He has certification as a secondary science educator in North Carolina. Direct link to PlaceboGirl's post They attach to amino acid, Posted 5 years ago. Water Transport & Absorption in Plants | What Is the Water Process in Plants? In addition, the A site is now empty and ready to receive the tRNA for the next codon. Output Strands. The amino acid serine is indicated by the 2 codons, AGU and AGC. Figure 1:A gene is expressed through the processes of transcription and translation. This rescue effect provided compelling evidence that the genetic code for one amino acid is indeed a three-base, or triplet, code. AUG is the codon for methionine, and is also the start codon. The tRNA in the A site (with the polypeptide chain) will shift to the P site, and the empty tRNA previously in the P site will shift to the E site (where it will exit the ribosome). Science 166, 16351637 (1969) doi:10.1126/science.166.3913.1635, Kozak, M. Point mutations close to the AUG initiator codon affect the efficiency of translation of rat preproinsulin in vivo. It is recommended that each line of sequence be no longer than 80 characters. What is a codon? Create your account. Direct link to Priyanka's post In the section, Reading F, Posted 5 years ago. Note also that the codon for the amino acid methionine (AUG) acts as the start signal for protein synthesis in an mRNA. Codons, anticodons, and wobble. DNA to mRNA to Protein Converter. And in that sense, although DNA gets discussed a lot more than RNA, mRNA is a really crucial piece of the fundamental way in which the living organism is created. Amino acids are hooked together by the ribosome to make the protein. Mutations (changes in DNA) that insert or delete one or two nucleotides can change the reading frame, causing an incorrect protein to be produced "downstream" of the mutation site: Illustration shows a frameshift mutation in which the reading frame is altered by the deletion of two amino acids. Thus, DNA codes for RNA, which codes for amino acids in proteins. Isn't that only true for prokaryotic cells? The molecular weight (mw) of an oligopeptide or a protein can be determined by summation of the mw of its corresponding amino acid sequence. Figure 4:The translation initiation complex. These tables are from pages 94-97 in your textbook and may be useful to have on-hand while working on worksheets 6.2 and 6.3. But between the DNA code itself, and the machinery that uses DNA to make proteins, there has to be a translator. This likely happened in an arbitrary manner very early in evolution and has been maintained every since. Direct link to Ivana - Science trainee's post Amino Acids either come f, Posted 6 years ago. Direct link to Rich B's post The third position refers, Posted 6 years ago. Translation is the process by which mRNAs are converted into protein products through the interactions of mRNA, tRNA, and rRNA. lessons in math, English, science, history, and more. [7] In the standard code, the sequence AUGread as methioninecan serve as a start codon and, along with sequences such as an initiation factor, initiates translation. Proteins tell cells what to do and determine one's traits. The ribosomal subunits contain proteins and specialized RNA moleculesspecifically, ribosomal RNA (rRNA) and transfer RNA (tRNA). Codons can also indicate a stop, or termination signal, but we'll get to that in a minute. Proteins are colored in blue, while strands of rRNA are colored in tan and orange. The mRNA goes through the Ribosomes, and the tRNA matches the mRNA codons to anti-codons, which makes a peptide chain or . copyright 2003-2023 Study.com. Enzymes called. Translation is the second step, and it's when organelles called ribosomes assemble the protein from amino acids lying around in the cytoplasm. Then, once translation is finished, the two pieces come apart again and can be reused. If we use codons instead of the individual bases as our units for the genetic code, then how many choices do we actually have? Transfer RNA serves as a link (or adaptor) between the messenger RNA (mRNA) molecule and the growing chain of amino acids that make up a protein. The genetic code is universal, which means that the nucleotide sequences that code for each amino acid are the same no matter what living organism the genetic code is used in. Direct link to S's post From my understanding, it, Posted 5 years ago. Nature 308, 241246 (1984) doi:10.1038308241a0 (link to article), ---. DNA and genes are found in the nucleus, messenger RNA (a special type of RNA, abbreviated mRNA) is copied from DNA in the nucleus in a process called transcription. The genetic code links groups of nucleotides in an mRNA to amino acids in a protein. Moreover, the genetic code also includes stop codons, which do not code for any amino acid. We convert the DNA message into the sequence of mRNA bases, then convert to tRNA bases and