLC34A2蛋白结构和功能预测分析,发现SLC34A2蛋白有11个跨膜域,1个半胱氨酸富集区,且N-端在胞外而C-端在胞内,也在第二个细胞外环中发现4个N-糖基化位点。用邻接法构建系统进化树,发现草鱼Slc34a2基因与硬骨鱼类聚类为一支,且草鱼SLC34A2蛋白与鲤（Cyprinus carpio）和斑马鱼（Danio rerio）SLC34A2的相似性最高,分别为90.3%和87.0%。实验采用了实时荧光定量PCR对草鱼Slc34a2 mRNA进行组织表达分析,结果表明Slc34a2 mRNA在组织中广谱表达,且在肠中表达最高,其次是肝脏、鳃、肾脏、脾脏、皮肤、肌肉、脑和头肾。实验为以后研究提高鱼对磷的利用和减少磷的排放奠定分子基础。     

草鱼CD81基因的克隆及功能分析

为研究白细胞表面分化抗原81(CD81)的功能, 对草鱼CD81进行了克隆, CD81全长共1376 bp, 其中5'非翻译区87 bp, 3'非翻译区581 bp, 开放阅读框为708 bp, 包括8个外显子, 7个内含子, 编码235个氨基酸。实验采用实时荧光定量PCR的方法检测了CD81在健康草鱼不同组织中的表达情况及草鱼出血病病毒(GCRV)攻毒前后的表达变化情况。结果显示草鱼CD81在所有被检测组织中均有表达, 在头肾中表达量最高。在GCRV攻毒前后草鱼鳃、脾、肝、肠及头肾5个组织中的CD81表达量均有明显变化。同时, 采用绿色荧光蛋白(GFP)来示踪CD81的亚细胞表达部位, 激光共聚焦显微镜显示, 同人类一样, 草鱼CD81定位于细胞膜上。       

Molecular cloning, characterization and expression analysis of QM gene from grass carp (Ctenopharyngodon idellus) homologous to Wilms' tumor suppressor

QM, a novel gene that was originally identified as a tumor suppressor, has been cloned from species encompassing members of higher vertebrate, plant and fungal kingdoms, but it is not well documented in fish. In present study, a gene homologous to QM was obtained from grass carp (Ctenopharyngodon idellus) head kidney and spleen cDNA library. The full-length grass carp QM (GcQM) cDNA of 759 bp contains a short 5' UTR of 22 bp, a 3' UTR of 89 bp and an open reading frame of 648 nucleotides that translates into a 215-amino acid peptide with a molecular weight of 24.5 kDa. The predicted GcQM contains a series of functional motifs that belong to the QM family signature conserved among different species. Multiple alignment analysis reveals that GcQM shares an overall identity of 62.4% approximately 97.7% with other members of QM family. The fish QM has a closest genetic relationship to chicken homologue Jif-1. The GcQM expresses constitutively in spleen, heart and brain, and significantly up-regulated by Aeromonas hydrophila and grass carp haemorrhagic virus (GCHV) in head kidney, spleen and liver. The results suggest that grass carp QM homolog is an inflammatory stress inducible gene associated with anti-bacterial and viral defense, and it plays an important role in immune defense.     

