AUG - that is the start codon
Stop codons are UAG, UAA UGA
Good luck!
Anti-codons are found on the t [transfer] -Rna's, as well as in all [nuclear] transcription and translation events.
Translation is the process of "reading" the bases of mRNA - in respect of Triplet-Codons - and converting these into the [amino acid] primary structure of a protein.
There are stop codons that signal the cell to stop translation. It includes UAA, UAG, UGA (Ochre, Ambel, Oper)...Because these stop codons do not code for any amino acids....
Three.
The answer is "Non-sense" codons
No it can not. it makes RNA and send them to cytoplasm for the protein translation. Ribosomes bind to RNA codons and produce the polypeptide chains.
The start and stop codons signify the start and end of a protein - they are important for ensuring that the correct protein length (and therefore protein structure) is created.
Translation is the process of "reading" the bases of mRNA - in respect of Triplet-Codons - and converting these into the [amino acid] primary structure of a protein.
Anti-codons are found on the t [transfer] -Rna's, as well as in all [nuclear] transcription and translation events.
There are stop codons that signal the cell to stop translation. It includes UAA, UAG, UGA (Ochre, Ambel, Oper)...Because these stop codons do not code for any amino acids....
The answer is "Non-sense" codons
Three.
Ribosomal ribonucleic (rRNA) is RNA that forms part of ribosomes. rRNA plays a role in translation, in which mRNA's codons and tRNA's anticodons are used to build a protein.
61 codons specify the amino acids used in proteins and 3 codons (stop codons) signal termination of growth of the polypeptide chain...so 64 total
I think you are referring to translation - translation is the process of replicating the DNA sequence in order to produce a code for the production of a particular protein, known as an mRNA strand. This code is read in sequences of three bases known as codons. The beginning and end of the mRNA strand is determined by start and stop codons. Start codons, unlike stop codons, also need nearby sequences and initiation factors in order to begin translation. Start codons include base sequences of usually AUG or possibly GUG or UUG depending on the organism. There are three stop codons and these are UAG, UGA and UAA
Translation ends when a stop codon is reached. The stop codons are:UAAUAGUGA
No, not every codon represents an amino acid. There are several codons known as "stop" codons (UGA, UAA, UAG) that do not code for an amino acid; instead they code for the termination of translation.