第三章为蛋白质亚细胞定位的预测。
The third chapter gives the prediction of protein subcellular location.
目的探讨人毛囊干细胞定位和增殖特性。
Objective To investigate the location and proliferation of human hair follicle stem cells.
叶片和茎尖的亚细胞定位和质谱鉴定研究。
The subcellular localization and mass spectrum identification of the protein m 24 ku, pI 6.
多巴染色检测该表皮替代物结构和黑素细胞定位。
Structure of the reconstructed epidermis and the location of melanocytes were detected by Dopa dyeing.
亚细胞定位分析结果表明SPP定位于叶绿体中。
Subcellular localization analysis indicates that SPP is targeted to the chloroplast.
酶的细胞定位实验表明,所产中性植酸酶是胞外酶;
The orientation test show that the produce phytase was extracellular-enzyme;
植物蛋白质的亚细胞定位是功能基因组学的重要内容。
Protein subcellular localization is one of the key questions for functional genomics.
背景:亚细胞定位信息是蛋白质功能研究的关键特征之一。
BACKGROUND: Subcellular localization information is one of the key features to protein function research.
目的研究脑红蛋白(NGB)在正常大鼠脑内表达的细胞定位。
Objective To study the cellular localization of neuroglobin (NGB) protein expression in rat brain.
第二个问题是论文的核心内容,论文研究的是亚细胞定位点预测。
The second problem, prediction of subcellular location, is the core content of this thesis.
蛋白质的亚细胞定位信息对于深入了解该蛋白质的功能具有重要意义。
The information of protein subcellular localization is important to our understanding of a protein function .
信号蛋白的亚细胞定位和激活后移位已成为细胞信号转导研究中的重要内容。
The subcellular localization and translocation of signaling proteins have risen large interest in the study of cellular signal transduction.
摘要:蛋白质的亚细胞定位信息对于深入了解该蛋白质的功能具有重要意义。
Abstract: The information of protein subcellular localization is important to our understanding of a protein function.
我们在关于蛋白质亚细胞定位和远同源性检测的两个不同的数据集上做了实验。
We report experiments on two data sets, predicting subcellular localizations and remote homology detections.
纳米控释系统使转染基因的胞内摄入量增高,增强其稳定性、靶向性及细胞定位。
Nano-delivery system increases cellular uptake of specific gene, protects them against nucleases and enhances their targeting and selectivity.
目的:研究小鼠受精卵及2 -细胞期胚胎中14-3-3蛋白的表达及亚细胞定位。
Objective: To study the expression and localization of 14-3-3 proteins in mouse fertilized eggs and 2-cell stage embryos.
利用蛋白质中氨基酸组分,通过计算离散增量和离散有限系数预测蛋白质的亚细胞定位。
By use of proteins amino acid composition, the subcellular location of a protein can be predicted by calculating increment of diversity and finite coefficient of diversity.
亚细胞定位显示,该蛋白存在于细胞质和细胞核的概率分别为60.9%和30.4%。
The residing probability of MTHFR in the cytoplasmic and nuclear was 60.9% and 30.4%, respectively.
目的观察卵巢切除大鼠骨组织白细胞介素- 6 (IL - 6)的基因表达及细胞定位。
Objective to observe the expression and cellular location of interleukin-6 (IL-6) mRNA in bone tissue of ovariectomized rats.
研究发现蛋白磷酸化参与细胞死亡途径的调节,影响亚细胞定位、细胞保护、细胞周期进程。
Protein phosphorylated participates in regulation of cell death pathway, location, cell protection, and transition of cell period.
为了鉴定脱氢表雄酮抗体的特异性及使用效价,观察脱氢表雄酮在人早期胎盘绒毛的细胞定位。
To study sensitivity and specificity of rabbit anti dehydroepiandrosterone(DHEA) antibody and localization of DHEA in human placenta villi.
目的了解标签蛋白GFP的位置对过表达的MDA-7/IL-24融合蛋白亚细胞定位的影响。
Objective To find out the role of GFP-tag on the localization of overexpressed MDA-7/IL-24 protein.
蛋白质处于特定的亚细胞位置上才能行使其功能,故研究亚细胞定位对了解蛋白质功能非常重要。
Protein can work only in specific subcellular position, so where the protein located in a cell is very important for the study of the protein functions.
前言:目的:探讨ADAM28在牙源性上皮和间充质细胞中的表达差异,明确其亚细胞定位情况。
Objective: to investigate the expression differences of ADAM28 in odontogenic epithelial and mesenchymal cells and definitude the sub-cell orientation of ADAM28.
PDI与GFP融合表达研究基因的亚细胞定位,表明该基因定位在除细胞膜外的细胞质和细胞器上。
The expression of PDI-GFP fusion protein revealed its localization in both nuclear and cytoplasm compartments.
HSF1的亚细胞定位分析显示,HSF1主要存在于年轻细胞胞质中,热刺激促使三体形成和核转移;
While heat shock promoted the phosphorylation and nuclear translocation of HSF1, the ability of this nucleus-localized HSF1 to form the DNA-binding trimer was reduced.
其次,我们探索了亚细胞位置之间的依赖关系,并且将这种关系用于支持向量机来进行蛋白质亚细胞定位。
Second, we explore the interdependences between subcellular locations and incorporates them with SVMs for prediction of protein subcellular localization.
用来确定蛋白质的最终亚细胞定位的很多信息是在它们的氨基酸序列中找到的的观点已经得到了广泛地认同。
It is widely recognized that much of the information for determining the final subcellular localization of proteins is found in their amino acid sequences.
本研究旨在对BRD7的核定位信号进行预测、结构分析和功能鉴定,并考察其对BRD7亚细胞定位的影响。
Objective: To structurally analyse and functionally identify the nuclear localization signal (NLS) in BRD7 and then study its effect on the subcellular localization of BRD7.
随着后基因组时代的来临,蛋白质序列信息增长迅速,而利用实验手段分析蛋白亚细胞定位的不易大规模进行。
With the advent of the post-genome era, the rapid enlarge of protein sequence information, it is difficult to use experimental methods in large-scale analysis of protein subcellular location.
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