草鱼和翘嘴鲌fgfrhl-1基因的克隆和表达分析

成纤维细胞生长因子受体同源类似物1(fgfrhl-1)基因是目前仅在鱼类基因组中检测到的fgfr基因家族成员, 该序列在鱼类进化过程中高度保守。为研究fgfrhl-1基因的表达情况和具体的功能, 在亲缘关系较远的草鱼(Ctenopharyngodon idellus)和翘嘴鲌(Culter alburnus Basilewsky)中克隆了fgfrhl-1的cDNA序列, 并通过半定量RT-PCR和冰冻切片原位杂交分析了该基因在成体不同组织中的表达情况。克隆结果的序列分析表明: 草鱼fgfrhl-1 cDNA序列全长为1472 bp, 5′-UTR长213 bp, 3′-UTR长56 bp, 开放阅读框长1203 bp; 翘嘴鲌fgfrhl-1 cDNA序列全长为1886 bp, 5′-UTR长298 bp, 3′-UTR长385 bp, 开放阅读框长1203 bp。在两种鱼类中该基因都编码400个氨基酸, 其预测的氨基酸序列同源性高达95.5%。蛋白二级结构预测表明Fgfrhl-1具有FGFRs家族蛋白的胞内酪氨酸激酶区, 跨膜的螺旋区和胞外配体识别结合区, 但其胞外区比FGFRs缺少了3个免疫球蛋白样结构域。通过RT-PCR方法在两种鱼类的心脏、鳃、肝、脾、尾鳍以及肌肉组织的肌间隔中均检测到了fgfrhl-1表达, 但在肌纤维中均没有检测到其表达。对这两种鱼类的肌肉组织、肝脏和脾脏进行的组织切片原位杂交表明fgfrhl-1只在这些组织和器官的结缔组织及导管中表达, 不在间质细胞结构中表达。这些结果说明: fgfrhl-1的成体组织特异性表达模式在不同鱼类中基本一致, fgfrhl-1在鱼类各组织和器官的结缔组织和导管的细胞中表达, 不在间质细胞中表达。因此, fgfrhl-1可能在鱼类结缔组织及导管分化调控或功能维持中有独特作用。     

锦鲤Hepcidin基因的克隆及其组织特异性表达分析

【目的】克隆锦鲤hepcidin全长cDNA序列(k-hepc),并获得此基因在鱼体内的表达模式。【方法】利用RT-PCR和RACE PCR的方法,从锦鲤肝脏中克隆锦鲤hepcidin的全长cDNA,进行序列测定和分析;锦鲤经肌肉注射维氏气单胞菌0、4、8、12、24和48 h后,分别取其肝、脾、肾、肠、脑、心、肌肉和鳃组织,采用实时荧光定量PCR的方法,以β-actin为内参基因,检测k-hepc基因的表达量。【结果】锦鲤抗菌肽(GenBank登录号KC795559)全长755 bp,编码序列276 bp,编码91个氨基酸,包括信号肽、原肽和成熟肽,成熟肽C端含有8个半胱氨酸,可形成4个分子内二硫键。与已报道的普通鲤鱼hepcidin氨基酸序列的一致性为93%,与其他鱼类hepcidin氨基酸序列的一致性为29%?93%。在本研究所检测的正常锦鲤的组织中,k-hepc均有表达,其中在肝组织中表达量最高,鳃组织中表达量最低。经维氏气单胞菌感染后,k-hepc在肝和心组织中的表达量明显增加,在其余组织中变化不显著。【结论】k-hepc编码的蛋白是Hepcidin家族的成员之一。锦鲤Hepcidin的表达主要受内在调节因素影响。     

草鱼IRE1-like基因的克隆、组织表达及其对微囊藻毒素-LR的响应

为了研究内质网应激相关基因需肌醇酶1(Inositol-requiring enzyme 1, IRE1-like)的结构和生物学功能及其在草鱼(Ctenopharyngodon idella)响应微囊藻毒素-LR(MC-LR)中的作用, 研究根据草鱼转录组测序结果得到该基因家族成员IRE1-like的EST序列, 采用RACE技术获得了草鱼IRE1-like基因的cDNA全长序列(登录号: MG797683)。该基因序列全长3595 bp, 包括3093 bp开放阅读框, 编码1030个氨基酸, 分子量为116.24 kD, 理论等电点为6.26, 具有跨膜结构和信号肽。草鱼IRE1-like基因包含Luminal (39—307 aa)、STKc (569—834 aa)和RNase (837—915 aa)三个结构域。同源性和系统进化树结果表明草鱼IRE1-like基因与斑马鱼IRE1-α基因亲缘关系最近。荧光定量PCR(qRT-PCR)检测结果表明, 草鱼IRE1-like基因在肝脏组织中的表达量最高, 在肌肉、脾脏、鳃和心脏等其他8种不同组织中也均有表达。不同剂量MC-LR诱导草鱼24h和96h后, 25 μg MC-LR/kg BW和100 μg MC-LR/kg BW剂量组中草鱼肝脏IRE1-like基因表达水平分别在24h和96h显著上升(P<0.05)。以上结果初步说明了草鱼IRE1-like基因可能在MC-LR诱导草鱼内质网应激中起着重要的作用, 为进一步研究草鱼IRE1-like基因的功能奠定了基础。     

