71 resultados para real-time RT-PCR


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C-type lectins are a superfamily of carbohydrate-recognition proteins which play crucial roles in the innate immunity. In this study, the gene of a C-type lectin with multiple carbohydrate-recognition domains (CRDs) from scallop Chlamys farreri (designated as Cflec-3) was cloned by rapid amplification of cDNA ends (RACE) approach based on expression sequence tag (EST) analysis. The full-length cDNA of Cflec-3 was of 2256 bp. The open reading frame encoded a polypeptide of 516 amino acids, including a signal sequence and three CRDs. The deduced amino acid sequence of Cflec-3 showed high similarity to members of C-type lectin superfamily. By fluorescent quantitative real-time PCR, the Cflec-3 mRNA was mainly detected in hepatopancreas, adductor, mantle, and marginally in gill, gonad and hemocytes of healthy scallops. After scallops were challenged by Listonella anguillarum, the mRNA level of Cflec-3 in hemocytes was up-regulated and was significantly higher than that of blank at 8 h and 12 h post-challenge. The function of Cflec-3 was investigated by recombination and expression of the cDNA fragment encoding its mature peptide in Escherichia coli BL21 (DE3)-pLysS. The recombined Cflec-3 (rCflec-3) agglutinated Gram-negative bacteria Pseudomonas stutzeri. The agglutinating activity was calcium-dependent and could be inhibited by D-mannose. These results collectively suggested that Cflec-3 was involved in the immune response against microbe infection and contributed to nonself-recognition and clearance of bacterial pathogens in scallop. (C) 2009 Elsevier Ltd. All rights reserved.

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Anti-lipopolysaccharide factor (ALF) represents one kind of basic proteins, which binds and neutralizes LPS and exhibits strong antibacterial activity against Gram-negative R-type bacteria. The ALF gene of Chinese mitten crab Eriocheir sinensis (Milne Edwards, 1853) (denoted as EsALF) was identified from haemocytes by expressed sequence tag (EST) and PCR approaches. The full-length cDNA of EsALF consisted of 700 nucleotides with a canonical polyadenylation signal-sequence AATAAA, a polyA tail, and an open-reading frame of 363 bp encoding 120 amino acids. The high similarity of EsALF-deduced amino acid sequence shared with the ALFs from other species indicated that EsALF should be a member of ALF family. The mRNA expression of EsALF in the tissues of heart, gonad, gill, haemocytes, eyestalk and muscle was examined by Northern blot analysis and mRNA transcripts of EsALF were mainly detected in haemocytes, heart and gonad. The temporal expression of EsALF in haemocytes after Vibrio anguillarum challenge was recorded by quantitative real-time RT-PCR. The relative expression level of EsALF was up-regulated rapidly at 2 h post-injection and reached 3-fold to that in blank group. After a drastic decrease to the original level from 4 to 8h, the expression level increased again and reached 4-fold to that in the blank group at 12 h post-injection. The genomic DNA sequence of EsALF gene consists of 1174bp containing three exons and two introns. The coding sequence of the EsALF mature peptide was cloned and expressed in Escherichia coli BL21(DE3)-pLysS to further elucidate its biological functions. The purified recombinant product showed bactericidal activity against both Gram-positive (G(+)) and Gram-negative (G(-)) bacteria, which demonstrated that the rEsALF was a broad-spectrum antibacterial peptide. All these results indicated that EsALF was an acute-phase protein involved in the immune responses of Chinese mitten crab, and provided a potential therapeutic agent for disease control in aquaculture. (c) 2007 Elsevier Ltd. All rights reserved.

