exon

American Heritage Dictionary:

ex·on

(ĕk'sŏn)

n.
A sequence of DNA that codes information for protein synthesis that is transcribed to messenger RNA.

[ex(pressed) + -ON¹.]

exonic ex·on'ic adj.

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Exon

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In split genes, a portion that is included in the ribonucleic acid (RNA) transcript of a gene and survives processing of the RNA in the cell nucleus to become part of a spliced messenger RNA (mRNA) or structural RNA in the cell cytoplasm. Split genes are those in which regions that are represented in mature mRNAs or structural RNAs (exons) are separated by regions that are transcribed along with exons in the primary RNA products of genes, but are removed from within the primary RNA molecule during RNA processing steps (introns). See also Intron; Ribonucleic acid (RNA).

Exons comprise three distinct regions of a protein-coding gene. The first is a portion that is not translated into protein, but contains the signal for the beginning of RNA synthesis, and sequences that direct the mRNA to ribosomes for protein synthesis. The second is a set of exons containing information that is translated into the amino acid sequence of a protein. The third region of a gene that becomes part of an mRNA is an untranslated end portion that contains signals for transcription termination and for the addition of a polyadenylate tract at the end of a transcript.

The mechanism by which the exons are joined in RNA copies of genes is called RNA splicing, and it is part of the maturation of mRNAs and some transfer and ribosomal RNAs (tRNAs and rRNAs) from primary transcripts of genes. Three different RNA splicing processes have been identified. One involves mRNA precursors in nuclei, and specific sequences at exon-intron junctions that are recognized by certain nuclear ribonucleoprotein particles that facilitate the cleavage and ligation of RNA. Another applies to nuclear precursors of tRNA, where splice sites are determined by structural features of the folded RNA molecules. The third form of splicing was discovered in studies of protozoan rRNA synthesis, and has also been shown to be a part of the maturation of both rRNA and mRNA in yeast mitochondria; it is an autocatalytic process that requires neither an enzyme nor added energy such as from adenosine triphosphate. See also Gene; Genetic code; Protein; Ribosomes.

Biology Q&A:

What is an exon?

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An exon is a segment of the transcript that is tied together with other exons by the spliceosome to make the mRNA molecule. After the exons are spliced together, they exit the nucleus for the cytoplasm, where the mRNA is translated into a polypeptide.

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Dictionary of Cultural Literacy: Science:

exon

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Stretches of DNA in genes that code for proteins. In eukaryotes, exons in a given gene are generally separated from each other by stretches of DNA that do not contain instructions for constructing proteins. (Compare intron.)

Oxford Dictionary of Biochemistry:

exon

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any coding or messenger sequence of deoxynucleotides; i.e. any intragenic region of DNA in eukaryotes that will be expressed in (mature) mRNA or rRNA residues. An arrangement of exons alternating with introns constitutes a transcriptional unit.
—exonic adj.

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Saunders Veterinary Dictionary:

exon

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Regions of a primary RNA transcript in eukaryotic cells that are coding and are joined together when introns are spliced-out, to make the functional mRNA.

Random House Word Menu:

categories related to 'exon'

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Random House Word Menu by Stephen Glazier

For a list of words related to exon, see:

Genetics, Heredity, and Evolution - exon: section of DNA that contains information that codes for protein product of gene

Rhymes:

exon

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See words rhyming with "exon."

Wikipedia on Answers.com:

Exon

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Not to be confused with axon, the projection of a neuron, or Exxon, a brand of fuel sold by ExxonMobil.

For other uses, see Exon (disambiguation).

An exon is a nucleic acid sequence that is represented in the mature form of an RNA molecule either after portions of a precursor RNA (introns) have been removed by cis-splicing or when two or more precursor RNA molecules have been ligated by trans-splicing. The mature RNA molecule can be a messenger RNA or a functional form of a non-coding RNA such as rRNA or tRNA. Depending on the context, exon can refer to the sequence in the DNA or its RNA transcript.

Contents

1 History
- 1.1 Function
2 Experimental approaches that utilize exons
3 See also
4 References
5 General references
6 External links

History

The term exon derives from expressed region and was coined by American biochemist Walter Gilbert in 1978: "The notion of the cistron… must be replaced by that of a transcription unit containing regions which will be lost from the mature messenger – which I suggest we call introns (for intragenic regions) – alternating with regions which will be expressed – exons."^[1]

This definition was originally made for protein-coding transcripts that are spliced before being translated. The term later came to include sequences removed from rRNA^[2] and tRNA,^[3] and it also was used later for RNA molecules originating from different parts of the genome that are then ligated by trans-splicing.^[4]

Function

In many genes, each of the exons contain part of the open reading frame (ORF) that codes for a specific portion of the complete protein. However, the term exon is often misused to refer only to coding sequences for the final protein. This is incorrect, since many noncoding exons are known in human genes (Zhang 1998).

To the right is a diagram of a heterogeneous nuclear RNA (hnRNA), which is an unedited mRNA transcript, or pre-mRNAs. Exons can include both sequences that code for amino acids (red) and untranslated sequences (grey). Stretches of unused sequence called introns (blue) are removed, and the exons are joined together to form the final functional mRNA. The notation 5' and 3' refer to the direction of the DNA template in the chromosome and is used to distinguish between the two untranslated regions (grey).

