Nucleic acid molecules is a long concatenation polymer ( polynucleotide ) composed of monomeric units called bases. The nucleic acids found in being can be of two sub-class Deoxynucleic acid ( DNA ) and Ribonucleic acid ( RNA ) . Each nucleotide consists of a nucleoside and a phosphate group and each nucleoside in its bend consists of a sugar molecule and a base.DNA is the premier familial molecule, transporting all the familial information within chromosome, instantly following attending on its construction. The exact reproduction of the information in the Deoxyribonucleic acid in any species assures its familial continuity from coevals to coevals and is critical to the normal development of an person. The information stored in DNA is arranged in familial units known as cistrons that control identifiable traits of an being.In the procedure of written text, the information stored in DNA is copied into ribonucleic acid, which has distinguishable functions in protein synthesis. ( Strickberger, 2006 )

Structure of Deoxyribonucleic acid

Deoxyribonucleic acid as a chemical, is rather simple and contains 3 types of chemical constituents ; 1 ) phosphate, 2 ) a sugar called deoxyribose and 3 ) four nitrogen-bearing bases: A, G, C and T. The C atoms in the sugar group besides are assigned figure in this, the figure is followed by a premier ( 1 ‘ , 2 ‘ and so forth ) . The sugar in Deoxyribonucleic acid is called deoxyribose because it has merely a H atom ( H ) at the 2’-carbon atom, unlike ribose ( a chemical compound of RNA ) which has a hydroxyl ( OH ) group at that place. Two of the bases adenine and guanine have a dual construction called as purines. The other two bases cytosine and thymine have a individual construction called pyrimidine. The chemical constituents of DNA are arranged into groups called nucleotide, each composed of a phosphate group, a deoxyribose sugar molecule, and any one of the four bases. ( Griffiths et al, 2008 )

( Beginning ; Structure of Deoxyribose sugar, n.d. )

Purines: a )

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Adenine A Guanine G

Pyrimidines: B )

Thymine T Cytosine C

Fig.Structure of DNA bases.

( Deoxyribonucleic acid and RNA Structures, n.d )

Deoxyribonucleic acid is a dual spiral construction in which they consists of two complementary polymeric ironss twisted about each other. The two nucleotide strands twisted are held together by H bonds between the bases of each strand organizing a construction like a coiling stairway. The anchor of each strand is formed jumping phosphate and deoxyribose sugar units that are connected by phosphodiester linkages. Each phosphate anchor is said to hold 5 ‘ to 3 ‘ mutual opposition or way. In the two-base hit stranded DNA molecule, the two anchors are in opposite, or anti parallel, orientation. Each base is attached to the 1’-carbon atom of a deoxyribose sugar in anchor of each strand and faces inward toward a base on the other strand. The base brace, which are level planar constructions, stack on top of one another at the centre of the dual spiral. Stacking adds to the stableness of the Deoxyribonucleic acid molecules by excepting H2O molecules from the infinites between the base brace. The most stable signifier that consequences from base stacking is a dual spiral with two distinguishable sizes of channels, the coiling form of DNA depends wholly on the coupling and stacking of the bases in the anti parallel strands. Each purine base brace with pyrimidine base G?C, A=T. ( Nelson et al, 2000 )

Fig.structure of Deoxyribonucleic acid

( Beginning ; Structure o f DNA, n.d. )

Functions of Deoxyribonucleic acid

DNA chiefly serves as the storage stuff for familial information. It is a dual isolated construction which has a figure of advantages the most of import being when strand interruptions, the full molecule does non fall apart. If mistake is made in one strand on one base the other strand is still there in the original order to assist keep the original sequence on the opposite strand when a rectification enzyme comes along to nip out the mismatch. Since the anchor of each strand is made of sugar-phosphate maintains its stableness and besides double coiling fells the base inside them. The base brace complementarity is a effect of size, form and chemical composing of the bases. ( Watson e tal, 1965 )