finally we show the amino acids. So we have DNA in our nuclei. The production of defective proteins under these circumstances can be attributed to misdirected translation. To make things easier in this lesson, we'll call the bases by their letters - A, G, C, and U. Contact Email: [email protected] . The codons are written 5' to 3', as they appear in the mRNA. I think people are still figuring out exactly how the process works in eukaryotes. The genetic code table shows all the possible codons in mRNA that can specify each amino acid. transfer RNA (tRNA), small molecule in cells that carries amino acids to organelles called ribosomes, where they are linked into proteins. You may be wondering: why on Earth would a cell "want" a complicating factor like wobble? T, Posted 5 years ago. Codons are made up of any triplet combination of the four nitrogenous bases adenine (A), guanine (G), cytosine (C), or uracil (U). DNA sequence: RNA ( r ibo n ucleic a cid. The job of the tRNA is to match the mRNA codon and bring an amino acid to the ribosome specific to the mRNA codon. Each gene has a specific order or sequence of 4 different nucleotides: adenine, guanine, cytosine, and thymine. Mutant proteins with two- or four-nucleotide insertions or deletions were also nonfunctional. The yellow molecule is messanger RNA (mRNA); it leaves the nucleus; at the ribosome, ribosomal RNA (rRNA) binds to mRNA; transfer RNA or tRNA (in green) can read the three letter code on mRNA or codon; each codon codes for one animo acid (red molecule attached to tRNA); the sequence of codons on the mRNA determines the sequence of amino acids in the protein, which in turn determines the . The A site is aligned with the next codon, which will be bound by the anticodon of the next incoming tRNA. mRNA is a chain of four types of nucleotides - which are the individual "letters" or "building blocks" of mRNA. Next, peptide bonds between the now-adjacent first and second amino acids are formed through a peptidyl transferase activity. Direct link to Pelekanos's post I have heard that the 3' , Posted 3 years ago. As previously noted, in bacteria, transcription and translation take place simultaneously, and mRNAs are relatively short-lived. The DNA that isn't being utilized is very tightly packaged, and contrarily, the DNA that is being utilized is unwound, so yes, in a sense, but your choice of words is slightly off DNA unwinds to be transcribed into RNA, which eventually makes its way to a ribosome, which then gets translated into protein. These eight random poly(AC) RNAs produced proteins containing only six amino acids: asparagine, glutamine, histidine, lysine, proline, and threonine. Figure 2: The amino acids specified by each mRNA codon. Decode from DNA to mRNA to tRNA to amino acids MooMooMath and Science 355K subscribers Subscribe 452K views 4 years ago Moomoomath Learn how to code from DNA to mRNA to tRNA to amino. As multiple codons can code for the same amino acid, the International Union of Pure and Applied Chemistry's (IUPAC) nucleic acid notation is given in some instances. The genetic code that gives us the correct order of ingredients is found in the mRNA that results from transcription. This process is repeated until all the codons in the mRNA have been read by tRNA molecules, and the amino acids attached to the tRNAs have been linked together in the growing polypeptide chain in the appropriate order. After being attached to tRNA, an amino acid is aligned on the mRNA template by complementary base pairing between the mRNA codon and the anticodon of the tRNA. Direct link to kaylabarry0701's post What does it mean when tR, Posted 3 years ago. Direct link to cwdean592's post would it be possible to u, Posted 3 years ago. So really, when we think about the process in which an amino acid is constructed, the DNA, of course, is the code. For now, just keep in mind that the ribosome has three slots for tRNAs: the A site, P site, and E site. The tRNA for phenylalanine has an anticodon of 3'-AA. Model of the small and large subunits of the ribosome. For example, the mutagen proflavine causes frameshift mutations by inserting itself between DNA bases. | Sympatric Speciation: Examples, Cytoplasmic & Mitochondrial Inheritance | Types, Examples & Impacts, Expected Value Formula, Probability & Examples | How to Find Expected Value. So, what is the purpose of the UTR? In the section, Reading Frame, frameshift mutations are mentioned. Nature 254, 3438 (1975) doi:10.1038/254034a0 (link to article), Genetically Modified Organisms (GMOs): Transgenic Cropsand Recombinant DNA Technology, Recombinant DNA Technology and Transgenic Animals, The Biotechnology Revolution: PCR and the Use of Reverse Transcriptase to Clone Expressed Genes, DNA Damage & Repair: Mechanisms for Maintaining DNA Integrity, Major Molecular Events of DNA Replication, Semi-Conservative DNA