转录组

利用转录组数据发现了罗汉果甜苷V生物合成通路中几乎所有的基因，涉及到20种基因。

With the usage of transcriptome data , it found that almost all genes are related to the mogrosides V biosynthesis pathway .

随着越来越多的鱼类基因组测序计划的开展，以及转录组测序结果的积累，比较基因组学方法能帮助我们鉴定鱼类CC趋化因子。

With the launch of more and more fish genome sequencing and transcriptome sequencing projects , rapid accumulation of the data set make comparative genomics more accessible to identify fish CC chemokines .

A-to-ⅠRNA编辑在高等真核生物转录组的多样性及调控性中扮演举足轻重的角色。

A-to-I RNA editing act as a central generator of transcriptome diversity regulation in higher eukaryotes .

DNA微阵列技术以其高通量、自动化、平行化、快速化的优势，成为后基因组时代在转录组水平进行肿瘤基因表达谱分析的最强有力工具。

With the advantages of high throughput , automation and speed , DNA microarray is becoming the most powerful tool in cancer research in the post-genome age .

通过GO（GeneOntology）和KEGG分析，从整体水平阐述了转录组的变化。

Furthermore , the transcriptional changes was discussed at overall level by GO ( Gene Ontology ) and KEGG classification analysis .

我们的结果给出了通往直接用实验操作的上千非编码RNA的之路并阐述了从头重新构建哺乳动物转录组的强大能力。

Our results open the way to direct experimental manipulation of thousands of noncodingRNAs and demonstrate the power of reconstruction to render a comprehensive picture of mammalian transcriptomes .

利用DDRT-PCR技术结合本地比对分析快速从海量转录组数据库中筛选耐盐基因。

Rapidly identified the salt-stress induced genes from the massive amount of transcriptome sequencing data by DDRT-PCR combined with local BLAST analysis .

随着新一代高通量测序技术的飞快发展，RNA测序技术（RNA-Seq）已经被广泛应用于各种生物的转录组分析中。

With the rapid development of the next generation sequencing , the RNA sequencing ( RNA-Seq ) is widely used in the analysis of transcriptomes of various organisms .

利用qRT-PCR技术对这些基因的差异表达进行验证，结果显示qRT-PCR数据与转录组数据相一致。

We validate these genes differentially expressed by qRT-PCR . The result of qRT-PCR is consistent with the result of transcriptome data .

利用线粒体转录组作图方法，分析了中华稻蝗的线粒体转录产物，发现若虫中两个rRNA基因比成虫的表达水平高，而rRNA基因的转录效率比蛋白质编码基因高。

Through mitochondrial transcript mapping , we analysed mitochondrial transcripts of O. chinensis , and found that expression level of two rRNA genes are higher in the nymph , and transcriptional efficiency of rRNA is higher than protein coding genes .

转录组分析发现有5个DMRT基因在性腺中表达，它们可能在尼罗罗非鱼性腺发育、性别决定与分化中起重要作用。

Five DMRT genes were found to be expressed in gonads by transcriptome analysis . They may play important roles in sex determination and differentiation , and gonadal development .

基于11类cSSRs的多态性比较分析，本研究设计出了杨梅转录组多态性cSSRs标记筛选的策略。

A strategy was devised to screen for polymorphic cSSRs based on the analysis of polymorphisms in each type of cSSR .

目前已有人类许多不同组织或细胞系的RNA-Seq转录组数据，这为本研究提供了必要的前提和可能。

Many different human tissue / cell transcriptome datasets coming from RNA-Seq technology are publicly available at present , which provides the necessary prerequisite and possibility for this study .

其次，利用双向电泳技术研究了水稻根中蛋白质对氮和CTK的响应。此外，还利用蛋白质组和转录组学技术分析了氮肥对水稻穗发育过程中基因表达的影响，并筛选差异表达基因。

In addition , the proteome of root response to nitrogen / CTK were studied by two-dimensional electrophoresis , and the differentially expressed genes response to nitrogen fertilizer were found by the techniques of proteome and transcriptome .

转录组分析表明33个尼罗罗非鱼FGFs基因中有20个成员在性腺表达，它们在性别决定与分化以及性腺发育过程中的作用，还有待进一步研究。

Transcriptome analysis demonstrated that 20 of 33 Nile tilapia FGFs are expressed in gonad , and their roles in the sex determination , sex differentiation and gonadal development need to be investigated .

RNA-Sequencing（RNA-Seq）是当前非常有效的可以定性和定量化分析转录组的技术，被广泛应用于基因表达调控领域的研究。

RNA-Sequencing ( RNA-Seq ) provides researchers with a powerful toolbox for characterization and quantification of transcriptome , and is widely used in the study of gene expression regulation .

本研究采用cDNA-SRAP技术在转录组水平上进行磷胁迫下玉米基因差异表达的分析，以期为深入了解玉米的磷胁迫应激反应奠定基础。

In order to understand stress response mechanisms of phosphorus starvation in maize , this study analyzes the gene differential expressions in maize under the condition of phosphorus starvation at the level of transcriptome using cDNA-SRAP .

通过胶乳转录组分析探析巴西橡胶树橡胶生物合成的研究

Insights into Rubber Biosynthesis from Transcriptome Analysis of Hevea Brasiliensis Latex

基于转录组的人肝脏分泌蛋白质组研究

The Human Liver Secretome : A Transcriptome-Based Survey

表达基因芯片分析是在转录组水平研究基因表达情况的最佳工具。

DNA Microarray is the best tool to investigate gene expression on transcriptome level .

转录组与蛋白质组比较研究进展

Progress in The Comparison of Transcriptome and Proteome

基因组和转录组分析无疑将补充现有的蛋白质组和遗传学知识。

Genome and transcriptome analyses will complement the proteome and genetic information available today .

代谢组学是继基因组学、转录组学和蛋白质组学之后在学术界兴起的又一门新兴系统生物学分支。

Metabolomics is a rising branch of the systems biology methodology after genomics and proteomics .

花粉发育的转录组研究进展

Recent Study of Pollen Transcriptome

因此，鲤大规模转录组数据有利于我们研究鲤额外的基因组复制事件发生的大致时间。

Large-scale transcriptome data for the common carp genome should help reveal the timing of the additional duplication event .

转录组异常改变与喉鳞癌复发转移的研究利用血管内皮异质性预测和干预肝癌转移复发的研究

Study on Heterogeneity of Vascular Endothelium , Its Potential on Prediction and Intervention of Metastatic Recurrence for Hepatocellular Carcinoma

目的从转录组水平识别弥漫型胃癌与正常胃黏膜间的基因表达差异，探讨胃癌分子发生发展机制。

Objective To identify cancer-related genes in diffuse-type gastric cancer and to explore its molecular mechanism by cDNA microarray analysis .

通过转录组分析，探讨了组织特异性基因表达模式。

By analyzing the predominant transcripts within specific tissues , a gene expression pattern was obtained in a tissue-specific manner .

蛋白质组研究旨在研究基因组编码的整套蛋白质的结构和功能，从而补充转录组的研究。

Proteome studies aim at the complete set of proteins encoded by the genome and thus complement the transcriptome studies .

完整的基因组注释可以为后续的比较基因组学、重测序和转录组学研究提供更可靠的信息。

A completed genome annotation would provide more reliable information for subsequent study of comparative genomics , resequencing , and transcriptomics .