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Myeloid differentiation factor 88 (MyD88) is a universal and essential adapter for the TLR/IL-1R family. In this report, the first mollusk Myd88 ortholog (named as CfMyd88) was cloned from Zhikong scallop (Chlamys farreri). The full-length cDNA of CfMyd88 was of 1554 bp, including a 5 '-terminal untranslated region (UTR) of 427 bp, a polyA tail, and an open reading frame (ORF) of 1104 bp encoding a polypeptide of 367 amino acids containing the typical TLR and IL-1R-related (TIR) domain and death domain (DD). Homology analysis revealed that the predicted amino acid sequence of CfMyd88 was homologous to a variety of previously identified Myd88s with more than 30% identity. The temporal expressions of CfMyd88 mRNA in the mixed primary cultured haemocytes stimulated by lipopolysaccharide (LPS) and peptidoglycans (PGN) were measured by real-time RT-PCR system. The mRNA expression of CfMyd88 decreased after stimulation with both LPS and PGN, and the lowest level was about 1/3 times (at 6 h) and 1/10 times (at 9 h) to that in the control group, respectively. The expression then recovered and was upregulated to two-fold at 9 h after LPS stimulation or to the original level at 12 It after PGN stimulation. The results suggest that the MyD88-dependent signaling pathway exists in scallop and was involved in the defense system. (c) 2007 Elsevier Ltd. All rights reserved.

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Serine proteinase inhibitors (SPIs) play important roles in host physiological and immunological processes in all multicellular organisms. A novel Kazal-type SPI gene was cloned from the Zhikong scallop Chlamys farreri (designated as CfKZSPI) by expressed sequence tag (EST) and rapid amplification of cDNA ends (RACE) approaches. The full-length cDNA of CfKZSPI was of 1788 nucleotides with a canonical polyadenylation signal sequence AATAAA and a polyA tail, and an open reading frame (ORF) encoding a polypeptide of 509 amino acids with a putative signal peptide of 22 amino acids. The deduced amino acid sequence of CfKZSPI contained 12 tandem Kazal domains with high similarity to other Kazal-type SPIs. The temporal expression of CfKZSPI in hemocytes after Vibrio anguillorum challenge was recorded by quantitative real-time RT-PCR. The relative mRNA expression level of CfKZSPI was up-regulated and reached 43.6-fold at 3 h post-challenge. After a decrease at 6 h, the expression Level increased again and reached 207.8-fold at 12 h post-challenge. The 12th Kazal domain of CfKZSPI was recombined into pET-32a(+) and expressed in Escherichia coli Rosetta-gami (DE3) to investigate its inhibitory activity. The purified recombinant protein (rCf KZSPI-1 2) showed significant inhibitory activity against trypsin but no activity against thrombin. When the molar ratio of inhibitor to trypsin reached 1:1, almost 90% of the enzyme activity could be inhibited, which suggested that one molecule of rCfKZSPI-12 was able to inhibit one molecule of trypsin. Kinetics analysis with Dixon plot showed that the inhibition constant (K-i) of rCfKZSPI-12 to trypsin was 173 nmol L-1. These results indicated that CfKZSPI was a novel Kazal-type SPI with significant inhibitory activity against trypsin, and was suspected to be involved in scallop immune response. (c) 2008 Elsevier Ltd. All rights reserved.

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LPS-induced TNF-alpha factor (LITAF) is a novel transcriptional factor that was first discovered in LPS-stimulated human macrophage cell line THP-1. LITAF can bind to TNF-a promoter to regulate its expression. The first scallop LITAF (named as CfLITAF) was cloned from Zhikong scallop Chlamys farreri by Expressed Sequence Tag (EST) and Polymerase Chain Reaction (PCR) techniques. The cDNA of CfLITAF was of 1240 bp and consisted of a 5' untranslated region (UTR) of 112 bp, a 3' UTR of 678 bp and an open reading frame (ORF) of 450 bp encoding a polypeptide of 149 amino acids with an estimated molecular mass of 16.08 kDa and theoretical isoelectric point of 6.77. A typical conserved LITAF-domain was identified in CfLITAF by SMART analysis. Homology analysis of the deduced amino acid sequence of CfLITAF with other known sequences by using the BLAST program revealed that CfLITAF was homologous to the LITAF from human and rat (Identity = 46%), cattle, horse, mouse and chicken (Identity = 48%), western clawed frog (Identity = 42%), and zebrafish (Identity = 50%). The mRNA expression of CfLITAF in different tissues including haemocytes, muscle, mantle, heart, gill and gonad, and the temporal expression in haemocytes challenged by LPS or peptidoglycan (PGN) were measured by Real-time RT-PCR. CfLITAF mRNA transcripts could be detected in all tissues examined and be up-regulated in haemocytes after LPS challenge. No significant changes were observed after PGN stimulation. All these data indicated the existence of LITAF in scallop and also provided clue on the presence of TNF-alpha-like molecules in invertebrates. (C) 2007 Elsevier Ltd. All rights reserved.

