遗传科学的核心是一个高见:基因序列中可识别的变异可以预测一个人学习、推理和解决问题的能力。
Central to hereditarian science is a tall claim: that identifiable variations in genetic sequences can predict an individual's aptness to learn, reason and solve problems.
这个遗传上的弹性暗示了——有一套核心基因和一套用于特殊环境的外围基因——这在过去的十年里已经在其他种属的细菌中得到证实。
The genetic flexibility this hints at-of a core set of genes and a penumbra of others useful in particular circumstances-has, over the past decade, been confirmed for many other species of bacteria.
核心过程的表观遗传的产业包括DNA甲基化、组蛋白改性、核小体重建、核染色质动力学和互动子都存在。
Core processes of epigenetic inheritance include DNA methylation, histone modification, nucleosome remodeling, nuclear dynamics and chromatin interaction with non-coding RNAs.
将广义线性混合模型应用于核心家系资料建立遗传方差分量模型,运用MCMC方法进行参数估计。
Methods We applied generalized linear mixed models for the nuclear family data to set up the genetic variance component model and estimated parameters using MCMC.
最初,三个核心课程被开发:序列相似性搜索、遗传变异和人类基因组资源。
Initially, three core courses were developed: Sequence Similarity Search, Genetic Variation, and Human Genome Resources.
基因频率变化规律是群体遗传学研究的核心,也是理解生物进化的关键。
Law of changes of gene frequency was core of research on population genetics, was also a key of understanding biological evolution.
它的结构、形态、功能是细胞遗传学中的核心内容。
Their structure, conformation, function are the cores of cytogenetics.
代谢综合征是以胰岛素抵抗为核心,遗传异质性和环境因素导致的一系列心血管疾病高危因素的聚集状态。
Metabolic syndrome is a series of high risk factors of cardiovascular disease, caused by genetic heterogeneity and environmental factor, and the insulin resistance is the core.
潜在的令人兴奋的新方法是通过利用位于某些癌症核心的遗传混乱,打开靶向癌细胞的大门。
This opens the door to potentially exciting new ways to target cancer cells - by exploiting the genetic chaos that lies at the heart of some cancers.
对2个完整的三代家系和51个核心家系的系谱分析,发现瓣状甲的遗传特点与常染色体单基因显性性状一致。
Analyzing the data of 51 nuclear families and 2 families with 3 generations, it was found that petaloid toenail had the same hereditary characters as a dominant single-gene trait.
其次,交叉算子是遗传算法的核心算子,是遗传进化的动力。
Secondly, crossover is the key operator in the genetic algorithms, and it is impetus for evolution.
基因分型,统计分析和基因功能研究是现代遗传学研究中的三个核心组成部分。
Genotyping, statistical analysis and gene function research are the three key parts of modern genetics.
在其他一些情况下,表观遗传对细胞与细胞之间的差异的形成至关重要,并且也是干细胞秘密的核心。
Among other things, epigenetics is crucial to differentiation, the process which makes one cell from another, and thus is at the heart of the mystery of stem cells.
在HCV的编码基因中,核心区(C区)序列具有高度遗传保守性,c基因表达产物具有良好的抗原稳定性。
Among HCV encoding gene, core region shows greater sequence conservation. Core gene expression has favorable antigen stability.
它的核心内容主要包括QTL作图、标记辅助育种、基因组选育、基因工程、遗传转化、生物安全及知识产权问题等。
Its core areas include: QTL mapping or gene discovery, Marker assisted selection, genomic selection, Genetic engineering, Genetic transformation, Issues in Biosafety and Intellectual Property.
它的核心内容主要包括QTL作图、标记辅助育种、基因组选育、基因工程、遗传转化、生物安全及知识产权问题等。
Its core areas include: QTL mapping or gene discovery, Marker assisted selection, genomic selection, Genetic engineering, Genetic transformation, Issues in Biosafety and Intellectual Property.
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