245 resultados para tata
Resumo:
By suppression subtractive hybridization, rapid amplification of cDNA ends and gene walking methods, interferon stimulated genes (ISGs), Viperin and ISG15, and their promoters have been cloned and characterized from snakehead Channa argus. The Viperin cDNA was found to be 1474 nt and contain an open reading frame (ORF) of 1059 nt that translates into a putative peptide of 352 amino acid (aa). The putative peptide of Viperin shows high identity to that in teleosts and mammals except for the N-terminal 70 aa. The ISG15 cDNA was found to be 758 nt and contain an ORF of 468 nt that translates into a putative peptide of 155 aa. The putative peptide of ISG15 is composed of two tandem repeats of ubiquitin-like (UBL) domains, and a canonical conjugation motif (LRGG) at C-terminal. Viperin and ISG15 promoter regions were characterized by the presence of interferon stimulating response elements (ISRE) and gamma-IFN activation sites (GAS). ISRE is a feature of IFN-induced gene promoter and partially overlaps interferon regulatory factor (IRF) 1 and IRF2 recognition sites. GAS is responsible for the gamma-IFN mediated transcription. One conserved site for NF-kappa B was found in the promoter region of Viperin. This is the first report of conservative binding motif for NF-kappa B in accordance with the consensus sequence (GGGRN-NYYCC) among teleost ISG promoters. Moreover, there were also TATA, CAAT and Sp1 transcription factor sites in Viperin and ISG15 promoters. In 5' untranslated region (UTR), snakehead ISG15 gene contains a single intron, which differs from Viperin gene. The transcripts of Vipeirn and ISG15 mRNA were mainly expressed in head kidney, posterior kidney, spleen and gill. The expression levels in liver were found to increase obviously in response to induction by IFN-inducer poly I : C.
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Complement-mediated killing of pathogens through lytic pathway is an important effector mechanism of innate immune response. C9 is the ninth member of complement components, creating the membrane attack complex (MAC). In the present study, a putative cDNA sequence encoding the 650 amino acids of C9 and its genomic organization were identified in grass carp Ctenopharyngodon idella. The deduced amino acid sequence of grass carp C9 (gcC9) showed 48% and 38.5% identity to Japanese flounder and human C9, respectively. Domain search revealed that gcC9 contains a LDL receptor domain, an EGF precursor domain, a MACPF domain and two TSP domain located in the N-terminal and C-terminal, respectively. Phylogenetic analysis demonstrated that gcC9 is clustered in a same clade with Japanese flounder, pufferfish and rainbow trout C9. The gcC9 gene consists of 11 exons with 10 introns, spacing over approximately 7 kb of genomic sequence. Analysis of gcC9 promoter region revealed the presence of a TATA box and some putative transcription factor such as C/EBP, HSF, NF-AT, CHOP-C, HNF-3B, GATA-2, IK-2, EVI- 1, AP-1, CP2 and OCT-1 binding sites. The first intron region contains C/EBPb, HFH-1 and Oct-1 binding sites. RT-PCR and Western blotting analysis demonstrated that the mRNA and protein of gcC9 gene have similar expression patterns, being constitutively expressed in all organs examined of healthy fish, with the highest level in hepatopancreas. By real-time quantitative RT-PCR analysis, gcC9 transcripts were significantly up-regulated in head kidney, spleen, hepatopancreas and down-regulated in intestine from inactivated fish bacterial pathogen Flavobacterium columnare-stimulated fish, demonstrating the role of C9 in immune response. (c) 2007 Elsevier B.V. All rights reserved.
Resumo:
Some members of hairy/Enhancer-of-split-related gene (HES) family have important effects on axial mesoderm segmentation and the establishment and maintenance of the somite fringe. In fishes. the her6 gene, a member of the HES family, is the homologue Of heS1 in mammals and chicken. In this study, the her6 gene and its full-length cDNA from the common carp (Cyprinus carpio) were isolated and characterized. The genomic sequence of common carp her6 is approximately 1.7 kb. with four exons and three introns, and the full-length cDNA of 1314 bp encodes a Putative polypeptide of 271 amino acids. To analyse the promoter sequence of common carp her6. sequences of various lengths upstream from the transcription initiation site of her6 were fused to enhanced green fluorescent. protein gene (eGFP) and introduced into zebrafish embryos by microinjection to generate transgenic embryos. Our results show that the upstream sequence of 500 bp can direct highly efficient and tissue-specific expression of eGFP in zebrafish embryos. whereas a fragment of 200 bp containing the TATA box and a partial suppressor of hairless paired site sequence (SPS) is not sufficient to drive eGFP expression in zebrafish embryos.
Resumo:
Lunatic fringe (Lfng), one modulator of Notch signaling, plays an essential part in demarcation of tissues boundaries during animal early development, especially somitogenesis. To characterize the promoter of zebrafish 1fng and generate somite-specific transgenic zebrafish, we isolated the upstream regulatory region of zebrafish 1fng by blast search at the Ensembl genome database (http://www. ensembl.org) and analyzed the promoter activity using green fluorescent protein (GFP) as a reporter. Promoter activity assay in zebrafish shows that the 0.2-kb fragment containing GC-box, CAAT-box, and TATA-box can direct tissue-specific GFP expression, while the 0.4-kb and 1.2-kb fragments with further upstream sequence included drive GFP expression more efficiently. We produced 1fngEGFP-transgenic founders showing somite-specific expression of GFP and consequently generated a hemizygous 1fngEGFP-transgenic line. The eggs from 1fngEGFP-transgenic female zebrafish show strong GFP expression, which is consistent to the reverse-transcription polymerase chain reaction PCR (RT-PCR) detection of 1fng transcripts in the fertilized eggs. This reveals that zebrafish 1fng is a maternal factor existing in matured eggs, suggesting that fish somitogcnesis may be influenced by maternal factors.
