the three special nucleotide sequences are anticodon loop,dloop and aminoacid acceptor arm
Three nucleotides makes up each codon. The codons consist of combination of 4 differing nucleotides A,G,T, and C.
Because for the purpose of translation into aminoacids, each codon is three nucleotides long. In other words peptides which are the building blocks of proteins get made by translating three nucleotides at a time.
A three-nucleotide sequence makes up a codon.
The codon and the anticodon interact with each other via hydrogen bonding, hence both the codon and anticodon are made up of the same number of nucleotides, which is three.
Nine nucleotides are needed to specify three amino acids.
Three tRNA nucleotides form a codon, which corresponds to a specific amino acid during protein synthesis. In the context of tRNA, this triplet is often referred to as an anticodon, which pairs with the corresponding codon on mRNA to ensure the correct amino acid is incorporated into the growing polypeptide chain.
Three sequential mRNA nucleotides are called a codon, which codes for one amino acid.
There are four nucleotides in tRNA that are complementary to the four nucleotides on mRNA. Both types of RNA contain the nucleotides adenine, guanine, cytosine, and uracil. In both types of RNA adenine is complementary to uracil, and cytosine is complementary to guanine.
three
Three
This arrangement is called a codon.In DNA and RNA a group of three nucleotides in a row is called a codon. In tRNA a group of three nucleotides is called an anticodon.
A sequence of three nucleotides is a codon which codes for an amino acid that will be placed into a protein.