Some of the exons will be wholly or part of the 5' untranslated region (5' UTR) or the 3' untranslated region (3' UTR) of each transcript. The untranslated regions are important for efficient translation of the transcript and for controlling the rate of translation and half-life of the transcript. Furthermore, transcripts made from the same gene may not have the same exon structure, since parts of the mRNA could be removed by the process of alternative splicing. Some mRNA transcripts have exons with no ORFs and, thus, are sometimes referred to as non-coding RNA.

Exonization is the creation of a new exon, as result of mutations in intronic sequences.^[5]

Polycistronic messages have multiple ORFs in one transcript and also have small regions of untranslated sequence between each ORF.

Experimental approaches that utilize exons

Exon trapping or 'gene trapping' is a molecular biology technique that exploits the existence of the intron-exon splicing to find new genes. The first exon of a 'trapped' gene splices into the exon that is contained in the insertional DNA. This new exon contains the ORF for a reporter gene that can now be expressed using the enhancers that control the target gene. A scientist knows that a new gene has been trapped when the reporter gene is expressed.

Splicing can be experimentally modified so that targeted exons are excluded from mature mRNA transcripts by blocking the access of splice-directing small nuclear ribonucleoprotein particles (snRNPs) to pre-mRNA using Morpholino antisense oligos.^[6] This has become a standard technique in developmental biology. Morpholino oligos can also be targeted to prevent molecules that regulate splicing (e.g. splice enhancers, splice suppressors) from binding to pre-mRNA, altering patterns of splicing.

References

^ Gilbert W (February 1978). "Why genes in pieces?". Nature 271 (5645): 501. doi:10.1038/271501a0. PMID 622185.
^ Kister KP, Eckert WA (March 1987). "Characterization of an authentic intermediate in the self-splicing process of ribosomal precursor RNA in macronuclei of Tetrahymena thermophila". Nucleic Acids Research 15 (5): 1905–20. doi:10.1093/nar/15.5.1905. PMC 340607. PMID 3645543. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=340607.
^ Valenzuela P, Venegas A, Weinberg F, Bishop R, Rutter WJ (January 1978). "Structure of yeast phenylalanine-tRNA genes: an intervening DNA segment within the region coding for the tRNA". Proceedings of the National Academy of Sciences of the United States of America 75 (1): 190–4. doi:10.1073/pnas.75.1.190. PMC 411211. PMID 343104. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=411211.
^ Liu AY, Van der Ploeg LH, Rijsewijk FA, Borst P (June 1983). "The transposition unit of variant surface glycoprotein gene 118 of Trypanosoma brucei. Presence of repeated elements at its border and absence of promoter-associated sequences". Journal of Molecular Biology 167 (1): 57–75. doi:10.1016/S0022-2836(83)80034-5. PMID 6306255.
^ Sorek R (October 2007). "The birth of new exons: mechanisms and evolutionary consequences". RNA 13 (10): 1603–8. doi:10.1261/rna.682507. PMC 1986822. PMID 17709368. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=1986822.
^ Morcos PA (June 2007). "Achieving targeted and quantifiable alteration of mRNA splicing with Morpholino oligos". Biochemical and Biophysical Research Communications 358 (2): 521–7. doi:10.1016/j.bbrc.2007.04.172. PMID 17493584.

General references

Gilbert W (February 1978). "Why genes in pieces?". Nature 271 (5645): 501. doi:10.1038/271501a0. PMID 622185.
Zhang MQ (May 1998). "Statistical features of human exons and their flanking regions". Human Molecular Genetics 7 (5): 919–32. doi:10.1093/hmg/7.5.919. PMID 9536098.
Thanaraj TA, Robinson AJ (November 2000). "Prediction of exact boundaries of exons". Brief Bioinform. 1 (4): 343–56. doi:10.1093/bib/1.4.343. PMID 11465052.

External links

Look up exon in Wiktionary, the free dictionary.

Exon-intron graphic maker

v d e Post-transcriptional modification

Nuclear	Precursor mRNA · 5' cap formation · Polyadenylation (CPSF, CstF, PAP, PAB2, CFI, CFII) · Poly(A)-binding protein RNA splicing: intron/exon · snRNP · spliceosome (minor spliceosome, U1) · alternative splicing · pre-mRNA processing factor (PLRG1, PRPF3, PRPF4, PRPF4B, PRPF6, PRPF8, PRPF18, PRPF19, PRPF31, PRPF38A, PRPF38B, PRPF39, PRPF40A, PRPF40B) RNA editing · Polyuridylation

Cytosolic	5' cap methylation Messenger RNA decapping: DCP1A · DCP1B · DCP2 · DCPS · EDC3 · EDC4

see also disorders of transcription and post transcriptional modification B bsyn: dna (repl, cycl, reco, repr) · tscr (fact, tcrg, nucl, rnat, rept, ptts) · tltn (risu, pttl, nexn) · dnab, rnab/runp · stru (domn, 1°, 2°, 3°, 4°)

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