Resumo:
高等植物种子胚乳贮藏蛋白是种子发芽时的主要氮源,也是人类和动物食用植物蛋白的主要来源。大麦种子胚乳贮藏蛋白主要是醇溶蛋白(hordeins),占大麦胚乳总蛋白的50–60%。根据大麦醇溶蛋白的大小和组成特点,大麦醇溶蛋白被划分为三种类型:富硫蛋白亚类(B,γ-hordeins)、贫硫蛋白亚类(C-hordeins)以及高分子量蛋白亚类(D-hordeins)。B组和C组醇溶蛋白是大麦胚乳的两类主要贮藏蛋白,它们分别占大麦总醇溶蛋白成分的70–80%和10–12%。遗传分析表明,大麦B、C、D和γ-组醇溶蛋白分别是由位于大麦第五染色体1H(5)上的Hor2、Hor1、Hor3和Hor5位点编码。Hor2位点编码大量分子量相同但组成不同的B组醇溶蛋白(B-hordein)。B-hordein的种类、数量和分布是影响大麦酿造、食用及饲养品质的重要因素之一。为深入了解B-hordein基因家族的结构和染色体组织,探明Hor2位点基因表达的发育调控机制,最终达到改良禾谷类作物籽粒品质的目的,本研究以青藏高原青稞为材料,采用同源克隆法,分别克隆B-hordein基因和启动子,通过原核生物表达验证B-hordein基因功能,并利用实时定量PCR探索B-hordein基因表达时空关系,取得如下研究结果: 1. 以具有特殊B组醇溶蛋白亚基组成的9份青藏高原青稞为材料,根据GenBank中三个B-hordein基因序列(GenBank No. X03103, X53690和X53691)设计一对引物,通过PCR扩增,获得23个B-hordein基因克隆并对其进行了序列分析。核苷酸序列分析表明,所有克隆均包含完整的开放阅读框。有11个克隆都存在一个框内终止密码子,推测这11个克隆可能是假基因。推测的氨基酸序列分析表明,所有大麦B-hordein具有相似的蛋白质基本结构,均包括一个高度保守的信号肽、中间重复区以及C-端结构域。不同大麦种重复区内重复基元的数目有较大差异。青稞材料Z07–2和Z26的B-hordeins仅具有12个重复基元结构,更接近于野生大麦。这些重复基元数目的差异导致了重复区序列长度和结构的变异。这种现象极可能是由于醇溶谷蛋白基因在进化过程中染色体的不平衡交换或复制滑动所造成的。对所克隆基因和禾本科代表性醇溶谷蛋白基因进行聚类分析,结果表明所有来自栽培大麦的B-hordeins聚类成一个亚家族,来自野生大麦的B-hordeins以及普通小麦的LMW-GS聚类成另外一个亚家族,表明这两个亚家族的成员存在显著差异。此外,我们发现B-hordein基因推测的C-末端序列具有一些有规律的特征:即具有相同C-末端序列的B-hordein基因在系统发生树中聚类为同一个亚组(除BXQ053,BZ09-1,BZ26-5分别单独聚为一类外)。这个特征将有助于我们对所有B组醇溶蛋白基因家族成员进行分类,避免了在SDS-PAGE电泳图谱上仅依靠大小分类的局限性。 2. 根据上述克隆的青稞B-hordein基因的5’端序列设计三条基因特异的反向引物,以青稞Z09和Z26的基因组DNA为模板,采用SON-PCR和TAIL-PCR技术分离克隆出8个B-hordein基因的上游调控序列(命名为Z09P和Z26P)。序列分析表明,推测的TATA box位于–80 bp,CAAT–like box位于–140 bp处。此外,Z09P和Z26P中有六个序列在–300 bp处均存在一个由高度保守的EM基序和类GCN4基序构成的胚乳盒(Endosperm Box,EB),在约–560 bp处存在一个胚乳盒类似结构。而Z09P-2和Z26P-3不存在保守的胚乳盒或其类似结构,预示着这两个启动子所调控的基因表达可能受不同类型反式作用因子的调节,推测该启动子对基因的表达调控具有多样性。 3. 将B-hordein基因的开放阅读框定向克隆到表达载体pET-30a中,将其导入大肠杆菌表达菌株BL21中进行外源基因的诱导表达以验证所克隆基因的功能。结果表明仅含重组子pET-BZ07-2和pET-BZ26-5的BL21细菌有目的表达蛋白产生。在诱导3 h时的蛋白表达量最高;3 mM IPTG诱导的蛋白表达量要高于1 mM IPTG诱导的表达量。这为分离纯化B-hordein蛋白以及进一步研究其对大麦籽粒品质的影响奠定基础。 4. 根据从青稞Z09和Z26中分离克隆的B-hordein基因序列设计一对基因特异的引物,同时,选择大麦α-微管蛋白基因(GenBank no. U40042)为看家基因并设计特异引物,利用实时荧光定量PCR检测了青稞籽粒4个胚乳发育时间段的B-hordein基因表达,荧光定量结果显示:两份材料中B-hordein基因的表达量均随发育过程的进行而逐渐升高。Z09中B-hordein基因在开花后7天开始转录,而Z26开花4天后就有低水平B-hordein的表达,这表明Z26中B-hordein基因可能比Z09表达的较早或者Z09中B-hordein基因表达水平较低以致于不能被检测到。此外,在4个不同的胚乳发育时期中,Z26中B-hordein基因的表达量均高于Z09材料。在开花12天到18天的过程中,Z09和Z26中B-hordein基因的表达水平有一个急剧性的升高。这说明在不同胚乳发育时期,Hor2位点的B-hordein等位基因变异体存在mRNA的差异表达。 Seed endosperm storage proteins in higher plants are the main resources of nitrogen for germinating and plant proteins for human and animals. Barley prolamins (also called hordeins) are the major storage proteins in the endosperm and account for 50–60% of total proteins. Hordeins are classically divided into three groups: sulphur-rich (B, γ-hordeins), sulphur-poor (C-hordeins) and high molecular weight (HMW, D-hordeins) hordeins based on the size and composition. B-hordeins and C-hordeins are two major groups and each respectively account for about 70-80% and 10-12% of the total hordein fraction in barley endosperm. Genetic analysis showed that B-, C-, C-, γ-hordeins are encoded by Hor2, Hor1, Hor3 and Hor5 locus on the chromosome 1H (5). Hor2 locus is rich in alleles that encode numerous heterogeneous B-hordein polypeptides. It is reported that B-hordein species, quantity and distribution are significant factors affecting malting, food and feed quality of barley. To understand comprehensively the structure and organization of B-hordein gene family in hull-less barley and explore the developmental control mechanisms of Hor2 locus gene expression and eventually to better exploitation in crop grain quality improvement, we isolated and cloned B-hordein genes and promotors of hull-less barley from Qinghai-Tibet Plateau by PCR, and testified their expression founction in bacteria expression system and explore their spatial and temporal expression pattern by quantitative real time PCR. Our results are as followed, 1. Twenty-three copies of B-hordein gene were cloned from nine hull-less barley cultivars of Qinghai-Tibet Plateau with special B-hordein subunits and molecularly characterized by PCR, based on three B-hordein genes published previously (GenBank No. X03103, X53690 and X53691). DNA sequences analyses confirmed that the six