Ribosomal RNA (rRNA)
Those are not DNA or RNA codons.
From Gene in the Chromosome you get a copy of gene in the form of messenger RNA. It goes to Ribosomes, with it'sparticularsequence of 3 base pairs each called Codons. Each Codon denotesparticular Amine acid only and 'not' other. There Messenger RNA may have sequences of codons from about 40 to 4000 inparticularsequence. Many number of Ribosomes making many copies of Proteins at a time. Many tRNA or Transfer RNA brings with them stock of amine acids. tRNA or Transfer RNA is short as compared to messenger RNA.(About 80 Nucleotide long.) But then 'many' tRNA or Transfer RNA come inresponseto Messenger RNA. These Transfer RNA translate codons fromMessengerRNA as Anti-codons and detects theparticularAmine acid to be attached to Ribosomes.So according to the order of Messenger RNA, Amine acids are put in position one by one to 'many' Ribosomes and 'many' copies of Proteins are formed at a time. Even if a single Amine acid is short, then the 'entire' chain is broken down and used for 'energy' purpose.
Codons in the RNA.
Transfer RNA, or tRNA.
Messenger RNA, or mRNA contains the codons. tRNA (transfer RNA) contains the anti-codons which bond to the codons of the mRNA. Amino acids are attached to the tRNA and form polypeptides based on the codons on the mRNA.
Codons are found on messenger RNA, while anticodons are found on transfer RNA
Messenger RNA (mRNA). Transfer RNA (tRNA) contains anti-codons.
Among many things an RNA primer for DNA replication.
Ribosomal RNA (rRNA)
Those are not DNA or RNA codons.
From Gene in the Chromosome you get a copy of gene in the form of messenger RNA. It goes to Ribosomes, with it'sparticularsequence of 3 base pairs each called Codons. Each Codon denotesparticular Amine acid only and 'not' other. There Messenger RNA may have sequences of codons from about 40 to 4000 inparticularsequence. Many number of Ribosomes making many copies of Proteins at a time. Many tRNA or Transfer RNA brings with them stock of amine acids. tRNA or Transfer RNA is short as compared to messenger RNA.(About 80 Nucleotide long.) But then 'many' tRNA or Transfer RNA come inresponseto Messenger RNA. These Transfer RNA translate codons fromMessengerRNA as Anti-codons and detects theparticularAmine acid to be attached to Ribosomes.So according to the order of Messenger RNA, Amine acids are put in position one by one to 'many' Ribosomes and 'many' copies of Proteins are formed at a time. Even if a single Amine acid is short, then the 'entire' chain is broken down and used for 'energy' purpose.
Codons in the RNA.
A gene is made up of triplets of nucleotides called codons. Each codon translates for a a specific amino acid. Some codons don't translate for an amino acid; they are called stop codons or non-sense codons. When m-RNA transcribes the codon triplets and carry them to t-RNA, each amino acid is assembled by r-RNA in the order speicifed in the gene. Thus, the sequence of the codons in the genes is responsible for the sequence of proteins.
Transfer RNA, or tRNA.
The complement of the codon is the anticodon.
mRNA is having codons, that are converted to amino acids by tRNA that carry anti-codons. the amoni acid sequence from tRNA is then translated to proteins by rRNA. So, translator RNA is rRNA.