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Translationally controlled tumor protein (TCTP) is one of the abundant and ubiquitously expressed proteins in metazoans In the present study, the first molluscan TCTP (denoted as VpTCTP) was identified from Venerupis philippinarum haemocytes by EST and RACE approaches The full-length cDNA of VpTCTP consisted of 1148 nucleotides with an open-reading frame of 555 bp encoding 184 amino acids The deduced amino acid sequence of VpTCTP shared high similarity with TCTPs from other species, indicating that VpTCTP should be a new member of TCTP family Several highly conserved motifs, including 5'terminal ologopyrimidine (5'TOP) starting sequence and rich AU and AUUT elements in 3'UTR, were also identified in VpTCTP The tissue and temporal expression of VpTCTP after Vi boo anguillarum challenge was recorded by quantitative real-time RT-PCR. VpTCTP transcript could be detected in all examined tissues with the highest expression level in haemocytes and the lowest in hepatopancreas Concerning the time-course expression in haemocytes, the relative expression of VpTCTP mRNA was down-regulated sharply from 6 h to 12 h post-infection. Then, the expression level was obviously up-regulated and reached 3.4-fold to that in the control group at 48 h post challenge As time progressed, the expression of VpTCTP recovered to the original level at 96 h. All these results indicated that VpTCTP was an acute-phase protein involved in the Immune response of V philippinarum (C) 2010 Elsevier Ltd. All rights reserved.

