家蝇卵黄蛋白基因的克隆与结构序列分析

家蝇卵黄蛋白基因编码的卵黄蛋白是家蝇胚胎发育的重要营养来源 .根据 3种家蝇卵黄蛋白cDNA保守序列设计引物 ,用PCR技术从家蝇基因组DNA中扩增到大小为 76 8bp的mdYP1基因的部分DNA片段 .经地高辛标记成特异性探针 ,从构建的家蝇基因组文库中筛选出一个阳性克隆 ,并从该克隆中分离到大小为 3991bp的mdYP1基因组基因 .序列分析显示 ,该基因组序列含有约1 6kb的 5′ 上游区和 1 0kb的 3′ 下游区 ,编码区由一个 6 1bp的内含子和大小分别为 2 2 2bp和10 2 8bp的 2个外显子组成 .5′ 上游区含有典型的CAAT TATA盒 .     

不结球白菜BcHSP70-1基因的克隆与进化及其表达分析

利用已报导的拟南芥和甘蓝型油菜同源基因序列设计克隆引物,从不结球白菜中克隆了BcHSP70-1基因。在BcHSP70-1基因测序后,对该基因编码蛋白质的理化性质、亚细胞定位和跨膜结构域等生物信息学分析结果表明,BcHSP70-1编码的蛋白质是亲水蛋白,定位在细胞质中,该基因ORF全长1 950bp,编码649个氨基酸,有1个内含子和2个外显子,内含子为324bp;对BcHSP70-1直系同源基因外显子和内含子比对分析显示,内含子的差异更显著。实时定量PCR表达分析表明,BcHSP70-1的表达量在不同耐热性的栽培种中有较大差异,在不耐热的不结球白菜品种(NHCC002)中未见该基因组成性表达;与38℃高温胁迫相比,4℃低温胁迫下诱导的BcHSP70-1表达量更高。     

Aspergillus nigerF-01生淀粉糖化酶基因的克隆与序列分析

本研究从Aspergillus niger F-01中克隆到了生淀粉糖化酶菌基因的DNA及c DNA序列。序列分析表明,该生淀粉糖化酶基因DNA序列编码区长2 169 bp,c DNA编码区长1 920 bp,该基因含有4个内含子,共编码639个氨基酸,前18个氨基酸为信号肽序列,该氨基酸序列中共含有2个潜在的糖基化位点,软件预测出该酶的分子量约为68.36 k D,等电点为4.2。该研究为今后构建高产的生淀粉糖化酶基因工程菌奠定了基础。     

血红密孔菌(Pycnoporussanguineus)漆酶基因的克隆与序列分析

为克隆血红密孔菌 (Pycnoporussanguineus)漆酶基因 ,根据真菌漆酶氨基酸序列保守区设计了 1对简并引物 .以血红密孔菌基因组DNA为模板 ,PCR扩增出长 12 2 7bp的漆酶基因片段 .以此序列为基础 ,通过 5′及 3′RACE技术克隆出漆酶全长cDNA序列 ,序列长为 190 2bp ,其 5′端和 3′端非编码区长分别为 5 1bp和 2 97bp ,开放阅读框长 15 5 4bp ,编码 5 18个氨基酸的蛋白 .该蛋白具有 4个铜离子结合区域 ,预测其相对分子量为 5 6 313 2 ,等电点为 5 5 9,其氨基酸序列与Pycnoporuscinnabarinus漆酶 (lcc3 2 )的同源性最高 ,为 96 % .以该cDNA编码区的两端序列为引物 ,PCR扩增得到漆酶的长度为 2 15 4bp的全长DNA序列 ,序列中包括 10个内含子序列 ,长为 5 2～ 70bp     

多主棒孢菌调控致病性相关基因CCK1的克隆及生物信息学分析

采用同源克隆、SEFA-PCR和RT-PCR技术克隆获得了多主棒孢菌(Corynespora cassiicola)CCK1基因的DNA和cDNA.生物信息学分析表明,该基因DNA和cDNA全长分别为2 710 bp和1 065 bp,编码区含4个内含子(长53、54、50和56bp),推测编码354个氨基酸,其分子量约40.98 kD,等电点(pI) 6.43.从GenBank搜索相似蛋白和构建进化树发现,CCK1与多个丝状真菌调控致病性相关的PMK1类MAPK蛋白聚为一类,且含1个参与双重磷酸化作用的MAPK蛋白激活域TEY和1个Ser/Thr蛋白激酶保守结构域.推测CCK1基因可能参与调控C.cassiicola菌丝生长、产孢和致病性等.     