clones all contained a full-length coding region of the barley B-hordein genes. Eleven clones all contain an in-frame stop codon and they are probably pseudogenes. The analysis of deduced amino acid sequences of the genes shows that they have similar structures including signal peptide domain, central repetitive domain, and C-terminal domain. The number of the repeats was largerly variable and resulted in polypeptides in different sizes or structures among the genes. Twelve such repeated motifs were found in Z07–2 and Z26, and they are close to those of the wild barleys, and it is most probably caused by unequal crossing-over and/or slippage during replication as suggested for the evolution of other prolamins. The relatedness of prolamin genes of barley and wheat was assessed in the phylogenetic tree based on their polypeptides comparison. Our phylogenetic analysis suggested that the predicted B-hordeins of cultivated barley formed a subfamily, while the B-hordeins of wild barleys and the two most similar sequences of LMW-GS of T. aestivum formed another subfamily. This result indicated that the members of the two subfamilys have a distinctive difference. In addition, we found the B-hordeins with identical C-terminal end sequences were clustered into a same subgroup (except BXQ053,BZ09-1 and BZ26-5 as a sole group, respectively), so we believe that B-hordein gene subfamilies possibly can be classified on the basis of the conserved C-terminal end sequences of predicted polypeptide and without the limit of SDS-PAGE protein banding patterns. 2. The specific primers were designed according to the published sequences of barley B-hordein genes from Z09 and Z26. Using total DNA isolated from them as the templates, eight clones (designated Z09Pand Z26P) of upstream sequences of the known B-hordein genes was obtained by TAIL-PCR and SON-PCR. Sequences analysis shows that the putative TATA box was present at position –80 bp and CAAT-like box at position –140 bp. Besides, a putative Endosperm Box including an Endosperm Motif (EM) and a GCN4-Like Motif was found at position –300 bp in six clones, and another Endosperm-like box was found at positon –560 bp. While the Endosperm Box or Endosperm-like box was not found in Z09P-2 and Z26P-3. This may indicate that gene expression drived by the two promtors was probably controlled by different trans-acting factors and the genetic control mechanism of corresponding gene expression may be diverse. 3. The B-hordein genic region coding for the mature peptide was cloned into expression vector pET-30a and transformed into bacterial strain BL21 for identifying gene expression fountion. Protein SDS–PAGE analysis showed that only the transformed lysate with the pET-BZ07-2 and pET-BZ26-5 constructs produced proteins related to B-group hordeins of barley, and the mounts of proteins induced by 3 mM IPTG and 3 h were higher than other conditions. This established a base for isolating and putifying B-hordein and further exploring their effects on barley grain quality. 4. The gene-specific primers of B-hordein genes from Z09 and Z26 were used for the quantification of B-hordein gene expression. The α-tubulin gene from Hordeum vulgare subsp. vulgare (GenBank accession number U40042) was used as a control gene. The result shows the transcription of the B-hordein genes in Z09 was found 7 days after flowering, while the transcription of the B-hordein genes in Z26 was found 4 days after flowering, but at a very low level, and it suggested that the B-hordein genes in Z26 probably expressed earlier than those in Z09, or the B-hordein genes in Z09 expressed at so a lower level than Z26 that it can not detected. In addition, B-hordein genes in Z26 accession showed higher expression levels than those in Z09 in four developing stages. Furthermore, a progressive increase in the expression levels of the B-hordein genes between 12 and 18 days after anthesis was observed in both Z09 and Z26. It implies that the B-hordein allelic variants encoded by Hor2 locus exist the differential expression in mRNA levels of during barley endosperm development.