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扇贝是我国海水养殖的重要品种,但自1994年以来,养殖扇贝陆续爆发的大规模死亡,不但造成了巨大的经济损失,而且直接威胁到现有产业的生存和发展。引起扇贝大规模死亡原因是多方面的,其主要原因是养殖环境恶化、扇贝种质衰退和抗病力下降。因此,深入研究扇贝免疫防御机制,探讨提高机体抗病力的有效途径和方法,改良种质和培育抗病品系,无疑是解决目前困扰扇贝养殖业健康可持续发展的必经之路。 Toll样受体(TLRs)家族是新近发现的模式识别受体(PRRs),参与识别病原体相关的分子模式(PAMPs),在天然免疫系统中起着非常重要的作用。哺乳动物中Toll样受体信号通路还参与诱导树枝状细胞成熟、参与免疫耐受、参与凋亡发生发展、介导非感染性因素的识别等,被视为联系天然免疫和获得性免疫的桥梁。同时果蝇的Toll信号通路也是不具备获得性免疫的果蝇赖以抵御病毒、细菌和真菌感染,介导天然免疫反应的重要信号通路。 本研究采用大规模EST测序方法,结合Genome Walker库的构建和cDNA末端快速扩增技术,从栉孔扇贝克隆得到CfToll-1、CfMyd88、CfTRAF6和CfCactus这四个Toll样受体信号通路基因的全长cDNA,同时用荧光实时定量PCR技术检测了这些基因的组织分布及在脂多糖(LPS)和肽聚糖(PGN)刺激下的表达规律。 栉孔扇贝Toll样受体(CfToll-1)的cDNA序列全长4308 bp,包含5’非翻译区(UTR)211 bp,3597 bp的开放阅读框,500 bp的3’UTR,最后为18个腺嘌呤的ploy A 尾巴。开放阅读框编码1198个氨基酸的多肽,该多肽的估计分子量为137.41kd,估计的等电点为5.62,该多肽有信号肽,具有一个预测的跨膜区,因此是一种跨膜蛋白。经BLAST比对,CfToll-1基因与节肢动物多种Toll蛋白高度的相似性。SMART(Simple Modular Architecture Research Tool)软件分析,CfToll-1包含典型的Toll样受体的结构:富含亮氨酸的重复序列的胞外区(leucine-rich repeats, LRR),一段跨膜结构域,以及胞内区的TIR结构域(Toll/IL-1 receptor homologous region)。利用Real-time RT-PCR发现CfToll-1mRNA在扇贝体内普遍存在于血细胞、肌肉、外套膜、心、性腺和鳃组织中。利用体外培养的原代血细胞系研究不同浓度LPS刺激后CfToll-1的表达变化,结果显示低剂量(100ng.mL-1 )LPS 使CfToll-1 mRNA表达量减小,该变化在1.5h、3h 和9h组差异显著,虽然在6h组表达量稍有恢复,但尚未达到对照水平;用1μg.mL-1LPS处理细胞时, 6h组CfToll-1表达量明显上调,约为对照水平的2倍。证实细菌结构脂多糖对CfToll-1基因的表达有影响,且这种影响有剂量依赖效应。 栉孔扇贝Myd88同源基因(CfMyd88)的cDNA序列全长1554bp,包含5’UTR 427 bp,1101bp的开放阅读框,最后为18个腺嘌呤的ploy A 尾。CfMyd88的开放阅读框可编码367个氨基酸的多肽,该多肽的估计分子量为42.37kD,估计的等电点为5.71。利用SMART程序分析发现CfMyd88编码了Death和TIR结构域, 这两个结构域是Myd88特征结构。BLAST程序发现扇贝的序列与数据库哺乳动物的Myd88基因高度同源。原代培养的扇贝血细胞在受到PGN刺激后,CfMyd88 mRNA表达在1.5小时开始下调,直到9小时下调至对照表达量的1/10,证实肽聚糖结构对CfMyd88基因的表达有影响。 栉孔扇贝TRAF6同源基因(CfTRAF6)的cDNA序列全长2510bp,包含5’UTR 337 bp,1965bp的开放阅读框,3’UTR 208bp,最后为21 个腺嘌呤的ploy A 尾巴。CfTRAF6开放阅读框编码655个氨基酸的多肽,该多肽的估计分子量为74.09kD,估计的等电点为6.01。InterPro Scan在线分析发现CfTRAF6有典型的TRAF蛋白家族的特征结构,包括的一个指环结构,两个锌指结构,一个MATH (the meprin and TRAF homology)结构域以及Coiled-coil区域。CfTRAF6的序列与数据库多物种的TRAF6高度同源,同源性最高的是乌贼序列(Identity=68)和鼠类(Identity=45%)。利用Real-time RT-PCR,发现CfTRAF6在各组织普遍存在,在性腺中的表达最高。原代培养的扇贝血细胞在受到不同浓度PGN刺激后,与CfMyd88的情况一样,CfTRAF6的表达量变化减少,且这种变化随剂量的增加更加明显。 栉孔扇贝Cactus同源基因(CfCactus)的cDNA序列全长2488bp,包含5’UTR 181 bp,840bp的开放阅读框, 3’UTR 1467bp,最后为19个腺嘌呤的ploy A 尾巴。CfCactus的开放阅读框编码279个氨基酸的多肽,该多肽的估计分子量为31.37 kD;估计的等电点为4.74,与果蝇的Cactus基因的等电点相近(4.5)。利用SMART程序分析发现CfCactus主要编码了ANK结构域(ankyrin repeats)。Cactus基因为哺乳动物NF-κB抑制蛋白IκB的同源分子,BLAST 程序发现扇贝的序列与数据库多物种的Cactus或IκB基因高度同源。同源性最高的是太平洋牡蛎(Identity=35%)和圆尾鲎(Identities = 44%)。对CfTCactus mRNA在扇贝的血细胞、性腺、 肠的组织表达进行分析,并同时与CfTRAF6和CfMyd88的表达量进行了对比,发现CfCactus的表达水平明显高于这两个基因,而且CfTRAF6的基因表达量也高于CfMyd88,表现出级联放大效应。正常情况下,三个基因在性腺的表达量最高,推测这条通路可能和发育等功能密切相关。 通过本研究我们首次在双壳类软体动物找得到与果蝇Toll蛋白家族高度同源的CfToll-1基因,同时发现其他三个在Toll样受体信号传递过程中起重要作用的基因,其中包括在软体动物中获得的第一个Toll样受体的接头分子-CfMyd88基因,该结果直接证明软体动物具有与哺乳动物和节肢动物高度类似Myd88依赖的Toll样受体信号通路。同时通过这些基因组织分布的研究以及细菌结构LPS和PGN对这条通路上基因表达的影响,证明扇贝Toll信号通路可能与在果蝇中一样,参与扇贝的发育和免疫防御等多种功能。

