DNA Replication2-AminopurineChemical PhenomenaOn the basis of chemical considerations and model building, the Watson-Crick concept of complementary base pairing is extended to a wider range of DNA pairs that A-T and G-C (including A-C, G-T, A-A, G-G and G-A) by invoking imino or ...
Complementary Base Pairing:Deoxyribonucleic acid or DNA consists of two long nucleotide polymers forming a double helix with each other. This double-helical structure is enabled by the hydrogen bonding between the complementary base pairs.Answer and Explanation: ...
Complementary Base Pairing in DNA: Rules The double helix structure of DNA was first hinted at by a scientist named Rosalind Franklin. She used x-rays to create images that suggested that DNA formed the double-stranded, twisted structure that James Watson and Francis Crick later determined to ...
How does complementary base pairing make the replication of DNA possible? Will the DNA replication process always create identical strands? Why or why not? What would the consequence of a mistake be? Would DNA replication be much more error prone if DNA polymerases ...
An interesting theory has been propounded by Topal and Fresco (Nature, 1976) to account quantitatively for the observed frequencies of a certain class of mutation, point mutations which entail the substitution of one base pair for another in the DNA molecule. Such point mutations can be of ...
基互补配对原则theprincipleofcomplementarybasepairing在DNA分子 结构中,由于碱基之间的氢键具有固定的数目和DNA两条链之间的距离保持不 变,使得碱基配对必须遵循一定的规律,这就是Adenine(A,腺嘌呤)一定与 Thymine(T,胸腺嘧啶)配对,Guanine(G,鸟嘌呤)一定与Cytosine(C,胞 ...
Chinese English Pinyin Dictionary Search with English, Pinyin, or Chinese characters. Powered byCC-CEDICT 碱基互补配对Trad.鹼基互補配對 jiǎn jī hù bǔ pèi duì complementary base pairing e.g. adenine A 腺嘌呤 pairs with thymine T 胸腺嘧啶 in DNA...
两股多核苷酸链的硷基间是互补性硷基配对(complementary base pairing)。即 A 对 T,而 C 配 G,硷基对之间藉氢链互相连 … www.pdfio.com|基于3个网页 3. 互补硷基配对 生化中英索引 ...complementary base pairing互补硷基配对complementary base sequence 互补硷基序列 ... ...
美 英 un.互补碱基 网络互补硷基
DNA* is the information molecule of the cell. DNA’s capacity to store and transmit heritable information depends on interactions between nucleotide bases and on the fact that some combinations of bases form stable links, while other combinations do not. Base pairs that form stable connections are...