1) degeneracy of genetic code
遗传密码并性
2) genetic code degeneration
遗传密码简并
3) genetic code
遗传密码
1.
Study on the relationship between genetic code and amino acids in living body;
生物体内氨基酸与遗传密码关系研究
2.
As the fundamental element of inheritance information, the uncovery of secret of genetic code must play important roles either in theoretical research or practical application for human to deeply understand the essence of life.
作为生命信息的基本遗传单位,基因组遗传密码的破译对于人们加深对生命本质的认识具有重要的理论价值和现实意义。
3.
The coarseness method based on genetic code was proposed to avoid excessive coarseness.
提出了基于遗传密码的粗粒化方法,有效的避免了过分粗粒化现象。
4) genetic codon
遗传密码
1.
By means of the correspondent reflex and two new operators introduced,a mathematical model of the genetic codons was formulated and a digital representation of the alkali bases and condons was derived in this paper.
借助于该对应方案和引进的两个新算符 ,建立了遗传密码子的数学模型 ,并给出了碱基与密码子的一种数字表达方法。
2.
It shows that the procedure of certainty and inheritance throughout the human life is controlled by the sixty four genetic codons,which is made up of the three choices among the four codes.
本文介绍如何由二进制表示“卦”的顺序,并以太阴、少阴、少阳、太阳分别表示尿嘧啶(U)、胞嘧啶(C)、鸟嘌呤(G)、腺嘌呤(A)4个碱基的遗传密码表,发现竟似同一个密码系统。
5) Codon
[英]['kəudɔn] [美]['kodɑn]
遗传密码
1.
Synonymous codons ,which preference for A and T,were in the genomes of low grade organisms and organells.
遗传密码在基因及其表达调控中具有明显的选择性 。
6) Genetic codes
遗传密码
1.
The development of the concept of genes and their car rier s, up to the discovery of the DNA double helix and genetic codes, is reviewed fr om genetics to cytology, from biochemistry to molecular biology, while the role played by biologists, chemists and physicists is examined.
文章从遗传学到细胞学、从生物化学到分子生物学 ,一步步回顾了基因概念及其载体的具体化 ,直到DNA双螺旋模型建立和遗传密码破译的整个历程 ,从中分析了生物学家、化学家和物理学家各自发挥的作用 。
2.
A systematic survey on coding capacity of genetic codons and their corresponding relationship with protein amino acids was carried out in this paper so as to explore the origination of genetic codes.
为了探讨遗传密码的起源 ,本文系统考察了四种核苷酸和各类密码子的编码信息、密码子与氨基酸的对应分类关系 ,发现 :①四种核苷酸的编码能力依次为A >U >G >C ;②嘌呤型 (PP)、嘧啶型 (MM)与嘌嘧混合型 (PM)密码子的编码能力表现为PP >MM >PM ;③氨基酸与碱基型密码子的对应分类关系较为确定 ,其中PP有酸性、碱性及酰氨型氨基酸 ,MM有芳香族、杂环族氨基酸 ;PM有脂肪族氨基酸编码的偏爱性 。
补充资料:家族性遗传性男性性早熟
家族性遗传性男性性早熟
病名。特发性男性性早熟之一。因下丘脑-垂体-性腺系统过早活动而致。原因不明。好发于1~2岁。遗传基因可通过女性,亦可通过男性传递。表现除身材较矮外,其他方面正常。但副性征出现早,13个月始即现阴茎发育,嗓音变低,出现阴毛、肌肉发达,身高增长加速,骨龄似幼儿。因睾丸酮作用使骨骺过早融合,生长很快停滞。尿17-KS排出量增多,甚至可达青年人水平。无特殊治疗。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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