The presence of 1000s of H bonds in a Deoxyribonucleic acid molecule contributes greatly to the stableness of the dual spiral. Hydrophobic and Vanderwaals interaction between the stack next base pairs further stabilise the dual coiling construction. The two channels ( minor and major channels ) which is formed by the intertwined strands besides has some maps like, the DNA binding proteins can ‘read ‘ the sequence of bases in duplex Deoxyribonucleic acid by reaching atoms in either the major or the minor channels. In DNA Thymine is used as a base alternatively of U because T is a methylated signifier of DNA and therefore methylation protects the Deoxyribonucleic acid and makes unrecognisable to many nucleases. Besides methyl restricts the T to partner off merely with A which improves the efficiency of DNA reproduction by cut downing the rate of mismatches and therefore cut downing mutants. ( Lodish vitamin E tal, 1986 )

Structures of RNA

Ribonucleic acid ( RNA ) is a normally a individual strandard bases chain.RNA has ribose sugar in its bases instead than the deoxyribose found in DNA. The two sugars differ in the presence or absence of merely one O atom. The RNA sugar contains hydroxyl group ( OH ) edge to the2′-carbon atom. A strand of RNA is formed of a sugar-phosphate anchor, with a base covalently linked at the1’position of each ribose. The sugar phosphate linkages are made of each ribose. The sugar phosphate linkages are made at the 5 ‘ and 3’positions of the sugar.RNA bases ( called ribonucleotides ) contain the bases adenine, G and C but the pyrimidine base U ( U ) is present alternatively of T. Uracil form H bonds with A and is capable of base partner offing with G. The H bonds that can organize between U and G are weaker than two that form between U and A.

The ability of U to partner off with both A and G is major ground why RNA can organize extended and complicated constructions. All the construction of RNA sugar is similar to that except presence of OH group at 2’carbon. ( Herskowtz, 1973 ) ( Source ; Structure of Ribose, n.d. )


Adenine A Guanine G


Uracil U Cytosine C

Fig. Structures of RNA bases.

( RNA and DNA Structures, n.d )

Classs of RNA

RNA can be grouped into general categories ; messenger RNA and functional RNA ( which include transfer RNAs and rRNA. Each of this different RNAs has a specific map. Different RNAs are explained in the undermentioned paragraphs ;

Messenger RNA ( messenger RNA )

Messenger RNA ( messenger RNA ) carries the familial information transcribed from Deoxyribonucleic acid in the signifier of series of 3 bases sequences called codons, each of which specifies a peculiar amino acid. In procaryotic cells, which have no karyon, interlingual rendition of an messenger RNA into protein can get down from the 5 ‘ terminal of messenger RNA, even while 3’end is still being synthesized by RNA polymers. But in eucaryotic cell, all eucaryotic precursor messenger RNA ( pre-mRNAs ) ab initio modified at two terminals, and this alteration are retained in messenger RNA. As the 5 ‘ terminal of a nascent RNA ironss emerges from the surface of RNA polymerase II, it is instantly acted on by several enzyme that together synthesis the 5 ‘ cap, a 7-methylguanylate that is connected to the terminal base of the RNA by unusual 5 ‘ , 5 ‘ triphosphate linkage, Processing at the 3 ‘ terminal of a pre-mRNA involves cleavage by an endonuclease to give a free 3’- hydroxyl group to a which a twine of adenylic acid residues is added one at the clip poly ( A ) tail contains 100 to 250 bases.

The functional eukaryotic of messenger RNA green goodss by RNA treating retain non cryptography parts, referred to as 5 ‘ and 3 ‘ untranslated parts ( UTRS ) at each terminal. ( Lodish vitamin E tal, 1986 )

( Beginning ; Structure of messenger RNA, n.d. )

Transportation RNA ( transfer RNA )

