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Nucleic acids primary structure

This chapter describes the chemistry of nucleotides and the m or classes of nucleic acids. Chapter 12 presents methods for determination of nucleic acid primary structure (nucleic acid sequencing) and describes the higher orders of nucleic acid structure. Chapter 13 introduces the molecular biology of recombinant DNA the construction and uses of novel DNA molecules assembled by combining segments from other DNA molecules. [Pg.328]

Nucleic acids are acidic substances present m the nuclei of cells and were known long before anyone suspected they were the primary substances involved m the storage transmission and processing of genetic information There are two kinds of nucleic acids ribonucleic acid (RNA) and deoxyribonucleic acid (DNA) Both are complicated biopolymers based on three structural units a carbohydrate a phosphate ester linkage between carbohydrates and a heterocyclic aromatic compound The heterocyclic aro matic compounds are referred to as purine and pyrimidine bases We 11 begin with them and follow the structural thread... [Pg.1155]

In contrast, RNA occurs in multiple copies and various forms (Table 11.2). Cells contain up to eight times as much RNA as DNA. RNA has a number of important biological functions, and on this basis, RNA molecules are categorized into several major types messenger RNA, ribosomal RNA, and transfer RNA. Eukaryotic cells contain an additional type, small nuclear RNA (snRNA). With these basic definitions in mind, let s now briefly consider the chemical and structural nature of DNA and the various RNAs. Chapter 12 elaborates on methods to determine the primary structure of nucleic acids by sequencing methods and discusses the secondary and tertiary structures of DNA and RNA. Part rV, Information Transfer, includes a detailed treatment of the dynamic role of nucleic acids in the molecular biology of the cell. [Pg.338]

The biological function of biopolymers such as polypeptides, proteins, nucleic acids etc. depends strongly on their ordered structure which is determined by the pattern of inter- and intramolecular interactions given by the primary structure. [Pg.13]

Since these basic facts became known, a tremendous amount of research has been done on the structures and behaviors of these important substances. There has also been much research on the synthesis and study of other chain polyelectrolytes, containing hydrogen-bond-forming radicals (R) more-or-less like those in the natural nucleic acids. The primary aim of this research is, of course, to relate the behavior of the synthetic materials to the behavior of the natural ones. Okubo and Ise here present an excellent discussion on this research. [Pg.192]

This branch of bioinformatics is concerned with computational approaches to predict and analyse the spatial structure of proteins and nucleic acids. Whereas in many cases the primary sequence uniquely specifies the 3D structure, the specific rules are not well understood, and the protein folding problem remains largely unsolved. Some aspects of protein structure can already be predicted from amino acid content. Secondary structure can be deduced from the primary sequence with statistics or neural networks. When using a multiple sequence alignment, secondary structure can be predicted with an accuracy above 70%. [Pg.262]

PI 1. Persico, M. G., Viglietto, G., Martini, G Toniolo, D., Paonessa, G., Moscatelli, C., Dono, R., Vulliamy, T., Luzzatto, L., and D Urso, M., Isolation of human glucose-6-phosphate dehydrogenase (G6PD) cDNA clones Primary structure of the protein and unusual 5 non-coding region. Nucleic Acids Res. 14,2511-2522,7822 (1986). [Pg.49]

Tipson devoted most of his years in Levene s laboratory accomplishing seminal work on the components of nucleic acids. To determine the ring forms of the ribose component of the ribonucleosides he applied Haworth s methylation technique and established the furanoid structure for the sugar in adenosine, guanosine, uridine, and thymidine. He showed that formation of a monotrityl ether is not a reliable proof for the presence of a primary alcohol group in a nucleoside, whereas a tosyl ester that is readily displaced by iodide affords clear evidence that the ester is at the 5-position of the pentofuranose. Acetonation of ribonucleosides was shown to give the 2, 3 -C -isopropyl-idene derivatives, which were to become extensively used in nucleoside and nucleotide chemistry, and were utilized by Tipson in the first chemical preparation of a ribonucleotide, inosinic acid. [Pg.422]

Nucleic acid structures and sequences primary and secondary structure of DNA fragments, translocation of genes between two chromosomes, detection of nucleic acid hybridization, formation of hairpin structures (see Box 9.4), interaction with drugs, DNA triple helix, DNA-protein interaction, automated DNA sequencing, etc. [Pg.271]

The history of molecular biology has been a history of technological developments for determining the primary and tertiary structures of protein and nucleic acid molecules. Once the molecular structure is known, it provides clues to molecular functions. This is the principle of the structure-function relationship. Based on this principle the analysis of the amino acid sequence is performed to decipher the functional information from the sequence information. The analysis usually involves detection and prediction of empirical sequence—function relationships with additional consideration of known or predicted three-dimensional (3D) structures. Thus, the process can be represented schematically as ... [Pg.381]

Sequencing.—With the elucidation of the primary and secondary structure of the replicase gene, the complete 3569-nucleotide-long sequence of the RNA of bacteriophage MS2 is now known.153 This is the first organism for which theentire nucleic acid structure has been elucidated, and Fiers and his group richly deserve their bouquet. [Pg.173]

So far, I have described the primary structure of a nucleic acid. DNA is a linear polynucleotide based on 2 -deoxyribose as sugar and A, Ci C, and T as bases. RNA is a linear polynucleotide based on ribose as sugar and A, G, C, and U as bases. In both... [Pg.157]

We generally describe the structure of both synthetic and natural polymers in terms of four levels of structure primary, secondary, tertiary, and quaternary. The primary structure describes the precise sequence of the individual atoms that compose the polymer chain. For polymers that have only an average structure, such as proteins, polysaccharides, and nucleic acids, a representative chain structure is often given. [Pg.757]

The sequence of nucleotides in a nucleic acid is defined as the primary structure of nucleic acid. [Pg.43]

The primary structure of nucleic acids refers to the sequence in which the four nitrogen bases (A, G, C and T in DNA and A, G, C and U) in RNA are attached to sugar phosphate backbone of the nucleotide chain. [Pg.105]

Not only proteins and their oligomers, but nucleic acids as well give beautiful examples of self-organization - think of the formation of the DNA duplex, where the primary structure of the two strands determines the rules for self-assembly or the folding of t-RNA. [Pg.91]


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See also in sourсe #XX -- [ Pg.1177 ]

See also in sourсe #XX -- [ Pg.1177 ]

See also in sourсe #XX -- [ Pg.1212 ]




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