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对虾病害在世界范围内肆虐,给水产养殖和沿海农村经济造成了重大损失。在水产养殖的实践中快速检测水产动物的病害并及时采取隔离等措施对于控制病害尤为重要,其中关键的环节就是快速检测出病害,并在对虾免疫机制上寻找对虾疾病防治的有效方法。研究表明当对虾等甲壳动物受到外界病原刺激时,极微量的微生物多糖就可以激活proPO系统。激活过程中涉及和产生一系列活性物质,如黑色素、酚氧化酶原激活因子(PPA)、模式识别蛋白(BGBP、PGBP、LGBP、LBP)及其膜上受体和A2巨球蛋白等,它们可通过多种方式参与防御反应,包括提供调理素,促进血细胞吞噬作用,形成结节或包囊以及介导凝集和凝固,产生杀菌物质并且黑色素化。黑色素常常在节肢动物的体表形成黑色斑点,形成的色素沉着对机体起到保护作用。所以,酚氧化酶原激活的级联反应是节肢动物免疫的关键因素。本论文研究开发了以环等温介导技术(LAMP)为基础的检测对虾白斑病毒(WSSV)和鳗弧菌(V. anguillarum)的快速检测方法。并从对虾对病害的免疫机制为切入点,从中国明对虾体内克隆了酚氧化酶原(PrpPO)和丝氨酸蛋白酶FcSP3这两个免疫系统中重要的基因,分析了它们的分子结构特征,组织分布及应答鳗弧菌病原刺激的表达变化模式。 建立的对虾常见病害对虾白班病毒(WSSV)和鳗弧菌(V. anguillarum)的LAMP检测方法,经过实验比对和Blast检索,发现本研究中使用的引物,比已经报导的LAMP方法或者PCR方法具有更宽的检测范围(更低的假阴性)。检测WSSV的LAMP方法使用病毒的VP28基因设计引物,而鳗弧菌的检测方法使用empA基因设计引物。在方法中,首次提出加入UNG酶和dUTP的措施来预防污染,在实际检测中非常有效。LAMP方法与PCR检测方法的灵敏性比较也进行了研究,二者灵敏性相当。 依据中国明对虾血液cDNA文库提供的部分片段信息,结合SMART-RACE技术,克隆了酚氧化酶原(PrpPO)基因,通过序列比对分析发现,PrpPO基因cDNA全长为3040 bp,其中开放阅读框2061 bp,编码686个氨基酸,其中推测的信号肽为12个氨基酸。推测的序列与斑节对虾(P. monodon)同源性为93%,与短钩对虾(P. semisulcatus.)同源性为92%。real time RT-PCR实验结果表明, ProPO在血细胞中的相对表达量最高,肝胰脏中表达量最低。弧菌刺激实验中注射弧菌,刺激了血细胞和淋巴器官中的ProPO mRNA显著增加,说明在血细胞和淋巴器官中存在快速反应的ProPO通路。而ProPO mRNA量在淋巴器官中在时间上早于血液中升至最高,说明该动物在在病原刚开始入侵的时候先有淋巴器官发挥主要的免疫作用,随着时间推移血细胞便变成主要的免疫器官。 根据中国明对虾肝胰脏cDNA文库提供EST信息,经过SMART-RACE克隆了一个丝氨酸蛋白酶FcSP3基因,通过序列比对分析发现,该丝氨酸蛋白酶基因cDNA全长为1622 bp,其中开放阅读框1431 bp,编码477个氨基酸,其中推测的信号肽为22个氨基酸。推测的序列与疟蚊的丝氨酸蛋白酶(A. gambiae)同源性为33%,与丽蝇蛹集金小蜂的酚氧化酶原激活因子(N. vitripennis)同源性为32%,与东北大黑鳃金龟的酚氧化酶原激活因子(H. diomphalia)同源性为34%。淋巴器官中PPAⅡ表达量约为血液中表达量的47560倍,肝胰脏中的FCSP3表达量为血细胞表达量的6226倍。鳗弧菌注射对虾后,淋巴器官中刺激组和对照组FcSP3的mRNA量在刺激后6小时显著降低,但是刺激组的表达量明显高于对照组。刺激组的血细胞与肝胰脏中FcSP3 mRNA的相对表达量增高。而病原刺激后的血液与肝胰脏中的FcSP3 mRNA的增长趋势也在时间上先与ProPO mRNA。这说明FcSP3对ProPO有正调控的作用,但这个调控有一个时间差,并且在不同组织中有不同的调控效率。