The messenger RNA carries familial information transcribed from Deoxyribonucleic acid in the signifier of codons but Transfer RNA ( transfer RNA ) is the key to decoding the codons in mRNA.Each type of amino acid has its ain subsets of transfer RNA which bind the amino acid and transport it to the turning terminal of a polypeptide concatenation if the following codon in messenger RNA calls for it. All transfer RNAs have the same general form, kind of resembling a trefoil foliage. Partss of the molecule folds back in characteristic cringles, which are held in form by nucleotide-pairing between different countries of the molecule.There are two parts of the transfer RNA that are of peculiar importance: the aminoacyl fond regard site and the anticodon. The aminoacyl fond regard site is the site at which the amino acid is attached to the transfer RNA molecule. Each type of transfer RNA specifically binds merely one type of aminoacid. The anticodon ( three bases ) of the tRNA base brace with the appropriate messenger RNA codon at the mRNA-ribose complex.Because of nonstandard interactions, a transfer RNA may establish Pair with more than one messenger RNA codon ; conversely, a peculiar codon may establish brace with multiple tRNAs.This temporarily binds the RNA to the messenger RNA, leting the amino acid carried by the transfer RNA to be incorporated into the 5 ‘ >3 ‘ way, anticodons are oriented and written in the 3’>5’.The transfer RNA with an affiliated amino acid is said to be charged. The planate C is non the normal verifications of tRNA molecule ; a transfer RNA usually exists as an L-shaped folded trefoil foliage. The dimensional construction of transfer RNA was determined with the usage of X-ray crystallography. ( Russell, 2006 )

Fig ; construction of transfer RNA

( Beginning ; Structure of transfer RNA, n.d )

Ribosomal RNA ( rRNA )

Ribosomal RNA ( rRNA ) associates with a set of proteins to organize ribosomes. These complex constructions which physically move along an messenger RNA molecules catalyze the assembly of aminic acids into polypeptide ironss. The rRNA besides helps to rush up or catalyse protein synthesis by interactions between the transfer RNA and proteins synthesis machines The assorted accessary proteins are composed of a big and a little fractional monetary unit each of which contain its ain rRNA molecule or molecular Ribosomal RNA ( rRNA ) molecules come in 3 basic sizes, in procaryotes 23s,5s and 16s. Eukaryotes have 28s, 5s and 18s.All 3 RNA are individual stranded and have unequal sums of G and C and of A and U. In procaryotes, ribosome binds to the messenger RNA near to the interlingual rendition start site. This ribosome binding site is referred to as Shine-Dalgamo sequence or as the ribosome acknowledgment component. In eucaryotes, ribosomes bind at the 5′-end of the messenger RNA and shortly down the messenger RNA until they encounter a suited start codon. ( Lodish et Al, 1986 )

Functions of RNA

RNA is normally a single-stranded base concatenation, non a dual spiral like Deoxyribonucleic acid and as a consequence RNA is more flexible and can organize a much greater assortment of complex three dimensional molecular forms than can a dual isolated Deoxyribonucleic acid. An RNA strand can flex in such a manner that some of its ain base braces with each other. Such intra molecular base coupling is an of import finding of RNA shape.RNA has a ribose as a sugar constituent and has hydroxyl group at the 2’position.Thus the OH group on C2 of ribose makes RNA more chemically labile than Deoxyribonucleic acid and provides a chemically reactive group that takes portion in RNA-mediated contact action.As a consequence of this labiality, RNA is cleaved into mononucleotides by alkalic solution, whereas DNA is non and besides the presence of OH group facilitates the action of RNA in many of import cellular procedures. .The folded spheres of RNA molecules non merely are structurally correspondent to the alpha spirals and beta strands found in proteins, but in some instances besides have catalytic capacities. Uracil forms H bonds with A and is capable of base partner offing with G. The ability of U to partner off with A and G is a major ground for organizing extended and complicated construction, many of which are of import in biological procedure. And the presence of ribose sugar in its bases maintains its stableness. ( Griffiths et al, 2008 )


Deoxyribonucleic acid and RNA are chemically similar. The primary constructions of both are additive composed of monomers called nucleotides.Cellular RNAs scope in length from less than one hundred to many 1000s of nucleotides.Cellular molecules can be every bit long as several hundred 1000000s nucleotide.DNA and RNA each consists of merely four different nucleotides.Nucleotides consist of an organic base linked to five-carbon sugar that has a phosphate group attached to carbon 5.In RNA sugar is ribose and in DNA, deoxyribose.Both RNA and DNA contain three of the bases adenine, G and cytosine.However T in DNA and U in RNA.A individual nucleic acid strand has a anchor composed of reiterating pentose-phosphate units from which purines and pyrimidines bases extend as side groups.The chemical linkages between next bases, is called phosphodiester.

Although the primary construction of DNA and RNA are by and large similar, their three dimensional conformations are rather different.These structural differences are critical to the different maps of the two types of nucleic acid. ( Lodish et Al, 1986 )


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