Resumo:
This work represents the nucleotide sequence of the core histone gene cluster from scallop Chlamys farreri. The tandemly repeated unit of 5671 bp containing a copy of the four core histone genes H4, H2B, H2A and H3 was amplified and identified by the techniques of homology cloning and genomic DNA walking. All the histone genes in the cluster had the structures in their 3' flanking region which related to the evolution of histone gene expression patterns throughout the cell cycle, including two different termination signals, the hairpin structure and at least one AATAAA polyadenylation signal. In their 5' region, the transcription initiation sites with a conserved sequence of 5'-PyATTCPu-3' known as the CAP site were present in all genes except to H2B, generally 37-45 bp upstream of the start code. Canonical TATA and CAAT boxes were identified only in certain histone genes. In the case of the promoters of H2B and H2A genes, there was a 5'-GATCC-3' element, which had been found to be essential to start transcription at the appropriate site. After this element, in the promoter of H2B, there was another sequence, 5'-GGATCGAAACGTTC-3', which was similar to the consensus sequence of 5'-GGAATAAACGTATTC-3' corresponding to the H2B-specific promoter element. The presence of enhancer sequences (5'-TGATATATG-3') was identified from the H4 and H3 genes, matching perfectly with the consensus sequence defined for histone genes. There were several slightly more complex repetitive DNA in the intergene regions. The presence of the series of conserved sequences and reiterated sequences was consistent with the view that mollusc histone gene cluster arose by duplicating of an ancestral precursor histone gene, the birth-and-death evolution model with strong purifying selection enabled the histone cluster less variation and more conserved function. Meanwhile, the H2A and the H2B were demonstrated to be potential good marks for phylogenetic analysis. All the results will be contributed to the characterization of repeating histone gene families in molluscs.
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The unicellular green alga Haematococcus pluvialis accumulates a highly valuable ketocarotenoid, astaxanthin, under various environmental stresses. beta-carotene ketolase (BKT) plays a key role in astaxanthin biosynthesis in H. pluvialis. In this paper, an approximate 700 bp 5'-flanking region of the bkt gene containing a putative promoter was cloned through walking upstream. The results of the sequence analysis showed that this bkt 5'-flanking region might have cis-acting elements such as sterol regulatory element (SRE-1)-like motifs, the C-repeat/dehydration responsive element (DRE) and al-3 proximal element (APE)-like motifs, except for typical TATA and CCAAT boxes. The results of the P-galactosidase assay and the transient expression of lacZ driven by a series of sequential deletions revealed that a minimal promoter-like region might exist from -630 to -408 bp, and the highest promoter activity was observed to span the positions from -630 to -308 bp. The results of the site-directed mutagenesis of a C-repeat/DRE and two APE-like motifs in a promoter-like region (-630 to -308 bp) suggested that two APE-like motifs might be essential for transcriptional control of the bkt gene.