人脑内-含有ACP样结构域新基因的发现

为寻找脑内新基因,以正常成人全脑cDNA为模板,采用锚定PCR方法进行扩增,将经琼脂糖DNA电泳 鉴定获得的一约1200bp大小的特异性条带回收,并克隆入Teasy载体.用310 Genetic Analyzer进行自动测序. 所得序列进行生物信息学分析BLAST相似性分析结果证明所得序列为新序列,读框分析表明,该序列中存在 一完整编码区,编码含357个氨基酸的蛋白质.ProDom软件分析发现其含有酰基携带蛋白(ACP)样结构域. 随后,经3'RACE法克隆到该基因的全长cDNA,其全长为2024bp,染色体定位在14q11.2,含有16个外显子, 15个内含子,该基因已登录到GenBank.经设计编码区引物,从Teasy载体扩增出编码区后再克隆入pGEX-4T1 表达载体,经异丙基硫代-D-乳糖苷(IPTG)化学诱导表达.其编码区克隆人pGEX-4T1表达载体后,转入 JM109宿主菌,经IPTG诱导已得到表达.点杂交及RNA印迹表明,该基因在正常成人脑内广泛高表达.     

葫芦藓LEAFY基因和启动子的克隆及表达分析

本研究以孢子植葫芦藓为试验材料,采用Tail-PCR与RT-PCR相结合的方法克隆得到葫芦藓LFY基因(FhLFY)的完整片段,该基因DNA全长为2 527bp,包含4个外显子和3个内含子序列,有1个1 050 bp的完整开放阅读框,编码349个氨基酸.通过Tail-PCR技术克隆得到905 bp的FhLFY基因启动子...     

球毛壳菌（Chaetomium globosum）过氧化物膜蛋白过敏原基因克隆、序列分析及原核表达

以球毛壳菌cDNA文库中获得过氧化物膜蛋白（pero）基因片段（GenBank Accn:BP099709）为基础,用RACE 技术获得该基因的全长cDNA序列。序列长747bp,由412bp的3′RACE产物和508bp的5′RACE产物拼接而成。开放阅读框501bp,编码166个氨基酸,蛋白分子量为17.5kD,理论等电点为5.75。利用cDNA两侧非编码区序列作引物克隆出该基因的DNA序列,序列分析表明该基因由2个内含子和3个外显子组成。ClustalX多序列比对表明：该基因与粗糙脉孢菌（Neurospora crassa）的过氧化物膜蛋白过敏原同源性最高（83%）。将pero基因编码区克隆到原核表达载体pET28a中,构建成表达质粒pET28a-pero并转化大肠杆菌BL21,IPTG诱导后SDS-PAGE检测表达情况,结果发现在21kD处有一特异性融合蛋白带,大小与预期相符,说明该基因已经在大肠杆菌中表达。克隆的cDNA序列、DNA序列及推测的氨基酸序列在GenBank登录(登录号分别为AY555771,AY584753,AAS66898)。     

扩展青霉PF898碱性脂肪酶基因组DNA的克隆及序列分析

扩展青霉 (Penicilliumexpansum)PF898可产生一种具有重要工业生产价值的碱性脂肪酶(PEL) .在通过 3′RACE和 5′RACE获得PEL完整的cDNA序列的基础上 ,通过PCR方法首次克隆了该脂肪酶的完整的基因组DNA序列 (GenBank登录号为AF330 6 35 ) .该脂肪酶DNA全长 14 0 4bp ,包括PEL编码区、3′非翻译区和部分 5′非翻译区基因的序列 .编码区DNA由 1135个碱基组成 ,含有 5个内含子 ,大小分别为 5 8bp、4 7bp、5 0bp、5 6bp和 6 9bp .在已报道的丝状真菌脂肪酶中 ,PEL基因的内含子数量最多 ,而其大小与其它丝状真菌脂肪酶基因的内含子一样 ,均为只有几十个碱基的小内含子 .PCR扩增获得的PLEDNA序列还包括由 195个碱基组成的 3′端非编码区序列 ,74个碱基的部分 5′端非编码区序列 .PELDNA全长序列中的 - 2 4至 - 2 7nt为TATAbox ,终止码TGA下游15 6nt出现AATAAA序列 ,TGA下游 182位出现poly(A)尾 ,为典型的真核基因结构 .同源性序列分析表明 ,PEL与其它真菌来源脂肪酶的基因组DNA序列同源性约为 39%～ 4 9% ,PEL内含子之间或PEL内含子与其它丝状真菌脂肪酶基因的内含子之间的序列同源性约 4 2 %～ 5 7% .     

