泌乳前后家猪乳腺基因表达谱的构建以及不同猪种和不同发育时期差异表达基因的确定

构建了不同猪种、不同发育时期的非标准化家猪乳腺cDNA文库, 并从中获得28941条高质量ESTs (expressed sequence tags). 利用序列拼接软件CAP3, 这些EST序列被拼接成2212条重叠群和5642条单一序列. 这些序列在经过功能注释后被聚类成6857个基因聚类, 其中2072条无相应功能注释的序列被认为来自于新基因. 按照标准基因词汇体系的分类标准, 已经有功能注释的基因进行了聚类分析. 通过比较基因表达谱, 确定了几组在猪种间和猪种内不同发育时期乳腺中差异表达的基因, 这些基因中某些可能与家猪的繁殖特性相关, 另外则在乳汁合成、分泌和乳腺复旧过程中发挥重要的作用. 这些来源于家猪乳腺特定发育时期的基因表达谱和一些功能未知的EST序列为进一步的研究提供了重要资源.     

一个血清抑制基因的克隆

比较血清培养细胞和血清饥饿细胞的基因表达差异,获得了一段血清饥饿细胞中特异表达的cDNA序列,以此序列出发,通过搜索表达序列标签(EST),拼接出完整的基因序列,通过PCR分段克隆获得全长cDNA序列.该基因全长5 429 bp,编码框预测有791个氨基酸残基.GenBank搜索,该基因与已有的细胞周期调控基因没有同源性.所以,该基因是一个新的与细胞周期有关的基因（GenBank接受号：AY050169）.由于该基因最初发现在无血清培养条件下表达,故叫血清抑制基因（serum inhibit gene,Si-1基因）.     

甘蔗ATP合酶基因的电子克隆及生物信息学分析

目的:运用电子克隆的方法获得甘蔗中的ATP合酶基因。方法:以小麦中一个ATP合酶基因为种子序列,对甘蔗的EST数据库进行搜索,应用相关软件进行聚类分析、拼接组装和延长。结果:获得一个ATP合酶基因SATPC1的cDNA序列全长,该序列长1 415bp,包含一个完整的1 077bp的ORF,编码358个氨基酸,且与水稻、玉米、高粱和葡萄等其他植物的ATP合酶具有高度的同源性。结论:电子克隆获得的cDNA序列为完整的甘蔗ATP合酶基因全长cDNA。     

球毛壳菌循环肽HC-毒素基因的序列分析

为了验证Phrap软件是否适合在EST分析中应用,对球毛壳菌循环肽HC-毒素基因进行了序列分析。根据EST分析的结果,从cDNA文库中挑取循环肽HC-毒素基因的克隆进行了测序并序列分析。结果表明cDNA文库中循环肽HC-毒素基因的克隆插入片断大小为1217bp;用Phrap软件拼接出来的循环肽HC-毒素的表达序列标签拼接序列与实际序列不完全一致,因此Phrap软件不适合在EST分析中应用。     

马铃薯Alfin1-like锌指蛋白基因克隆与序列分析

利用紫花苜蓿盐胁迫相关锌指结构蛋白Alfin1基因cDNA序列,通过电子克隆在GenBank中对马铃薯同源EST序列进行查询比较和拼接,获得了1个含有完整编码区的cDNA序列,并通过RT-PCR成功获得了该序列.获得的全长cDNA序列中包含1个747 bp的最大读码框,编码248个氨基酸,将其命名为Stfin1.氨基酸序列分析表明存在典型的Cys4-His-Cys3锌指结构,与Alfin1一致性达93.09%.从结构分析结果推测Stfin1与Alfin1在功能上具有一定的相关性.     

编码锌指蛋白的人类新基因TFL76的电子克隆

目的：根据基因同源同功原理电子克隆人类新基因。方法：利用基于基因识别软件Genescan和EST拼接的同源基因克隆法得到人类新基因序列TFL76,再利用生物信息学数据库和软件对其进行功能的预测和分析。结果：TFL76的cDNA序列长2268bp,开放阅读框编码677个氨基酸残基,含12个连续的C2H2型锌指基序,其分子量为76kDa。编码区序列被4个内含子分割。染色体定位于19q13．4。此位点存在很多与胃癌、膀胱癌、乳腺癌等癌症相关的基因。TFL76的N末端含有多种蛋白激酶的磷酸化位点和核定位信号。结论：TFL76可能是一个和癌症相关的核转录因子。     

家蚕细胞凋亡相关基因BmICAD的克隆、序列和功能分析及其在精巢中特异表达的初步研究

DREP-1基因在果蝇的细胞凋亡过程中对DNA的降解有重要调控作用.本研究将该基因序列在家蚕EST数据库中进行同源性检索,把检索到的EST序列进行电子延伸和克隆重叠群拼接,根据拼接结果设计引物进行PCR扩增并克隆测序验证,首次成功克隆了家蚕第一个ICAD基因BmICAD的cDNA:该cDNA全长844 bp,ORF长522 bp,编码含有174个氨基酸的蛋白;预测分子量为19 6 kDa,等电点为4.23,所编码蛋白与果蝇DREP-1的一致性(identity)为36%;虽然Northern印记杂交未检测到信号,但是RT-PCR结果显示,该基因在精巢中特异表达.     