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扇贝养殖是我国传统的海水养殖产业,但自1997 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,而且严重影响了该产业的健康发展。扇贝病害的不断爆发以及病因的多样性迫切要求制定新的疾病防治措施和开发新型的抗菌物质。 从扇贝自身的免疫防御因子入手,筛选和克隆参与免疫防御的功能基因,一方面可以研究抗病功能基因在病原感染或环境胁迫条件下的表达规律,深入探讨扇贝的免疫防御机制,并可作为抗病良种选育的分子标记,指导扇贝的遗传改良和抗病品系的培育;另一方面,可对抗菌效应物实现重组表达,开发新型的病害预防治疗制剂,取代目前普遍使用的抗生素和化学药物。抗菌效应物是机体在免疫应答过程中产生的多肽类物质,对侵入生物体内的细菌、病毒具有很强的免疫杀灭作用,对抗菌效应物的研究有助于深入了解机体先天性免疫防御的机制。 本研究采用大规模EST测序方法,结合cDNA末端快速扩增(RACE)技术,从海湾扇贝血淋巴中克隆到了大防御素基因(big defensin, AiBD)的全长cDNA序列,该cDNA全长为531 bp,其中5' 非编码区(UTR)为24 bp,开放阅读框(Open Reading Frame, ORF)含有369 bp,编码122 个氨基酸残基;随后为138-bp 的3' UTR,包括一个多聚腺苷酸信号序列(AATAAA)和ploy A尾巴。分析表明,海湾扇贝大防御素是以前体的形式合成,前体分子包括信号肽、前域和成熟肽三部分。采用Northern blot方法,以DIG标记的DNA探针检测了 AiBD mRNA在不同组织中的表达。结果发现,AiBD 基因的转录本主要在血淋巴中表达,在鳃中也有微量的表达,而在外套膜、闭壳肌、性腺及肝胰腺中检测不到杂交信号。采用QRT-PCR(quantitative real time PCR)对鳗弧菌感染后海湾扇贝血淋巴中AiBD mRNA 的表达量进行了检测,结果发现在感染后8 h 内, AiBD mRNA 的相对表达量平缓升高;随着刺激时间的增长,AiBD基因的mRNA表达量急剧增加,在刺激后16 h 和32 h 分别达到了空白组的72.3 倍和131.1 倍。为了研究海湾扇贝大防御素的抗菌活性,将其成熟肽编码区克隆到毕赤酵母表达载体pPIC9K并实现了重组表达。抑菌实验表明,重组AiBD具有广谱的抗菌活性,其对供试的三株革兰氏阳性菌(藤黄微球菌、溶壁微球菌、金黄色葡萄球菌)都表现出显著的抗菌活性,而对革兰氏阴性菌(鳗弧菌、亮弧菌)的抑菌活性则相对较弱;此外,重组AiBD对表达宿主也表现出杀菌活性,证明其具有抗真菌活性。 根据栉孔扇贝G 型溶菌酶基因的cDNA序列,利用构建的Genome Walking 文库获得了栉孔扇贝G 型溶菌酶基因的全长序列,该基因序列全长为8131 bp,由六个外显子和五个内含子组成。六个外显子长度分别为55 bp,60 bp,90 bp,113 bp,145 bp 和140 bp;五个内含子的长度分别为1126 bp,2161 bp,2744 bp,750 bp和592 bp;内含子的两侧都具有RNA正确剪接所必需的识别位点(GT/AG)。利用TRANSFAC 软件对栉孔扇贝G 型溶菌酶基因的5' 侧翼序列分析发现,该基因的5' 侧翼具有 TATA box 和 CAAT box 的共有序列;此外,在该基因的5' 侧翼发现了C/EBP、NF-κB、OCT-1 和 NF-IL6 等参与免疫基因激活的转录因子潜在结合位点。采用Northern blot方法,以生物素标记的RNA 探针检测了栉孔扇贝G 型溶菌酶基因在不同组织中的表达。结果发现,该基因的转录本主要在鳃、性腺及肝胰腺中表达,在血细胞和外套膜中也有微量的的表达,而在闭壳肌中检测不到杂交信号,这表明栉孔扇贝G 型溶菌酶可能兼备参与机体免疫防御和消化的功能。为了研究栉孔扇贝G 型溶菌酶的抗菌活性,将其成熟肽编码区克隆到毕赤酵母表达载体pPIC9K并实现了重组表达。抑菌实验表明,重组产物具有显著的抗阳性菌活性,其对供试的藤黄微球菌、溶壁微球菌表现出明显的抑制作用,对金黄色葡萄球菌未检测到抑制活性;而对革兰氏阴性菌仅表现出微弱的抑菌活性(亮弧菌和鳗弧菌),对大肠杆菌则基本无抑制活性。
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栉孔扇贝是我国传统的海水养殖品种,但自1997 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,而且严重影响了该产业的健康发展。目前,虽然针对扇贝养殖环境、病原以及养殖技术等方面开展了大量的研究工作,提出了许多防病治病的措施,并取得了一定的成效。但由于引起养殖扇贝病害的病原和发病原因的多样性,大量使用抗菌素和农药后造成病原微生物抗药性的提高以及对环境造成的严重破坏,贝类养殖业要摆脱病害的困扰,必须开辟新的疾病防治途径。 从扇贝自身的免疫防御因子入手,筛选和克隆参与免疫防御的功能基因,尤其是一些新颖的具有抗菌活性的分子,对于深入探讨扇贝的免疫防御机制,指导扇贝的遗传改良和抗病品系的培育具有重要的意义;另一方面,可对抗菌效应物实现重组表达,开发新型的病害预防治疗制剂,取代目前普遍使用的抗生素和化学药物。抗菌效应物是机体在免疫应答过程中产生的多肽类物质,对侵入生物体内的细菌、病毒具有很强的免疫杀灭作用,对抗菌效应物的研究有助于深入了解机体先天性免疫防御的机制。 本研究在同源克隆策略的基础上,从利用构建的Genome Walking 文库中克隆到了栉孔扇贝核心组蛋白群的全长序列,该串联重复序列全长5671bp,包括各一个拷贝的组蛋白H4, H2B, H2A 和 H3。