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对虾养殖业的可持续发展面临着种质退化、病害严重和养殖环境恶化等问题的严重挑战。养殖环境恶化造成的环境胁迫,不但影响对虾的生长性状,而且导致对虾的抵抗力下降,更容易引发病害的发生。养殖环境恶化已经严重影响了对虾养殖业的健康可持续发展。本论文针对环境恶化造成的环境胁迫对对虾影响的分子机理进行了研究。 克隆了中国明对虾对环境胁迫应答的重要伴侣蛋白基因,包括钙网蛋白(FcCRT)、葡萄糖调节蛋白78 (FcGrp78)、热休克蛋白70(FcHsp70)和热休克蛋白90(FcHsp90)的全长cDNA,研究了这些基因的组织表达特征,并对这些基因在不同胁迫条件下的转录表达特征进行了分析。 钙网蛋白是一种多功能的内质网钙结合蛋白,负责蛋白折叠和糖蛋白修饰。本论文首次在中国明对虾报道了钙网蛋白FcCRT基因的全长cDNA序列,编码406个氨基酸,具有保守的N-,P-和C-功能域,以及信号肽和保守的HDEL内质网回收标签。FcCRT基因与其它物种的钙网蛋白具有高度的相似性,系统进化分析表明,FcCRT在亲缘关系上更接近昆虫的钙网蛋白。Northern blot和原位杂交结果显示,FcCRT基因在中国明对虾各组织中均有表达,且在卵巢中发育早起的卵母细胞中表达量最高,说明FcCRT很可能参与了卵母细胞的成熟。FcCRT基因在不同胁迫条件下,其转录表达均呈现明显的变化。在WSSV感染实验中,中国明对虾肝胰脏和淋巴器官中FcCRT转录表达均明显上调;热休克、重金属处理均可引起FcCRT基因转录表达的变化,但不同重金属处理引起FcCRT转录表达变化的模式不同。铜离子处理6小时,会引起FcCRT基因的下调表达,但在12小时之后出现明显上调;镉离子处理12小时后引起FcCRT基因的下调表达,但在24小时又出现明显的上调表达。 葡萄糖调节蛋白78(GRP78)是内质网重要的伴侣蛋白。中国明对虾的Grp78基因(FcGrp78)的cDNA全长为2325bp,编码665个氨基酸。FcGrp78具有三个Hsp70蛋白家族标签,并含有KDEL内质网回收标签。FcGrp78基因与中国明对虾已有的Hsc70和Hsp70具有高度相似性。Northern blot杂交结果显示FcGrp78基因在中国明对虾各组织中均有表达。FcGrp78基因在WSSV感染的中国明对虾肝胰脏中呈上调表达,在血细胞中下调表达,说明FcGrp78可能与对虾的免疫应答有关。热休克处理会诱导FcGrp78基因转录的上调。不同重金属离子胁迫引起的FcGrp78转录表达有所不同:铜离子处理可以诱导FcGrp78基因在处理后24小时的上调表达;镉离子的处理导致FcGrp78基因处理后12小时的下调以及处理后24小时的上调表达变化。短期低氧胁迫则抑制对虾FcGrp78基因的转录表达。 本论文报道的中国明对虾FcHsp90基因 cDNA全长2552bp,编码726个氨基酸,具有保守的N端功能域、中间功能域和C端功能域,具有五个保守的Hsp90蛋白家族标签,序列上与其他物种Hsp90相似性高。Real-time RT-PCR结果显示FcHsp90基因在发育的卵巢中表达量较高,说明Hsp90可能参与了对虾卵母细胞成熟过程中的蛋白合成和卵黄蛋白原的分泌。WSSV感染引起中国明对虾肝胰脏的FcHsp90的转录表达明显上调,说明FcHsp90很可能与对虾的免疫相关。热休克处理诱导FcHsp90基因转录表达的迅速上调。铜离子处理也可诱导FcHsp90基因转录的上调表达,而镉离子处理首先引起FcHsp90基因的下调表达,24小时后开始上调。低氧胁迫也会抑制FcHsp90基因在对虾体内的转录表达。 诱导型FcHsp70基因cDNA全长2511bp,编码629个氨基酸,具有三个保守的Hsp70蛋白家族标签和C末端EEVD序列。与其他物种的Hsp70蛋白具有高度的相似性。FcHsp70基因转录表达对于热休克处理和铜离子的处理非常敏感:热休克处理2小时后FcHsp70基因的转录水平是对照组的80倍;铜离子处理12小时FcHsp70基因转录表达达到对照组的15倍。而镉离子处理后没有诱导FcHsp70显著的上调表达。 以上研究结果为阐明对虾对环境胁迫应答的机制奠定了重要基础,并可为抗逆对虾的培育提供依据。

