1)Genotype[英]['d?en?utaip][美]['d??no,ta?p]基因型别
1.New Genotypes for Aminoglycoside-modifying Enzymes in Escherichia coli;大肠埃希菌新的氨基糖苷类修饰酶基因型别研究
2.Results All the serial sera of 4 patients were infected by 1b and 2a genes, and genotype changing with time, the mixed infection was found in the samples during the exchanged period.方法 利用不同HCVE2区引物对 4例病人系列血清标本进行序列测定和比较 ,并用不同方法确定HCV基因型别。
英文短句/例句
1.Detection of human papillomavirus genotypes by HPV DNA chip in cervical intraepithelial neoplasm and invasive squamous cell carcinoma基因芯片检测宫颈上皮内瘤变和浸润性鳞癌中HPV基因型别
2.Seroepidemiological Study of Norovirus in Different People and Identification of the Genotypes in Norovirus Infection;诺瓦克样病毒血清流行病学及基因型别分析研究
3.Molecular Characteristic of G-Type and P-Type Group A Rotavirus Circulating in Wuhan during 2005~2006;2005~2006年武汉地区A组轮状病毒G和P基因型别的特征
4.cagA, vacA and iceA Genotypes of Helicobacter Pylori Isolated from Children in Shanghai;上海地区部分儿童幽门螺杆菌cagA、vacA、iceA基因型别分析
5.The Analysis of HBV Genotype, Gene Mutantion and the Households Clustering in Community-based Zhengding Area, Hebei Province河北正定县人群感染HBV基因型别、突变特征及家庭聚集性分析
6.Genotyping and Epidemiologic Survey Toward Clinical Varicella-zoster Virus Isolates Collected in China水痘—带状疱疹病毒临床分离株基因型别分析与流行病学调查
7.The Design and Implementation of ncRNA Gene Finding Model;非编码RNA基因识别模型的设计与实现
8.Utilizing SNP Genotyping to Discriminate FLC1 and FLC3 from A or C Genomes in Brassica Crops利用SNP分型技术鉴别油菜FLC1与FLC3基因的A、C组基因型
9.SRBCT Subtype Recognition Based on Gene Expression Profiles;基于基因表达谱的小圆蓝细胞瘤亚型识别研究
10.Open-pollinated progenies of such genotypes are raised separately.将这种基因型的自由传粉的后代分别播种。
11.Speaker Recognition Based on Factor Analyzed Probability Statistic Models;基于因子分析概率统计模型的说话人识别
12.The Application of Second-order HMM in Gene Recognition二阶隐马尔科夫模型在基因识别中的应用
13.Predicting transgene flow by modeling compatibility with Brassia napus转基因甘蓝型油菜亲和性等级识别方法构建
14.Application Value of Allele Frequencies in Direct Identification of Ambiguous HLA Genotypes等位基因频率在鉴别模棱两可HLA基因型中的应用价值分析
15.The Functional Differences between Hepatitis B Virus X Proteins and Related Mutants with Genotype B and C;B、C基因型乙型肝炎病毒X蛋白及其变异体的功能差别研究
16.Selection of Specific Adapting Areas of Different Wheat Genotypes and Analysis of High and Stable Yields不同小麦基因型特别适应区选择及高产、稳产比较分析
17.Genetic Dissection of Sex Expression and Studies on the Distribution and Expression of Genes Related to Sex Determination in Cucumber (Cucumis Sativus L.);黄瓜性型遗传规律及性别决定相关基因的分布和表达研究
18.Detection of Isochore Boundaries in Human Genome with Double Windows Model and Wavelet Multiresolution Analysis;双窗口模型结合小波多尺度分析识别人类基因组Isochore的边界
相关短句/例句
Sex genetype性别基因型
3)gene recognition基因识别
1.A self-similarity-map-based algorithm for generating negative samples and its application in prokaryotic gene recognition;原核基因识别中的一种负样本生成算法
2.The definition of global maximum self-similarity of gene chip data and an automatic gene recognition method based on the maximum self-similarity and local high dimensional segment alignment (DP-MS) are proposed.讨论了基于最大相似度建立模板的方法与基于最大相似度的基因沿校对路径平均的建立模板方法对基因识别和分类的影响。
3.The work of gene recognition is an important branch of bioinformatics.基因识别是生物信息学的一个重要分支,随着计算机科技的飞速发展,将其应用到基因识别中有很重要的现实意义。
4)gene finding基因识别
1.The generalized hidden Markov model (GHMM) is an important model for computational gene finding.广义隐Markov模型是计算机基因识别的一种重要模型,它克服了传统隐Markov模型的状态段长成几何分布的缺陷,更加适合于计算机基因识别。
2.In this paper,the mathematical theory of Hidden Markov models is briefly introduced,and then the applications of them in gene finding are illustrated take examples for genes in Escherichia coli and Homo sapiens.简要介绍了隐马模型的数学原理,并以大肠杆菌和人的基因识别为例说明了它在基因识别中的应用。
5)sex gene性别基因
6)gene identification基因识别
1.Prokaryotes gene identification based on nonlinear SVM基于非线性支持向量机的原核生物基因识别
2.Hence, computational approaches are a natural choice to complement experimental approaches to miRNA gene identification.因此,miRNA基因识别需要寻求计算方法来弥补实验方法的不足。
3.Base composition,period-3 behavior,codon usage and base location relation are studied re-spectively,and then the gene identification algorithm based on multiple features is proposed.基于统计特征的基因识别算法对较长的序列预测精度较高,但对于较短的基因序列识别精度仍然不理想。
延伸阅读
基因型与表型 丹麦遗传学家W.L.约翰森于1911年提出的两个遗传学名词。基因型又称遗传型,指生物的全部遗传物质(基因)组成。 但一般只表示个别或少数基因位点上的等位基因的组成。表型指生物体个别或少数性状以至全部性状的表现。基因型是生物体在适当环境条件下发育表型的内因;表型则是基因型和环境条件共同作用的结果。能遗传的是基因型,不是表型。环境因素是基因型得以发育其表型的必要条件。例如玉米中的"日光红"性状,茎秆、叶鞘以及苞叶在受日光照射后能表现红色,不带该基因的玉米品种则呈绿色。如把"日光红"玉米植株一部分遮光,则遮光部分就不表现红色。日光是表现玉米"日光红"性状的必要条件;但日光不能使普通玉米基因型的茎叶表现为红色,因为它们的基因型不同。有时由于等位基因间或非等位基因间相互作用的影响,不同的基因型可以表现相同的表型。如两株同开红花的豌豆,一株的自交子代全开红花,而另一株的自交子代则出现3/4开红花和1/4开白花的分离,说明它们具有不同的基因型。相反,相同的基因型也可由于基因型对环境影响有不同的反应而发育成不同的表型。基因型的这种反应特性是生物体在长期进化过程中逐渐形成的,有利于适应不同的环境条件。育种主要是选择优良的基因型,因此要善于通过表型的考察鉴定其基因型。
