Directionality (molecular biology)

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File:DeoxyriboseLabeled.png
A diagram of a furanose (sugar-ring) molecule with carbons labelled numerically

Directionality, in molecular biology, refers to the end-to-end chemical orientation of a single strand of nucleic acid. The chemical convention of naming carbon atoms in the nucleotide sugar-ring numerically gives rise to a 5' end and a 3' end. The relative positions of structures along a strand of nucleic acid, including genes, transcription factors, and polymerases are usually noted as being either upstream (towards the 5' end) or downstream (towards the 3' end).

The importance of having this naming convention lies in the fact that nucleic acids can only be synthesized in vivo in a 5' to 3' direction, as the polymerase used to assemble new strands must attach a new nucleotide to the 3' hydroxyl (-OH) group via a phosphodiester bond. By convention, single strands of DNA and RNA sequences are written in 5' to 3' direction.

5' end

The 5' (pronounced "five prime") end is named as the strand terminates at the chemical group attached to the fifth carbon in the sugar-ring. If a phosphate group is attached to the 5' end, ligation of two nucleotides can occur via a phosphodiester bond from the 5'-phosphate to the 3′-hydroxyl group of another nucleotide. If it is removed no ligation can occur. To prevent unwanted nucleic acid ligation (e.g. self-ligation of a plasmid vector in DNA cloning), Molecular biologists can utilize this chemical property by removing the 5'-phosphate with a phosphatase.

The 5' end is also the site at which post-translational capping occurs, a process which is vital to producing mature messenger RNA. Capping ensures the stability of the messenger RNA while it undergoes translation, providing resistance to the degradative effects of exonucleases. [citation needed] It consists of a methylated nucleotide (methylguanosine) attached to the messenger RNA in a rare 5' to 5' triphosphate linkage.

The 5' flanking region of a gene often denotes a region of DNA which is not transcribed into RNA. The 5'-flanking region contains the gene promoter, and may also contain enhancers or other protein binding sites.

The 5' untranslated region is a region of a gene which is transcribed into mRNA, and is located at the 5' end of the mRNA, but which does not contain protein-coding sequence. The 5'-untranslated region is the portion of the DNA starting from the cap site and extending to the base just before the ATG translation initiation codon. While not itself translated, this region may have sequences, such as the ribosome binding site and Kozak sequence which determine the translation efficiency of the mRNA, or which may affect the stability of the mRNA.

3' end

Diagram of phosphodiester bonds (circled) between nucleotides

The 3' (pronounced "three prime") end of a strand is so named due to it terminating at the hydroxyl (-OH) group of the third carbon in the sugar-ring, and is known as the tail end. The 3'-hydroxyl is necessary in the synthesis of new nucleic acid molecules as it is ligated (joined) to the 5'-phosphate of a separate nucleotide, allowing the formation of strands of linked nucleotides.

Molecular biologists can use nucleotides that lack a 3'-hydroxyl (dideoxyribonucleotides) to interrupt the replication of DNA. This technique is known as both the dideoxy termination method and the Sanger method, and was used to determine the order of nucleotides in DNA.

The 3' end is also the site of post-translational polyadenylation, which attaches a chain of 50 to 250 adenosine residues to messenger RNA immediately after translation. This chain helps in determining how long the messenger RNA lasts in the cell, and therefore how much protein is produced from it.

The 3' flanking region is a region of DNA that is not copied into the mature mRNA, but which is present adjacent to 3' end of the gene. It was originally thought that the 3' flanking DNA was not transcribed at all, but it was discovered to be transcribed into RNA and quickly removed during processing of the primary transcript to form the mature mRNA. The 3' flanking region often contains sequences that affect the formation of the 3' end of the message. It may also contain enhancers or other sites to which proteins may bind.

The 3' untranslated region is a region of the DNA which IS transcribed into mRNA and becomes the 3' end or the message, but which does not contain protein coding sequence. Everything between the stop codon and the polyA tail is considered to be 3' untranslated (see Figure 4). The 3' untranslated region may affect the translation efficiency of the mRNA or the stability of the mRNA. It also has sequences which are required for the addition of the poly(A) tail to the message (including one known as the "hexanucleotide", AAUAAA).

References

  • Lodish et al., Molecular Cell Biology, 5th edn., 2004, W.H. Freeman and Company, New York. ISBN 0-7167-4366-3

External links

A Molecular Biology Glossaryit:Senso (biologia molecolare) ur:'3 سرا اور '5 سرا


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