Replication: Meselson and Stahl, Barbara McClintock and the Discovery of Jumping Genes (Transposons), Functions and Utility of Alu Jumping Genes. The cell would then turn this mRNA into a viral protein. These researchers had the insight to employ chemically synthesized RNA molecules of known repeating sequences rather than random sequences. If you're behind a web filter, please make sure that the domains *.kastatic.org and *.kasandbox.org are unblocked. Can someone confirm if this is true or not? The idea behind mRNA vaccines, like the kind developed by Moderna and Pfizer for COVID-19, is to insert an mRNA from the virus into a cell. The start codon AUG codes for methionine and signals translation to begin. How does the cell convert DNA into working proteins? Redundancy in the genetic code means that most amino acids are specified by more than one mRNA codon. ExPASy - Translate tool Translate is a tool which allows the translation of a nucleotide (DNA/RNA) sequence to a protein sequence. It's sort of like a dictionary for the genetic code. The third position refers to the third letter of the codon, reading from left to right (5' - 3' direction). You have authorized LearnCasting of your reading list in Scitable. Peptide bond formation will transfer the amino acid of the first tRNA (Met) to the amino acid of the second tRNA (in this case, Trp). Ribosomal RNA helps to form the ribosomes, which attach to the mRNA in the cytoplasm in the process called translation. Occasionally, an aminoacyl-tRNA synthetase makes a mistake: it binds to the wrong amino acid (one that "looks similar" to its correct target). or there is something wrong with the example on reading the codon table, because CAG codes for Gln, not Glu. During transcription, the DNA of a gene serves as a template for complementary base-pairing, and an enzyme called RNA polymerase II catalyzes the formation of a pre-mRNA molecule, which is then processed to form mature mRNA (Figure 1). Structure and roles of transfer RNAs and ribosomes. Dr. Fisher has taught laboratories and courses in Biology, Chemistry, Genetics, Forensics, Biochemistry, and Plant Physiology. Given the right mRNA and the right protein, however, it . Direct link to arvintvk's post You have mentioned that t, Posted 6 years ago. The mRNA sequence is thus used as a template to assemblein orderthe chain of amino acids that form a protein. In the table, M represents methionine, A represents alanine, K represents lysine, S represents serine, and T represents threonine. So, there are 6 different ways that the mRNA code can indicate that leucine be incorporated into a polypeptide chain. Frameshift mutations are much more disruptive to the genetic code than simple base substitutions, because they involve a base insertion or deletion, thus changing the number of bases and their positions in a gene. Each tRNA contains a set of three nucleotides called an anticodon. Morse code uses combinations of short and long tones, or lights, to code for all the letters of the alphabet. Preliminary evidence indicating that the genetic code was indeed a triplet code came from an experiment by Francis Crick and Sydney Brenner (1961). [16][17] For example, in 1981, it was discovered that the use of codons AUA, UGA, AGA and AGG by the coding system in mammalian mitochondria differed from the universal code. In the diagram, the A, P, and E sites appear in A-P-E order from right to left. However, it is now agreed that the genetic code evolves,[17] resulting in discrepancies in how a codon is translated depending on the genetic source. A codon is a DNA or RNA sequence of three nucleotides (a trinucleotide) that forms a unit of genetic information encoding a particular amino acid. Do you want to LearnCast this session? Crick and Brenner showed that proflavine-mutated bacteriophages (viruses that infect bacteria) with single-base insertion or deletion mutations did not produce functional copies of the protein encoded by the mutated gene. Direct link to Daltara Darana's post It is coded by DNA, then , Posted 6 years ago. Translates DNA or mRNA to the other and a Protein strand (amino acids). Direct link to dhackos's post No one knows exactly why , Posted 3 years ago. Direct link to Ivana - Science trainee's post You are correct. The genes in DNA encode protein molecules, which are the "workhorses" of the cell, carrying out all the functions necessary for life. Twenty-three of these chromosomes come from the father and the rest from the mother. Tran, Posted 3 years ago. We already know that DNA is split up into sections called genes. VII", "Synthetic polynucleotides and the amino acid code. Table 1 shows the N-terminal sequences of proteins in prokaryotes and eukaryotes, based on a sample of 170 prokaryotic and 120 eukaryotic proteins (Flinta et al., 1986). Each codon always codes for its specific amino acid according to