Each tRNA molecule contains three bases called an anticodon. The tRNA anticodons are complementary to specific mRNA codons. This is how the amino acids are placed in the proper order on the ribosome.
Anticodons.
A sequence of three nitrogenous bases in an mRNA molecule is called a codon. Each codon codes for a specific amino acid during protein synthesis.
There are three bases in mRNA, known as a codon, that specify one amino acid molecule. This is because each codon corresponds to a specific amino acid in the genetic code.
It contains one potassium ,one iodine and three oxygen atoms per unit.( for ionic compound it is better to use the term 'unit' instead of molecule).
The three unpaired bases on a tRNA molecule are known as the anticodon. The anticodon base pairs with the corresponding codon on mRNA during translation, allowing for the correct amino acid to be added to the growing polypeptide chain.
Anticodon
I was looking for this too. It's called the *anticodon* (:
Anticodons.
Anticodon
A sequence of three nitrogenous bases in an mRNA molecule is called a codon. Each codon codes for a specific amino acid during protein synthesis.
Anticodon
amino acid to a tRNA molecule. This group of three bases is called a codon and each codon corresponds to a specific amino acid. The process by which a particular amino acid is attached to its corresponding tRNA molecule is called translation.
putos - what in the hell is putos? it sounds NASTY
Anticodon
No, a molecule of ozone (O3) contains three oxygen atoms, not nitrogen. Nitrogen dioxide (NO2) is a molecule that contains one nitrogen atom and two oxygen atoms.
The formula of water is H2O, showing that each molecule contains one oxygen atom and two hydrogen atoms. Therefore, each molecule contains three atoms.
The triplet of bases at one end of a folded tRNA molecule is called the anticodon. This anticodon base-pairs with a complementary sequence of three bases, called the codon, in mRNA during protein synthesis. This specific interaction ensures the accurate incorporation of the correct amino acid into the growing polypeptide chain.