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[目的]探究青海家牦牛HIF-1α基因组织的特异性表达。[方法]应用半定量反转录PCR和实时定量反转录PCR(SYBRGreen)技术对青海家牦牛HIF-1α基因的组织特异性表达进行检测。通过提取不同组织总RNA,经DNase I消化后,用随机引物进行反转录合成cDNA,采用特异性引物分别对HIF-1α和β-actin基因进行RT-PCR和Real Time RT-PCR扩增。[结果]结果表明,HIF-1α基因在心、肝、脾、肺、肾、脑、肌肉、睾丸组织中均有表达,其中以睾丸和脾中HIF-1α基因表达量最高,肌肉的表达量最低。[结论]该研究为进一步揭示HIF-1α在高原土著动物低氧适应过程中的分子机制有着重要的意义。

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Electrochemistry-based detection methods hold great potential towards development of hand-held nucleic-acid analyses instruments. In this work, we demonstrate the implementation of in situ electrochemical (EC) detection method in a microfluidic flow-through EC-qPCR (FTEC-qPCR) device, where both the amplification of the target nucleic-acid sequence and subsequent EC detection of the PCR amplicon are realized simultaneously at selected PCR cycles in the same device. The FTEC-qPCR device utilizes methylene blue (MB), an electroactive DNA intercalator, for electrochemical signal measurements in the presence of PCR reagent components. Our EC detection method is advantageous, when compared to other existing EC methods for PCR amplicon analysis, since FTEC-qPCR does not require probe-modified electrodes, or asymmetric PCR, or solid-phase PCR. Key technical issues related to surface passivation, electrochemical measurement, PCR inhibition by metal electrode, bubble-free PCR, were investigated. By controlling the concentration of MB and the exposure of PCR mixture to the bare metal electrode, we successfully demonstrated electrochemical measurement of MB in solution-phase, symmetric PCR by amplifying a fragment of lambda phage DNA.

