导论章:基因调控,RNA网络依赖的结构

P. Behzadi, Lernik Issakhanian
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引用次数: 2

摘要

遗传学被认为是一门古老的科学,它的起源至少可以追溯到7000年前。伊朗人是古代世界最早的遗传学先驱之一。由伊朗明星文学家“Abolqasem Ferdowsi Toosi”编辑的辉煌的伊朗(波斯)文学史诗Shahnameh是证明这一说法的宝贵证据。随着时间的推移和生物学的进步,超级神奇的DNA分子被发现了。今天,我们知道独特的DNA分子包含了核苷酸构成结构的遗传和重要数据。真核生物和原核生物的染色体都由DNA分子组成。除dna外,rna的作用和重要性也不低于dna[1]。1953年,沃森和克里克发现了DNA分子具有反平行双螺旋结构的有趣结构。1958年,克里克(Crick)发表了分子生物学中心法则假说,描述了瞬时分子RNA(主要是信使RNA (mRNA))将位于DNA上的遗传语言翻译成蛋白质的氨基酸序列。mRNA的原始生物学特性在1961年被确认,而核糖体RNA (rRNA)和转移RNA (tRNA)分子的这些特性在20世纪50年代才被确定[2]。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Introductory Chapter: Gene Regulation, an RNA Network-Dependent Architecture
Genetics is known as an old and ancient science that its origination goes back to at least 7000 years ago. Iranians are one of the earliest pioneers in genetics from ancient world. The brilliant Iranian (Persian) literature epic of Shahnameh edited by the Iranian shining star literate “Abolqasem Ferdowsi Toosi” is an invaluable evidence to prove this claim. By the time and progression in biology, the superamazing molecule of DNA was discovered. Today, we know that the unique molecule of DNA involves the genetic and vital data within its bases as constitutional structures of nucleotides. Both eukaryotic and prokaryotic chromosomes are made up of DNA molecules. In addition to DNAs, the role and importance of RNAs are not lesser than DNAs [1]. In 1953, the interesting structure of DNA molecule with anti-parallel doublehelix architecture was recognized by Watson and Crick. In 1958, the hypothesis of central dogma of molecular biology was published by Crick in which he described the translation of genetic language located on DNA into amino acid sequences of protein by the transient molecule of RNA (mainly messenger RNA (mRNA)). The primitive biological characteristics of mRNA were recognized in 1961, while these properties regarding ribosomal RNA (rRNA) and transfer RNA (tRNA) molecules were determined in the 1950s [2].
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