所有的核心组蛋白在3’侧翼序列均具有与其在细胞周期进化模式相关的特征结构,即两个不同的终止信号:发卡结构和至少一个多聚腺苷酸信号序列(AATAAA)。在5’区域的起始密码子上游37–45 bp处的保守的CAP位点(5’-PyCATTCPu-3’)存在于除H2B外的每一个基因中;规则的TATA 和CAAT元件也在核心组蛋白群中的个别的基因中找到。在H2B 和H2A基因的启动子区域,对于定位转录起始位点非常重要的元件(5’-GATCC-3’)也相对保守; 在H2B启动子区域存在着与其特征序列(5’-GGAATAAACGTATTC-3’)相似性很高的序列结构5’-GGATCGAAACGTTC-3’。增强子序列只发现存在于H4 和 H3基因中,其序列结构与组蛋白增强子序列(5’-TGATATATG-3’)基本匹配。在组蛋白基因群中存在着一些保守的序列和重复结构表明组蛋白基因的进化是采取“生与死的进化模 式”并伴随着强的纯化选择压力,使得该基因群变异较少以保持其基本功能。同时,利用18S rRNA做参照,探讨了H2A 和H2B作为分子系统进化分析的潜在分子标记,表明组蛋白H2A 和H2B可以作为分子系统进化分析得候选分子,它们在区分近缘种的分辨率上表现出了更高的灵敏度。该研究结果为进一步定性软体动物组蛋白重复单位提供了基础。 在脊椎动物中,组蛋白H2A通过特异性剪切其N末端产生新颖的抗菌肽的形式来参与宿主的免疫应答反应,在软体动物中是否存在同样的机制还未有研究报道。本研究利用上述克隆的H2A基因研究了其在病原胁迫下的表达变化规律并对其N末端39aa进行了重组表达和抗菌活性分析,以期为开发和利用软体动物的新颖的抗菌肽提供理论依据。半定量RT-PCR发现血细胞中H2A 的mRNA 在微生物感染前后的表达量没有任何显著的变化,表明H2A本身并不直接参与对病原的清除过程或者说病原微生物并不能诱导H2A的表达。因此,我们推测该基因可能象脊椎动物一样以前体形式存在,经剪切后参与宿主的免疫应答过程,为此我们研究了H2A的N末端的抗菌活性。通过将与脊椎动物buforin I同源的H2A的N末端39aa克隆到毕赤酵母表达载体pPIC9K实现了该基因N末端的重组表达。抑菌实验表明,重组产物具有广谱的抗菌活性,其对供试的革兰氏阳性菌藤黄微球菌表现出显著的抗菌活性,而对革兰氏阴性菌(鳗弧菌、亮弧菌)的抑菌活性则相对较弱;此外,重组产物对毕赤酵母GS115也表现出一定的杀菌活性,证明其具有抗真菌活性。上述研究结果证明组蛋白H2A的N末端是一种潜在的抗菌肽,但该抗菌肽是否参与机体的免疫应答过程需要进一步的深入研究。
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虾青素是一种具有极强抗氧化活性的类胡萝卜素,具有广泛的应用价值。雨生红球藻是一种单细胞绿藻,在逆境胁迫条件下能够大量合成并迅速积累虾青素,其积累量最高可达细胞干重的4%,从而成为目前首选的天然虾青素合成工具。但是,虾青素的大量积累总是发生在不适于生物量积累的环境胁迫条件下,虾青素积累与生物量积累之间成为一对矛盾,制约着虾青素大量生产。 异戊烯焦磷酸异构酶(IPI)、β-胡萝卜素酮化酶(BKT)和β-胡萝卜素氧化酶(CRTO)是虾青素合成过程中的相关酶。已有研究结果表明,这些酶基因的表达调控至少是部分发生在转录水平上的,这就为我们从转录水平上研究虾青素生物合成关键酶基因的调控机制提供了重要线索。 本文研究结果如下: 1. 利用基因组步移的方法克隆了两条异戊烯焦磷酸异构酶基因(ipi)的5’上游侧翼序列(1.8kb和2.5kb),预示着ipi的转录由不止一个启动子调控。 2. 利用上述方法克隆了两条β-胡萝卜素氧化酶基因(crtO)5'上游侧翼序列(1kb和2kb)。以lacZ为报告基因的瞬间表达实验结果表明,长度为320bp(-682/-363)的crtO 5'上游侧翼序列具有很强的启动转录活性,提示这段序列包含了启动子的结构。 3. 利用凝胶阻滞的方法研究了雨生红球藻中bkt强启动转录活性区域,即 309bp(-617/-309)启动子区域的转录因子结合位点,并发现在-396/-338的59bp区域内存在特异的核蛋白结合位点。通过序列分析,发现此59bp区域并不包含TATA或者CAAT-box,而是存在对光、缺氧、p-香豆酸及激素反应的G-box。 4. 根据国外已经获得的ipi和crtO全长cDNA序列,利用长距离PCR法从红球藻基因组中扩增到基因组序列。发现ipi和crtO均包含6个外显子和5个内含子,内含子的剪切位点基本符合GU-AG规律。并通过似然比检验(Likelihood ratio test)的方法发现两基因在进化过程中存在着正选择现象。 这些工作为下一步继续寻找与上述特定DNA调控区域特异结合的反式作用因子(蛋白质因子)奠定了基础。
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海湾扇贝Argopecten irradian Lamarck于1982年从美国引种到中国,由于具有较快的生长速度和很高的经济效益,海湾扇贝成为中国最主要的养殖贝类之一。近年来海湾扇贝养殖遇到了死亡率高等问题,深入开展海湾扇贝功能基因的研究,尤其是免疫相关基因及其机制研究并在此基础上寻找扇贝疾病防治的有效方法对海湾扇贝的健康养殖十分重要。 对于贝类免疫系统来说,其血细胞在先天性免疫防御中起着重要的作用。当受到外界病原侵染时,贝类血细胞的一个重要免疫反应就是吞噬作用。在吞噬病原过程中,受到病原侵染的贝类还会产生其他多种免疫反应,这些免疫反应将消耗大量的能量(ATP),产能的呼吸链会加速运转,由此也会引发与呼吸链相耦联的活性氧(ROS)的大量产生。这些活性氧具有极强的反应特性,能破坏病原微生物的结构和功能分子,实现对入侵病原的杀灭。利用活性氧对被吞噬的病原进行杀灭,这是吞噬作用消除病原抵御侵染的重要机制。但由于活性氧分子反应的非特异性,它们也会破坏宿主机体细胞内的功能蛋白分子、不饱和脂肪酸分子和核酸等,对细胞造成严重的伤害,进而导致机体生理机能的损伤和免疫系统的破坏。所以,及时消除病原感染机体内过量产生的ROS,维持相关细胞的正常代谢,对提高机体抵抗力和免疫力具有重要的作用。O2-是生物体内产生的第一种活性氧分子,其他的活性氧分子也是由它衍生而来,消除过量O2-是消除过量活性氧危害的第一步也是关键一步。生物体内,超氧化物歧化酶(SOD)是催化O2-发生歧化反应,消除O2-的关键酶。 首先,本文通过RACE方法获得了海湾扇贝SOD家族全部三种基因的cDNA全长并对其进行了序列的生物信息学分析,海湾扇贝AiCuZnSOD全长cDNA为1047个碱基,其中开放阅读框为459个碱基,编码152个氨基酸,与栉孔扇贝Chlamys farreri的CuZnSOD相似度为77.5%,与长牡蛎Crassostrea gigas的相似度为75%,与人的相似度为74.7%。