火炬松热胁迫cDNA文库的表达谱分析

以火炬松热胁迫cDNA文库的EST序列为材料,对EST序列进行聚类、拼接等处理后,再进行Blast同源比对以及基因GO注释分析。研究结果如下:从Forest TreeDB数据库中下载了火炬松热胁迫cDNA文库的所有EST序列,共4 283条。EST序列经CAP3拼接后,获得2 062个UniGene,其中934个Contig,1 128个Singletons。对UniGene进行同源检索,按照GO的分子功能、生物过程和细胞组分三个不同分类角度分类,被赋予功能的基因数累计达4 661个,但365个(17.7%)的序列与核酸和蛋白数据库无序列同源性,即17.7%为新发现的基因。经对所有具有功能的基因研究发现,受外界胁迫表达的抗逆相关基因含量较高。上述研究结果对于研究火炬松热胁迫基因表达特征与抗逆分子机制具有一定的借鉴价值,以及开发火炬松新分子标记与开展分子辅助育种具有一定的指导意义。     

一种新的cDNA末端快速扩增获取全长cDNA的方法

为克隆精子发生相关基因的全长cDNA,根据mRNA差异显示获得的ESTs设计引物。利用一种新的cDNA末端快速扩增方法（SMART RACE）扩增该EST的5′末端,并进行克隆测序,与cDNA差异显示获得ESTs拼接后,获得了三个新的全长cDNA。结果表明：SMAR RACE是一种简便、有效的克隆cDNA5′末端未知序列的技术。     

基于EST的新基因克隆策略

表达序列标签(expressed sequence tags, EST) 是从随机选择的cDNA 克隆进行单向测序获得的短的cDNA序列, 代表一个完整基因的一部分。随着生物信息学和基因定位的迅猛发展, EST已成为基因定位、基因克隆、基因表达分析的有力工具。近年来, 由于EST数据库的迅速扩张, 运用EST来克隆和定位基因, 使得新基因克隆的策略发生了革命性变革。尽管存在一些不足, 实践证明EST可大大加速新基因的发现与研究。本文将就EST技术尤其是它在新基因克隆中的应用策略作详细介绍。     

人肾高亲和力钠离子依赖性二羧酸转运蛋白基因的克隆和生物信息学分析

为探讨人高亲和力钠离子依赖性二羧酸转运蛋白 (humanhigh affinitysodium dependentdicar boxylatetransporter,hSDCT2orhNaDC3 )基因在人体内的生理功能及其与疾病的关系 ,借助生物信息学成功地从人肾中克隆了hSDCT2基因 (GenBank接收号 :AY0 72 810 ) .首先将大鼠SDCT2cDNA与人EST数据库进行同源性比较 ,获得具有高度同源性EST片段并用DNAstar软件将它们拼接成EST重叠群 .在重叠群上设计PCR引物从人肾总RNA中用RT PCR扩增出hSDCT2基因并测序 ,然后用软件对其结构特性、组织分布及基因定位进行分析 .序列测定结果显示 ,hSDCT2开放阅读框为180 9bp ,共编码 6 0 2个氨基酸 .蛋白同源性分析表明 ,其氨基酸序列与大鼠及小鼠SDCT2分别有85 %和 87%相同 .二级结构分析显示 ,该蛋白有 12个跨膜螺旋区 .Northern分析显示 ,该基因可在肾、肝、脑、胎盘等多种组织中表达 ,并定位于 2 0号染色体的q12～q13 1     

Mouse and Human Neuronal Pentraxin 1 (NPTX1): Conservation, Genomic Structure, and Chromosomal Localization