the genetic code table. would it be possible to use the "coding language" of RNA to synthesize chemicals? [See a spinning animation of the large subunit], https://biology.stackexchange.com/questions/40964/how-much-nucleoside-triphosphate-is-required-to-form-one-peptide-bond-during-pro, https://en.wikipedia.org/wiki/Eukaryotic_translation. These codons are UAA, UAG, and UGA. From my understanding, it won't apply to the start codon, AUG, because there is only one possible codon available. Hi, where does the Amino Acid comes from? [4] In this context, the standard genetic code is referred to as translation table 1. Direct link to Priyanka's post So, a tRNA is is L shaped, Posted 5 years ago. So, with the 4 bases we have on the mRNA strand, why not use combinations to code for all 20 amino acids? An anticodon is a trinucleotide sequence located at one end of a transfer RNA (tRNA) molecule, which is complementary to a corresponding codon in a messenger RNA (mRNA) sequence. A type of RNA called transfer RNA (tRNA) assembles the protein, one amino acid at a time. The ribosome will then move along the mRNA template by one codon. We'll need 20 amino acids, but we only have 4 different nucleotide bases. In bacteria, this site is known as the Shine-Dalgarno box (AGGAGG), after scientists John Shine and Lynn Dalgarno, who first characterized it. Chapeville, F., et al. Mutations are caused by mutagens: mutation causing agents, including radiation, viruses, chemicals and more. Therefore, an entire RNA sequence copied from a gene can contain the order and plan for the numerous amino acids in a protein. Also in the genetic code table is a nearly universal start codon, which is found at the beginning of every gene. Don't forget the central dogma: DNA->RNA->protein, that middle molecule is essential. The P (polypeptide) site is the location at which the amino acid is transferred from its tRNA to the growing polypeptide chain. The other end of the tRNA carries the amino acid methionine (Met), which is the the amino acid specified by the mRNA codon AUG. DNA or RNA sequence Output format Verbose: Met, Stop, spaces between residues Compact: M, -, no spaces Includes nucleotide sequence Includes nucleotide sequence, no spaces DNA strands forward reverse These amino acids are bound to each other by peptide bonds forming a polypeptide. Codon recognition by enzymatically mischarged valine transfer ribonucleic acid. Within all cells, the translation machinery resides within a specialized organelle called the ribosome. Do you want to LearnCast this session? Here, well take a closer look at ribosomes and tRNAs. Codon Recognition: How tRNA and Anticodons Interpret the Genetic Code, The Role of Ribosomes and Peptide Bonds in Genetic Translation, Translation of mRNA to Protein: Initiation, Elongation & Termination Steps, Prentice Hall Biology: Online Textbook Help, High School Physics: Homeschool Curriculum, Physical Science for Teachers: Professional Development, Gerontology for Teachers: Professional Development, Nutritional Science for Teachers: Professional Development, Intro to Physics for Teachers: Professional Development, Pathophysiology for Teachers: Professional Development, The Genetic Code: Influence of Mitosis, Meiosis & Crossing Over, Strategies for Coping with Unhealthy Family Behavior, Avoiding & Responding to Unsafe Situations & Behavior, Managing Risk to Enhance & Maintain Your Health, Types of Healthcare Professionals & Delivery Systems, Consumer Health: Laws, Regulations & Agencies, The Role of School Health Advisory Councils in Texas, Teaching Sensitive or Controversial Health Issues, Working Scholars Bringing Tuition-Free College to the Community, Explain the function of codons in translation, Identify the start codon, stop codons and other codons on the RNA codon chart. Translation of the artificial GUGU mRNA yielded a protein of alternating cysteine and valine residues. I would definitely recommend Study.com to my colleagues. The genetic code was once believed to be universal:[16] a codon would code for the same amino acid regardless of the organism or source. Note that both possibilities occur in the code. (Definition) A codon is a sequence of 3 molecules/nucleotides describing an amino acid in the sequencing of DNA or messenger RNA (mRNA) or transfert (tRNA). How small "in frame" indels (insertions and deletions) are dealt with depends on many factors including where in the gene the indel happens so the short answer is "it depends". So you are somewhat correct, just your word choice is off. The one the tRNA transports. Codons in an mRNA are read during translation, beginning with a start codon and continuing until a stop codon is reached. DNA keeps the nucleotide sequence in each gene, which can direct the body to make each amino acid in a protein, using the RNA molecule to carry the codon to where amino acids are