大鳞副泥鳅和泥鳅GNB2L1基因的克隆、表达及系统进化分析

由G蛋白β2亚基类似物1基因(GNB2L1)编码的蛋白激酶C受体(RACK1)是一个高度保守的锚定蛋白,属于WD40结构域蛋白家族成员,在细胞信号转导等生命过程中发挥着重要作用。本文采用RACE技术和基因克隆技术分别对大鳞副泥鳅(Paramisgurnus dabryanus)和泥鳅(Misgurnus anguillicaudatus)精巢组织的GNB2L1基因c DNA序列进行了克隆。序列分析表明,大鳞副泥鳅GNB2L1基因c DNA序列全长1 115 bp,开放阅读框(ORF)长965 bp,编码317个氨基酸;泥鳅GNB2L1基因c DNA序列的开放阅读框长965 bp,编码317个氨基酸;两种泥鳅GNB2L1基因编码的蛋白与其他鱼类的RACK1蛋白的同源性为94%~97%,且不同进化地位物种的GNB2L1基因均由8个外显子和7个内含子组成。以GNB2L1基因为标记基因,构建的鱼类系统发育树显示,大鳞副泥鳅和泥鳅在进化上的亲缘关系最近。RT-PCR结果显示,GNB2L1基因在大鳞副泥鳅成体各组织中均有表达,且在脑组织的表达量高于其他组织。以上结果表明,GNB2L1基因为一个进化保守基因,可能在大鳞副泥鳅的细胞活动中发挥着重要作用。     

流感病毒H1N1血凝素基因和神经氨酸酶基因在酵母菌中的表达

在成功克隆流感病毒H1N1全长HA(Hemagglulinin,HA)、NA(Neuramidinase,NA) 基因并测序的基础上,将部分基因序列克隆到表达载体pMETA上,构建了重组表达质粒pMETA/HA(52~1 557 bp)、pMETA/NA(121~1 263 bp),电转化真核酵母菌pMAD16,甲醇诱导表达,利用Ni2+亲和层析柱对重组蛋白进行纯化,并用Western blotting和ELISA方法检测其抗原性。SDS-PAGE显示重组蛋白在酵母菌中可以高效表达,蛋白纯度占总蛋白的95％以上,ELISA和Western blotting实验证实,重组蛋白具有良好的抗原性。成功克隆和表达了流感病毒H1N1 HA、NA基因序列,为流感病毒H1N1诊断试剂和疫苗的开发等进一步的研究提供了参考。     

大黄鱼Flotillin-1基因分子特征分析

浮舰蛋白-1(Flotillin-1)是属于SPFH家族的蛋白,是重要的脂筏标志性蛋白.在构建大黄鱼(Larimichthys crocea)肌肉组织cDNA文库的基础上,克隆了Flotillin-1基因,并进一步扩增出内含子.克隆到的序列全长为2497 bp,其中编码区1194 bp,编码397个氨基酸.生物信息学分析大黄鱼Flotillin-1有5类20个功能位点,存在2次跨膜结构,N端和C端都位于细胞膜内.大黄鱼Flotillin-1氨基酸序列具有非常高的保守性,与大西洋鲑和斑马鱼的同源性都在80%以上.在组织中的表达也非常广泛,其中在脾中的表达最强.     

Cloning and analysis of non-specific cytotoxic cell receptor (NCCRP)-1 from common carp Cyprinus carpio L

Nonspecific cytotoxic cell receptor protein (NCCRP-1) provides an important function in target cell recognition and activation of cytotoxicity. NCCRP-1 has been cloned from common carp Cyprinus carpio L. from fish barbel by EST analysis. The isolated gene is composed of 945 bp with a 79 bp 5' UTR, 714 bp open reading frame and 152 bp 3' UTR. The predicted NCCRP-1 gene is composed of 237 amino acid residues and its predicted signal peptide is 19 amino acid residues in length. This gene has conservation of all the related domains characteristic to the NCCRP-1 gene in fish. Phylogenetic and genomic analyses showed that carp NCCRP-1 was similar to other fish orthologues. The expression of NCCRP-1 gene was constitutive in both lymphoid and non-lymphoid tissues. Furthermore, by semi-quantitative RT-PCR studies, we showed that NCCRP-1 gene expression is increased in anterior kidney challenged with Aeromonas hydrophila.     