We have previously identified novel members of the pentraxin family (neuronal pentraxin 1 and 2) that are expressed in the nervous system. Neuronal pentraxin 1 (NP1) was identified as a rat protein that may mediate the uptake of synaptic material and the presynaptic snake venom toxin, taipoxin. NP2 was identified as a separate gene discovered by screening for a human homolog for NP1. Here, we report human cDNA and mouse genomic DNA sequences for NP1 (gene symbol NPTX1). Human NP1 and mouse NP1 show 95 and 99% amino acid identity, respectively, with rat NP1 and conserve all potential glycosylation sites. Like rat NP1, human NP1 message is large (6.5 kb) and is exclusively localized to the nervous system. The mouse NP1 gene is 13 kb in length and contains four introns that break the coding sequence of NP1 in the same positions as the introns of the human NP2 gene. The human and mouse NP1 genes are localized to chromosome 17q25.1–q25.2 and chromosome 11e2–e1.3, respectively. These data demonstrate the existence of a separate family of pentraxin proteins that are expressed in the human brain and other tissues and that may play important roles in the uptake of extracellular material.     

Human gastric intrinsic factor: characterization of cDNA and genomic clones and localization to human chromosome 11

A human gastric intrinsic factor (IF) cDNA clone was isolated using a rat cDNA clone as a probe. Comparison of the predicted amino acid sequence revealed 80% identity of human IF with rat IF. These cDNA clones were used to isolate and map two overlapping clones encoding the human IF gene. The first exon of the cloned region (exon 2) contains 30 bp of the 5' untranslated region, the signal peptide, and the first 8 amino acids of the mature protein. Exons 3-10 encode the remainder of the coding and 3' noncoding regions. Southern analysis of genomic DNA indicated the presence of a single human IF gene and also revealed the presence of strong hybridizing sequences in genomic DNA from monkey, rat, mouse, cow, and human, suggesting that the IF gene is well conserved. The IF gene was localized to human chromosome 11 by concurrent cytogenetic and cDNA probe analysis of a panel of human X mouse somatic cell hybrids. Southern analysis of genomic DNA from patients with congenital pernicious anemia (lacking intrinsic factor) revealed normal restriction fragment patterns, suggesting that a sizable gene deletion was not responsible for the deficiency.     

Cloning and Mapping of the cDNA for Human Sarcosine Dehydrogenase, a Flavoenzyme Defective in Patients with Sarcosinemia

Sarcosine dehydrogenase is a liver mitochondrial matrix flavoenzyme that is defective in patients with sarcosinemia, a rare autosomal metabolic defect characterized by elevated levels of sarcosine in blood and urine. Some patients also exhibit mental retardation and growth failure. A full-length cDNA for human sarcosine dehydrogenase was isolated from an adult liver cDNA library. The first 22 residues in the deduced amino acid sequence exhibit features expected for a mitochondrial targeting sequence. The predicted mass of the mature human liver sarcosine dehydrogenase (99,505 Da) is in good agreement with that observed for rat liver sarcosine dehydrogenase ( approximately 100,000 Da). Human sarcosine dehydrogenase exhibits 89% identity with rat liver sarcosine dehydrogenase and strong homology ( approximately 35% identity) with rat liver dimethylglycine dehydrogenase, a sarcosine dehydrogenase-related protein from Rhodobacter capsulatus, and the regulatory subunit from bovine pyruvate dehydrogenase phosphatase. The human sarcosine dehydrogenase gene is at least 75.3 kb long and located on chromosome 9q34. The adult human liver clone is assembled from 21 exons (1-6, 7a, 8a, 9-21). Two smaller cDNA clones, isolated from adult liver and infant brain libraries, were assembled from the same sarcosine dehydrogenase gene by the use of alternate polyadenylation and splice sites. This is the first report of the genomic structure of the sarcosine dehydrogenase gene in any species. The observed chromosomal location is consistent with genetic studies with a mouse model for sarcosinemia that map the mouse gene to a region of mouse chromosome 2 syntenic with human 9q33-q34. The availability of the SDH gene sequence will enable characterization of the genotypes of sarcosinemia patients with different phenotypes.     

利用电子差异展示方法克隆人类睾丸高表达新基因SPATA11

利用NCBI中的电子差异展示(digital differential display,DDD)软件,比较来自睾丸(包括睾丸癌)与来自其它组织的EST文库,从筛查人类睾丸中高表达而在其他组织中不表达或低表达的差异ESTs入手,成功克隆了一个在人类睾丸中高表达的新基因SPATA11．RT-PCR实验证实其在成人睾丸高表达．序列分析表明该基因含4个外显子,基因组跨越2．6kb,定位于19pl3．3．cDNA编码一个含221个氨基酸,相对分子质量为24．5kD的新蛋白．Northern杂交结果显示：该基因含有1．1kb大小的唯一转录本,主要在睾丸中强表达．肝脏、肺、卵巢和肾脏中有微弱表达．而其他组织中该基因无表达．