put together. They showed that a short mRNA sequenceeven a single codon (three bases)could still bind to a ribosome, even if this short sequence was incapable of directing protein synthesis. how many alleles are expressed when a b cell carrying two alleles encode immunoglobulin heavy and light chains. During translation, the two subunits come together around a mRNA molecule, forming a complete ribosome. Well, there are 4 bases, in sets of 3, so we can get 64 different codons. Are Glutamate (Glu) and Glutamine (Gln) interchangeable? European Journal of Biochemistry 154, 193196 (1986), Grunberger, D., et al. Remember that previous experiments had already revealed that CCC and AAA code for proline and lysine, respectively. You can think of it as a kind of molecular "bridge" between the two. A set of three nucleotides called a codon carries the information to make one subunit of a protein, an amino acid. | 23 The ribosome is composed of a small and large subunit. To do this, they used the enzyme polynucleotide phosphorylase, which randomly joins together any RNA nucleotides that it finds. and B.A., respectively, in Horticulture and Business from North Carolina State University. I always like to imagine how cool it would have been to be one of the people who discovered the basic molecular code of life. Next, Nirenberg and Philip Leder developed a technique using ribosome-bound transfer RNAs (tRNAs). The cool thing about how genes work is that they, like DNA, are made up of repeating units called nucleotides, making up the structure of the two strands of DNA. In fact, it's more than enough. The mRNA below can encode three totally different proteins, depending on the frame in which it's read: The start codon's position ensures that Frame 3 is chosen for translation of the mRNA. Interestingly, not all regions of an mRNA molecule correspond to particular amino acids. Think of this chart like the pantry in your kitchen. I feel like its a lifeline. messenger RNA (mRNA), molecule in cells that carries codes from the DNA in the nucleus to the sites of protein synthesis in the cytoplasm (the ribosomes). In Translation, you don't convert mRNA into tRNA. While amino acids are produced in most organisms by special enzymes, each amino acid has a carrier, which is it transfer RNA (tRNA). Direct link to yellowboi172's post Mutations are caused by m. Whether it is , Posted 6 years ago. If you look at the codons for an amino acid such as Leucine; CUU,CUC,CUA,CUG, there are multiple options available and the third letter varies, but all four codons code for Leucine. The amino acid is specific to the sequence of the RNA. It works in all living things. The genetic code is a sequence of 3 nucleotides originating in the DNA sequence of a gene. A similar site in vertebrates was characterized by Marilyn Kozak and is thus known as the Kozak box. It was also known that there are only four nucleotides in mRNA: adenine (A), uracil (U), guanine (G), and cytosine (C). You are correct, this article deals with prokaryotic translation. Each poly(U) RNA thus contained a pure series of UUU codons, assuming a triplet code. DNA OR mRNA. A particular triplet codon in an mRNA is read by a tRNA through its aniticodon loop, which . The amino acid alanine gets 4 different codons, and the amino acid leucine gets 4 - no, 6 codons! For now, just think of codons as the basic unit for the genetic code. All rights reserved. Illustration of the molecules involved in protein translation. Finally, the E (exit) site is the location at which the "empty" tRNA sits before being released back into the cytoplasm to bind another amino acid and repeat the process. Notice that Proline is coded for by two different codons, an example of the genetic code redundancy. Direct link to Arki's post Why is `AUG` a start codo, Posted 5 years ago. However, if you have some time, it's definitely interesting reading. The idea that tRNA was an adaptor molecule was first proposed by Francis Crick, co-discoverer of DNA structure, who did much of the key work in deciphering the genetic code (Crick, 1958). A nitrogenous base, a sugar, and phosphate make up nucleotides. The genetic code is unambiguous. Direct link to Dana Alkudsi's post So the genetic code is th, Posted 4 years ago. Just one correction. For example, the amino acid phenylalanine (Phe) is specified by the codons UUU and UUC, and . Molecules of tRNAbring amino acids to the ribosome in the correct sequence. Once the initiation complex is formed on the mRNA, the large ribosomal subunit binds to this complex, which causes the release of IFs (initiation factors). But really, the tRNA is that very, very important person in the kitchen that goes and fetches the specific amino acids that are needed as a protein gets constructed according to the code of DNA. Point mutations define a sequence flanking the AUG initiator codon that