AiMnSOD全长cDNA为1207个碱基,其中开放阅读框为678个碱基,编码226个氨基酸,序列比对结果发现AiMnSOD的氨基酸序列与虾夷扇贝Mizuhopecten yessoensis和皱纹盘鲍Haliotis discus hannai的相似度分别为85%和78.4%,与哺乳动物相似度也在68%~72%之间。AiECSOD全长cDNA为893个碱基,其中开放阅读框为657个碱基,编码218个氨基酸。AiECSOD与其它物种ECSOD相似度比较低。与线虫Brugia pahangi的相似度为27.9%,与疟蚊Anopheles gambiae的相似度为31.4%,与斑马鱼Danio rerio的相似度为27.8%,与人的相似度也只有28.6%,与同是贝类的长牡蛎ECSOD也只有28.1%的相似性。主要原因是AiECSOD的信号肽和肝磷脂结合区域在各物种中无同源性。 其次,采用qRT-PCR(quantitative real time PCR)方法分析三种SOD基因在不同组织中的表达情况,结果表明三种SOD基因的组织表达有所差异。AiCuZnSOD基因在鳃中表达水平最高,其次是血细胞和性腺,在外套膜、闭壳肌和肝胰脏表达水平较低。AiMnSOD基因在鳃中表达水平最高,其次是外套膜,在血细胞、性腺,而在肝胰脏和闭壳肌表达较弱。AiECSOD基因在血细胞中表达水平最高,其次是肝胰脏,在鳃、闭壳肌表达水平较低,而性腺和外套膜没有检测到。同时,采用qRT-PCR对鳗弧菌Vibrio angullarum感染后海湾扇贝血细胞中三种SOD基因mRNA表达变化进行了检测。AiCuZnSOD表达量在各个时间段没有显著差异(P > 0.05)。AiMnSOD的表达量在1.5 h时略有下降,在3 h时达到最高表达量,是空白组(0h)的3倍(P < 0.01),从6 h到24 h表达量逐渐下降,24 h时表达量是空白组的1.6倍,24 h到48 h又稍有升高。AiECSOD的表达量在1.5 h时有所下降,是空白组的0.3倍(P < 0.05),随后逐渐升高,在12 h时达到最高表达量,是空白组(0h)的4.5倍(P < 0.01),从24 h到48 h表达量逐渐下降并恢复到空白组的水平。在对照组,各个时间点没有显著差异(P > 0.05)。在鳗弧菌感染后,海湾扇贝三种SOD的表达并不一致,且差异比较显著。AiCuZnSOD被认为是构成性表达基因,其受外界刺激的影响最小,AiMnSOD和AiECSOD受刺激后表达上调比较明显。 第三,采用Genome-walking的方法得到了海湾扇贝三种SOD基因的基因组全长和近端启动子序列并对其进行了相关分析。AiCuZnSOD的基因组序列全长为4279bp,包含有4个外显子和3个内含子。AiMnSOD的基因组序列全长为10692bp,包含有4个外显子和3个内含子。AiECSOD的基因组序列全长为5276bp,包含有5个外显子和4个内含子。三种基因外显子和内含子的结合处序列遵循-AT/GT-原则。我们把海湾扇贝SOD家族的三个基因的近端启动子进行了比较分析。发现三种SOD在靠近起始密码子的位置都有Oct-1结合位点。三种SOD共有的转录位点有:Oct-1、C/EBPalp、Oct2.1、Sp-1和GATA-1。AiCuZnSOD和AiMnSOD共有的转录位点有:ICSBP、Ftz、TATA-box、C/EBPbeta和Antp。AiCuZnSOD和AiECSOD共有的转录位点有:AP-1和NFκB。AiMnSOD和AiECSOD共有的转录位点有:GR和ER。AiCuZnSOD独有的位点有:SRF、YY-1和NF-1。AiMnSOD独有的位点有:HNF-1、Hb、MEB、NF-muE1、Pit-1a和Eve。AiECSOD独有的位点有:CREB、RATA-alph、Kruppel-like和AP-3。 此外,通过构建原核表达载体,本研究对AiCuZnSOD和AiECSOD基因进行了体外重组表达,并对纯化的重组蛋白进行了酶活分析。酶活分析表明,重组AiCuZnSOD蛋白有较高的酶活和稳定性。 最后,我们对海湾扇贝三种SOD基因的部分区域,包括启动子、编码区,部分内含子区域进行了SNP检测,并对SOD基因部分SNP位点多态性和鳗弧菌敏感性进行了相关分析。三种SOD基因中,我们共发现了59个SNP位点,其中AiECSOD的SNP位点最多,特别是在启动子区,AiCuZnSOD和AiMnSOD多态性较低。其中AiCuZnSOD启动子区的-1739 T-C 位点的基因型和等位基因,AiECSOD启动子区的-498 A-T和-267 G-A等位基因频率,AiECSOD的第一个外显子38 Thr-Lys的多态性在敏感和抗菌群体中存在显著差异(P < 0.05)。
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E2F6 protein belongs to the family of the E2F transcription factors. Here, we showed that the human E2F6 gene contains nine exons distributed along 20.4kbp of genomic DNA on chromosome 2 leading to the transcription of six alternatively spliced E2F6 mRNAs that encode four different E2F6 proteins. Moreover, we identified an E2F6 pseudogene localized on chromosome 22 completely spliced and devoid of exons 2, 3, and 4, and part of exons 1 and 5. Definition of the transcriptional initiation site and sequence analysis show that the gene contains a TATA less, CAAT less, GC-rich promoter with multiple transcription start sites. Regulatory elements necessary for basal transcription reside within a 134bp fragment as determined by transient transfection experiments. © 2004 Elsevier Inc. All rights reserved.