Isolation and characterization of hypoxia inducible heme oxygenase 1 (HMOX1) gene in Labeo rohita

The HMOX1 gene plays role in several biological processes and is also responsive to hypoxia stress. Freshwater carp fish, Labeo rohita, is reported as hypoxia sensitive, but the information of annotated hypoxia genes in public domain is very scanty for this species. Here, an attempt was made to isolate and characterize HMOX1 gene in L. rohita using information from zebrafish. HMOX1 gene was obtained by mapping HMOX1 protein of zebrafish over assembled genome of L. rohita. Aligned region was used for designing primers for HMOX1 amplification. Eight overlapping sets of primers were designed for amplifying ~540 bp long successive overlapping fragments. Splicing of overlapping amplicons generated 3715 bp fragment that was confirmed as HMOX1 gene having full coding region with 6 exons between 184 and 2156 bp positions. HMOX1 characterization is an initiative for L. rohita genes annotation to support the characterization of new genes in the important species.     

Fine Mapping and in silico Isolation of the EUI1 Gene Controlling Upper Internode Elongation in Rice

Upper internode elongation in rice is an important agronomic trait. Well-known mutants with an elongated uppermost internode (eui) are important germplasms for developing unsheathed-panicle male-sterile lines in hybrid rice breeding. We finely mapped the eui1 gene and identified its candidate gene using in silico analysis based on previous research work and rice genomic sequence data. The rice eui1 gene was mapped to two overlapping BAC clones, OSJNBa0095J22 and OSJNBb0099O15, between the markers AC40 and AC46, that were 0.64 cM apart and spanned approximately 152 kb. A simple sequence repeat (SSR) marker AC41 that cosegregated with eui1 was located in an intron of a putative cytochrome P450-related gene. In silico analysis suggested that this encoded the cytochrome CYP714D1. Allelic sequencing confirmed that EUI1 corresponded to this P450 gene. A gamma ray-induced eui1 mutant carried a deletion in exon II of the EUI1 gene, and resulted in a frame-shift deletion that produced a truncated polypeptide. We conclude that the EUI1 gene controlling the upper internode elongation in rice is 9804 bp long, and comprises two exons and one intron. The length of the cDNA is 1931 bp containing a 1734 bp ORF, a 110 bp 5′-UTR and a 87 bp 3′-UTR. The ORF encodes an unknown 577 amino acid functional protein, that appears to be a member of the cytochrome P450 family. Hongli Ma, Shubiao Zhang: These authors contributed equally to this work     

Chromosome location, genomic organization of the porcine COL10A1 gene and model structure of the NC1 domain

The porcine COL10A1 gene, encoding the alpha1(X) chain of type X collagen, has been sequenced. The gene structure is evolutionarily conserved, consisting of three exons and two introns spanning 7100 bp. Linkage mapping localized the gene to chromosome 1, which is in agreement with human-pig homology maps. Furthermore, protein structure comparison of the functionally important carboxyl domain between species revealed that amino acid changes were few and mainly situated in loop regions.     

The FUS3/KSS1-type MAP kinase gene FPK1 is involved in hyphal growth, conidiation and plant infection of Fusarium proliferatum

Fusarium proliferatum is an important pathogen of maize that is responsible for ear rots, stalk rots and seeding blight worldwide. During the past decade, F. proliferatum has caused several severe epidemics of maize seedling blight in many areas of China, which led to significant losses in maize. To understand the molecular mechanisms in the fungal developmental regulation and pathogenicity, we isolated and characterized the FPK1 gene (GenBank accession No. HQ844224) encoding a MAP kinase homolog of FUS3/KSS1 in yeast. The gene includes a 1,242-bp DNA sequence from ATG to TAA, with a coding region of 1,068 bp, 3 introns (58 bp, 56 bp and 60 bp) and a predicted protein of 355 aa.The mutant ΔFPK1, which has a disruption of the FPK1 gene, showed reduced vegetative growth, fewer and shorter aerial mycelia, strongly impaired conidiation and spore germination, as well as deviant germ tube outgrowth. When the strain was inoculated in susceptible maize varieties, the infection of the mutant ΔFPK1 was delayed, and the infection efficiency was reduced compared to the wild-type strain. Complementation of the disruptions within the FPK1 open reading frame restored wild-type levels of conidiation, growth rate and virulence to maize seedlings. Our results indicated that the FPK1 gene functioned in hyphal growth, conidiation, spore germination and virulence in F. proliferatum.