I think codons are found on dna. Anticodons are found only on trna.
mRNA is made up of anticodons
its codons and anticodons and they determine the alanine, cytosine, guanine, thymine, and urcail in amino acids. without them we wouldn't have DNA and no one would be here. they match up DNA strands to determine your genotype and phenotype. i know it sounds like a bunch of jibber jabber but that's what it is haha.
Transfer RNA (tRNA) has anticodons, messenger RNA (mRNA) has codons, and ribosomal RNA (rRNA) plays a structural role in the ribosome. Therefore, regulatory RNA, such as microRNA or small interfering RNA, do not have either anticodons or codons.
Anticodons are attached to the codons on the mRNA.
Anticodons.
Codons are found on messenger RNA, while anticodons are found on transfer RNA
anti-codons for sure!
mRNA is made up of anticodons
its codons and anticodons and they determine the alanine, cytosine, guanine, thymine, and urcail in amino acids. without them we wouldn't have DNA and no one would be here. they match up DNA strands to determine your genotype and phenotype. i know it sounds like a bunch of jibber jabber but that's what it is haha.
Codons are found in mRNA molecules, which are involved in protein synthesis during translation. Anticodons, on the other hand, are found in tRNA molecules, which are responsible for carrying amino acids to the ribosome based on the mRNA codons.
In the ribosome
Well, think about it. There are 64 codons so there must be 64 anticodons
Anticodons: Prest in the tRNA molecule,involved in the protein syntehesis Triplet or codon: Three letter base(eg:AUG-Met) of mRNA, codes for a particular aminoacid. Replication:Duplication of DNA moleculs(codons and anticodons are not relevant with this processs!)
Transfer RNA (tRNA) has anticodons, messenger RNA (mRNA) has codons, and ribosomal RNA (rRNA) plays a structural role in the ribosome. Therefore, regulatory RNA, such as microRNA or small interfering RNA, do not have either anticodons or codons.
The mRNA codons are used in the genetic code to specify which amino acids correspond to each three-nucleotide codon. tRNA anticodons complement the mRNA codons during translation to ensure the correct amino acid is added to the growing polypeptide chain. Both mRNA codons and tRNA anticodons play essential roles in protein synthesis.
Anticodons are attached to the codons on the mRNA.
Anticodons.