Cloning and preliminary functional studies of the JAM-A gene in grass carp (Ctenopharyngodon idellus)

Grass carp (Ctenopharyngodon idellus) is a very important aquaculture species in China and other South-East Asian countries; however, disease outbreaks in this species are frequent, resulting in huge economic losses. Grass carp hemorrhage caused by grass carp reovirus (GCRV) is one of the most serious diseases. Junction adhesion molecule A (JAM-A) is the mammalian receptor for reovirus, and has been well studied. However, the JAM-A gene in grass carp has not been studied so far. In this study, we cloned and elucidated the structure of the JAM-A gene in grass carp (GcJAM-A) and then studied its functions during grass carp hemorrhage. GcJAM-A is composed of 10 exons and 9 introns, and its full-length cDNA is 1833 bp long, with an 888 bp open reading frame (ORF) that encodes a 295 amino acid protein. The GcJAM-A protein is predicted to contain a typical transmembrane domain. Maternal expression pattern of GcJAM-A is observed during early embryogenesis, while zygote expression occurs at 8 h after hatching. GcJAM-A is expressed strongly in the gill, liver, intestine and kidney, while it is expressed poorly in the blood, brain, spleen and head kidney. Moreover, lower expression is observed in the gill, liver, intestine, brain, spleen and kidney of 30-month-old individuals, compared with 6-month-old. In a GcJAM-A-knockdown cell line (CIK) infected with GCRV, the expression of genes involved in the interferon and apoptosis pathways was significantly inhibited. These results suggest that GcJAM-A could be a receptor for GCRV. We have therefore managed to characterize the GcJAM-A gene and provide evidence for its role as a receptor for GCRV.     

草鱼两个细胞因子信号抑制因子3基因序列及表达分析

细胞因子信号抑制因子3 (SOCS3)是一类调节免疫反应的蛋白, 为研究其在草鱼(Ctenopharyngodon idella)中的功能, 文章克隆了草鱼SOCS3b基因, 分析了SOCS3s基因在成鱼组织中的表达情况。序列分析结果显示, 草鱼SOCS3b基因全长2126 bp, 编码216个氨基酸。qRT-PCR结果显示, 草鱼SOCS3a和SOCS3b在成鱼11个组织中均有表达, 但表达略有差异。注射嗜水气单胞菌(Aerononas hydrophila)后, 草鱼SOCS3a和SOCS3b在肝、脾、肠、肾中的表达均有明显上升。以上结果表明SOCS3s基因在草鱼的组织生长调控中发挥着重要的作用, 且SOCS3s可以调节细菌诱导的免疫应答。研究将为后续草鱼SOCS3s基因的功能研究提供参考依据。     

Molecular characterization and tissue-specific expression of the acetyl-CoA carboxylase α gene from Grass carp, Ctenopharyngodon idella

Acetyl-CoA carboxylase α (ACC1), the major regulatory enzyme of fatty acid biosynthesis, catalyzes the conversion of acetyl-CoA to malonyl-CoA. The full-length cDNA coding ACC1 isoform was cloned from liver of grass carp. The cDNA obtained was 7515 bp with a 7173 bp open reading frame encoding 2389 amino acids. The ACC1 protein has a calculated molecular weight of 269.2 kDa and isoelectric point of 6.23. Tissue distribution of ACC1 mRNA in brain, mesenteric adipose, spleen, white muscle and liver of grass carp was analyzed by real-time PCR method using β-actin as an internal control for cDNA normalization. The results showed that the expressions of ACC1 mRNA were detected in all examined tissues. Relative expression profile of ACC1 mRNA in liver normalized with β-actin level was 15, 92, 135 and 165-fold compared with the level in brain, white muscle, mesenteric adipose and spleen, respectively. In addition, we present evidence for the presence of two isoforms of ACC1 (265.7 kDa and 267.2 kDa) in grass carp liver that differ from the 269.2 kDa ACC1 by the absence of 34 and 15 amino acids. In conclusion, the liver is one of the main ACC1 producing tissues in grass carp and ACC1 gene was highly homologous to that of mammals.