modulates translation by eukaryotic ribosomes. Talking Glossary of Genomic and Genetic Terms. Wellnot always. A T. G C. Convert Clear. How could we use these letters to code for the amino acids - the ingredients - in our protein recipe? Wow, that's a lot of amino acids! The chef, themselves, is the ribosomal machinery that's actually creating the meal. Proceedings of the National Academy of Sciences 48, 10861092 (1962), Crick, F. On protein synthesis. Of the 20 tubes, 19 failed to yield a radioactive polypeptide product. Proteins are things that make cells along with the body do their work. No tRNAs recognize these codons. You might find this exercise helpful to get a feel for how that works: What is meant by the third position in reference to the 'wobble binding' of tRNA? For each, they determined whether the aminoacyl-tRNA was bound to the short mRNA-like sequence and ribosome (the rest passed through the filter), providing conclusive demonstrations of the particular aminoacyl-tRNA that bound to each mRNA codon. Understand what a codon is and how it relates to an amino acid. mRNA is a single strand of nucleotide bases - an ordered combination of adenine, guanine, cytosine, and uracil. tRNAs move through these sites (from A to P to E) as they deliver amino acids during translation. The mRNA carries the codon sequences to the ribosome in the cytoplasm where translation takes place. These poly(U) RNAs were added to 20 tubes containing components for protein synthesis (ribosomes, activating enzymes, tRNAs, and other factors). If a protein is the final product, and genes are the recipes, then amino acids are like the ingredients. Figure 2:The amino acids specified by each mRNA codon. A DNA sequence of GAC-GGT-GGC-ATC in a gene in the nucleus undergoes transcription to make an mRNA sequence of CUG-CCA-CCG-UAG. You have mentioned that the two subunits (both) come together for initiation. This is the central dogma of molecular biology. DNA: mRNA: Protein: Go to Top. A new tRNA (in this case, one bearing Phe) will bind to the newly exposed codon in the A site, and the process can then repeat. [1][2] The standard genetic code is traditionally represented as an RNA codon table, because when proteins are made in a cell by ribosomes, it is messenger RNA (mRNA) that directs protein synthesis. However, at the time when this decoding project was conducted, researchers did not yet have the benefit of modern sequencing techniques. Let's take a look at how many amino acids we'll need. Direct link to mkussee's post What happens to tRNA mole, Posted 5 years ago. The complex then binds the mRNA transcript, so that the tRNA and the small ribosomal subunit bind the mRNA simultaneously. By John Brennan. Does it come from the Lysosome? Genetic code table. Genes in DNA are like coded recipes for proteins. Each sequence of three nucleotides, called a codon, usually codes for one particular amino acid. mRNA codons are read from 5' to 3' , and they specify the order of amino acids in a protein from N-terminus (methionine) to C-terminus. Thus, a triplet code introduces the problem of there being more than three times the number of codons than amino acids. All of the codons can be summarized into the genetic code table. The large subunit contains the active site where peptide bond formation is catalyzed. Each time an amino acid is added to the chain, a specific tRNA pairs with its complementary sequence on the mRNA molecule, ensuring that the appropriate amino acid is inserted into the protein being synthesized. Translation occurs when the codon on the mRNA is matched to transfer RNA (another type of RNA, abbreviated tRNA). Peptide Bond Types & Formation | Bonds Between Amino Acids, Codominance & Incomplete Dominance | Biology, Genotype & Traits, Codon in Genetics | What is a Codon? You can't begin making a protein molecule until you have all the amino acids that are required in that chain. A ribosome is made up of two basic pieces: a large and a small subunit. Crick, F. H., et al. Thus, in the place of these tRNAs, one of several proteins, called release factors, binds and facilitates release of the mRNA from the ribosome and subsequent dissociation of the ribosome. Transfer ribonucleic acid (tRNA) is a type of RNA molecule that helps decode a messenger RNA (mRNA) sequence into a protein. Enrolling in a course lets you earn progress by passing quizzes and exams. Nirenberg and Matthaei began with the simplest codes possible. Because translation begins at the start codon and continues in successive groups of three, the position of the start codon ensures that the mRNA is read in the correct frame (in the example above, in Frame 3). But, of course, they're so busy and so involved that they need someone to bring them the appropriate ingredients so that they can cook up their fabulous meal.
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