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Penaeidin from Chinese shrimp (Fenneropenaeus chinensis) has proved to be one of the most important antimicrobial peptides in the bodies of animals. The relative quantitative real-time PCR method is developed to study through time, the mRNA expression profile of penaeidin in the muscle and haemocyte tissue of Chinese shrimp infected with vibrio (Vibrio anguillarum) and WSSV (white spot syndrome virus). Research results showed that the same pathogens infection experiments produced similar gene expression profile in different tissues while different expression profiles appeared in the same tissues infected by different exterior pathogens. In vibrio infection experiments, a "U" Re expression profile resulted. Expression levels of penaeidin increased and surpassed the non-stimulated level, indicating that penaeidin from Chinese shrimp has noticeable antimicrobial activities. In WSSV infection experiments, the expression profile appeared as an inverse "U" with the expression of penaeidin gradually decreasing to below baseline level after 24 h. The expression of antimicrobial peptides gene in mRNA level in response to virus infection in shrimp showed that international mechanisms of virus to haemocytes and microbial to haemocytes are completely different. Decline of penaeidins expression levels may be due to haemocytes being destroyed by WSSV or that the virus can inhibit the expression of penaeidins by yet undiscovered modes. The expression profiles of penaeidin in response to exterior pathogen and the difference of expression profiles between vibrio and WSSV infection provided some clues to further understanding the complex innate immune mechanism in shrimp.

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In this paper, the real-time deformation fields are observed in two different kinds of hole-excavated dog-bone samples loaded by an SHTB, including single hole sample and dual holes sample with the aperture size of 0.8mm. The testing system consists of a high-speed camera, a He-Ne laser, a frame grabber and a synchronization device with the controlling accuracy of I microsecond. Both the single hole expanding process and the interaction of the two holes are recorded with the time interval of 10 mu s. The observed images on the sample surface are analyzed by newly developed software based on digital correlation theory and a modified image processing method. The 2-D displacement fields in plane are obtained with a resolution of 50 mu m and an accuracy of 0.5 mu m. Experimental results obtained in this paper are proofed, by compared with FEM numerical simulations.

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In this paper, a real-time and in situ optical measuring system is reported to observe high-velocity deformations of samples subjected to impact loading. The system consists of a high-speed camera, a He-Ne laser, a frame grabber, a synchronization device and analysis software based on digital correlation theory. The optical system has been adapted to investigate the dynamic deformation field and its evolution in notched samples loaded by an split Hopkinson tension bar, with a resolution of 50 pin and an accuracy of 0.5 mum. Results obtained in experiments are discussed and compared with numerical simulations. It is shown that the measuring system is effective and valid.

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The optical interference method is a promising technique for measuring temperature, density, and concentration in fluids. The non-intrusive and non-invasive nature of its optical techniques to the measured section are its most outstanding features. However, the adverse experiment environment, especially regarding shaking and vibrating, greatly restricts the application of the interferometer. In the present work, an optical diagnostic system consisting of a Mach-Zehnder interferometer (named after physicists Ludwig Mach) and an image processor has been developed that increases the measuring sensitivity compared to conventional experimental methods in fluid mechanics. An image processor has also been developed for obtaining quantitative results by using Fourier transformation. The present facility has been used in observing and measuring the mass transfer process of a water droplet in EAFP protein solution under microgravity condition provided by the satellite Shi Jian No. 8.