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Three β-hydroxysteroid dehydrogenase/Δ5-Δ4-isomerase (3β-HSD) catalyze the oxidative conversion of Δ5-3β-hydroxysteroids to the Δ4-3-keto configuration and is therefore essential for the biosynthesis of all classes of hormonal steroids, namely progesterone, glucocorticoids, mineralocorticoids, androgens, and estrogens. Using human 3β-HSD cDNA as probe, a human 3β-HSD gene was isolated from a λ-EMBL3 library of leucocyte genomic DNA. A fragment of 3β-HSD genomic DNA was also obtained by amplification of genomic DNA using the polymerase chain reaction. The 3β-HSD gene contains a 5′-untranslated exon of 53 base pairs (bp) and three successive translated exons of 232, 165, and 1218 bp, respectively, separated by introns of 129, 3883, and 2162 bp. The transcription start site is situated 267 nucleotides upstream from the ATG initiating codon. DNA sequence analysis of the 5′-flanking region reveals the existence of a putative TATA box (ATAAA) situated 28 nucleotides upstream from the transcription start site while a putative CAAT binding sequence is located 57 nucleotides upstream from the TATA box. Expression of a cDNA insert containing the coding region of 3β-HSD in nonsteroidogenic cells shows that the gene encodes a single 42-kDa protein containing both 3β-hydroxysteroid dehydrogenase and Δ5-Δ4-isomerase activities. Moreover, all natural steroid substrates tested are transformed with comparable efficiency by the enzyme. In addition to its importance for studies of the regulation of expression of 3β-HSD in gonadal as well as peripheral tissues, knowledge of the structure of the human 3β-HSD gene should permit investigation of the molecular defects responsible for 3β-HSD deficiency, the second most common cause of adrenal hyperplasia in children.
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This paper explores the transnational and interstitial dimensions of cultural production in Britain today, and the representation of migrant and diasporic identities in contemporary mainstream British cinema. The box office success of films like Gurindha Chadha’s Bhaji on the Beach (1993) and Bend it Like Beckham (2002) and East is East (Daniel O’Donnell 1999) and their precursors My Beautiful Launderette (Stephen Frears 1985), Sammy and Rosie Get Laid (Stephen Frears 1987) and the TV mini-series Buddha of Suburbia (Roger Mitchell 1993) seem to celebrate and articulate a set of values around hybridity and alterity: a discourse of multiculturalism. This paper will engage with a series of key questions. Are there ideological values implicit within and common to all these texts? Can we map a rhetoric or discourse of multiculturalism within popular culture? Do mainstream representations of immigrant identities represent a discourse of resistance, a decolonising global culture or is this Western brand of multiculturalism still located within an Orientalising gaze? In what ways are multiculturalism and postcolonialism overlapping and yet opposing rhetorics? [From the Author]
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Bdellovibrio bacteriovorus grows in one of two ways: either (i) predatorily [in a host-dependent (HD) manner], when it invades the periplasm of another Gram-negative bacterium, exporting into the prey co-ordinated waves of soluble enzymes using the prey cell contents for growth; or (ii) in a host-independent (HI) manner, when it grows (slowly) axenically in rich media. Periplasmic invasion potentially exposes B. bacteriovorus to extremes of pH and exposes the need to scavenge electron donors from prey electron transport components by synthesis of metalloenzymes. The twin-arginine transport system (Tat) in other bacteria transports folded metalloenzymes and the B. bacteriovorus genome encodes 21 potential Tat-transported substrates and Tat transporter proteins TatA1, TatA2 and TatBC. GFP tagging of the Tat signal peptide from Bd1802, a high-potential iron-sulfur protein (HiPIP), revealed it to be exported into the prey bacterium during predatory growth. Mutagenesis showed that the B. bacteriovorus tatA2 and tatC gene products are essential for both HI and HD growth, despite the fact that they partially complement (in SDS resistance assays) the corresponding mutations in Escherichia coli where neither TatA nor TatC are essential for life. The essentiality of B. bacteriovorus TatA2 was surprising given that the B. bacteriovorus genome encodes a second tatA homologue, tatA1. Transcription of tatA1 was found to be induced upon entry to the bdelloplast, and insertional inactivation of tatA1 showed that it significantly slowed the rates of both HI and HD growth. B. bacteriovorus is one of a few bacterial species that are reliant on a functional Tat system and where deletion of a single tatA1 gene causes a significant growth defect(s), despite the presence of its tatA2 homologue.
