Start codon

The start codon is the first codon of a messenger RNA (mRNA) transcript translated by a ribosome. The start codon always codes for methionine in eukaryotes and Archaea and a N-formylmethionine (fMet) in bacteria, mitochondria and plastids. The most common start codon is AUG (i.e., ATG in the corresponding DNA sequence).

Start codon (blue circle) of the human mitochondrial DNA MT-ATP6 gene. For each nucleotide triplet (square brackets), the corresponding amino acid is given (one-letter code), either in the +1 reading frame for MT-ATP8 (in red) or in the +3 frame for MT-ATP6 (in blue). In this genomic region, the two genes overlap.

The start codon is often preceded by a 5' untranslated region (5' UTR). In prokaryotes this includes the ribosome binding site.

Alternative start codonsEdit

Alternative start codons are different from the standard AUG codon and are found in both prokaryotes (bacteria and archaea) and eukaryotes. Alternate start codons are still translated as Met when they are at the start of a protein (even if the codon encodes a different amino acid otherwise). This is because a separate transfer RNA (tRNA) is used for initiation.^[1]

EukaryotesEdit

Alternate start codons (non-AUG) are very rare in eukaryotic genomes. However, naturally occurring non-AUG start codons have been reported for some cellular mRNAs.^[2] Seven out of the nine possible single-nucleotide substitutions at the AUG start codon of dihydrofolate reductase were functional as translation start sites in mammalian cells.^[3] In addition to the canonical Met-tRNA Met and AUG codon pathway, mammalian cells can initiate translation with leucine using a specific leucyl-tRNA that decodes the codon CUG.^[4]^[5]

Candida albicans uses a CAG start codon.^[6]

ProkaryotesEdit

Prokaryotes use alternate start codons significantly, mainly GUG and UUG.^[7]

E. coli uses 83% AUG (3542/4284), 14% (612) GUG, 3% (103) UUG^[8] and one or two others (e.g., an AUU and possibly a CUG).^[9]^[10]

Well-known coding regions that do not have AUG initiation codons are those of lacI (GUG)^[11]^[12] and lacA (UUG)^[13] in the E. coli lac operon. Two more recent studies have independently shown that 17 or more non-AUG start codons may initiate translation in E. coli.^[14]^[15]

MitochondriaEdit

Mitochondrial genomes use alternate start codons more significantly (AUA and AUU in humans).^[7] Many such examples, with codons, systematic range, and citations, are given in the NCBI list of translation tables.^[16]

Standard genetic codeEdit

Amino-acid biochemical properties	Nonpolar	Polar	Basic	Acidic		Termination: stop codon

Standard genetic code
1st base	2nd base								3rd base
1st base	U		C		A		G		3rd base
U	UUU	(Phe/F) Phenylalanine	UCU	(Ser/S) Serine	UAU	(Tyr/Y) Tyrosine	UGU	(Cys/C) Cysteine	U
	UUC	(Phe/F) Phenylalanine	UCC		UAC	(Tyr/Y) Tyrosine	UGC	(Cys/C) Cysteine	C
	UUA	(Leu/L) Leucine	UCA		UAA	Stop (Ochre)^[B]	UGA	Stop (Opal)^[B]	A
	UUG^[A]		UCG		UAG	Stop (Amber)^[B]	UGG	(Trp/W) Tryptophan	G
C	CUU		CCU	(Pro/P) Proline	CAU	(His/H) Histidine	CGU	(Arg/R) Arginine	U
	CUC		CCC		CAC	(His/H) Histidine	CGC		C
	CUA		CCA		CAA	(Gln/Q) Glutamine	CGA		A
	CUG^[A]		CCG		CAG	(Gln/Q) Glutamine	CGG		G
A	AUU	(Ile/I) Isoleucine	ACU	(Thr/T) Threonine	AAU	(Asn/N) Asparagine	AGU	(Ser/S) Serine	U
	AUC		ACC		AAC	(Asn/N) Asparagine	AGC	(Ser/S) Serine	C
	AUA		ACA		AAA	(Lys/K) Lysine	AGA	(Arg/R) Arginine	A
	AUG^[A]	(Met/M) Methionine	ACG		AAG	(Lys/K) Lysine	AGG	(Arg/R) Arginine	G
G	GUU	(Val/V) Valine	GCU	(Ala/A) Alanine	GAU	(Asp/D) Aspartic acid	GGU	(Gly/G) Glycine	U
	GUC		GCC		GAC	(Asp/D) Aspartic acid	GGC		C
	GUA		GCA		GAA	(Glu/E) Glutamic acid	GGA		A
	GUG		GCG		GAG	(Glu/E) Glutamic acid	GGG		G

^A The codon AUG both codes for methionine and serves as an initiation site: the first AUG in an mRNA's coding region is where translation into protein begins.^[17] The other start codons listed by GenBank are rare in eukaryotes and generally codes for Met/fMet.^[18]

^B ^{^} ^{^} ^{^} The historical basis for designating the stop codons as amber, ochre and opal is described in an autobiography by Sydney Brenner^[19] and in a historical article by Bob Edgar.^[20]

Engineered start codonsEdit

Engineered initiator tRNAs (tRNA^fMet2 with CUA anticodon) have been used to initiate translation at the amber stop codon UAG.^[21] This type of engineered tRNA is called a nonsense suppressor tRNA because it suppresses the translation stop signal that normally occurs at UAG codons. One study has shown that the amber initiator tRNA does not initiate translation to any measurable degree from genomically-encoded UAG codons, only plasmid-borne reporters with strong upstream Shine-Dalgarno sites.^[22]

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Metasyntactic variable, which is released under the
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