"In the genetic code, there are 4³ = 64 possible codons (3 nucleotide sequences). For translation, each of these codons requires a tRNA molecule with an anticodon with which it can stably complement. If each tRNA molecule is paired with its complementary mRNA codon using canonical Watson-Crick base pairing, then 64 types of tRNA molecule would be required. In the standard genetic code, three of these 64 mRNA codons (UAA, UAG and UGA) are stop codons. These terminate translation by binding to release factors rather than tRNA molecules, so canonical pairing would require 61 species of tRNA. Since most organisms have fewer than 45 types of tRNA, ⁣some tRNA types can pair with multiple, synonymous codons, all of which encode the same amino acid. In 1966, Francis Crick proposed the Wobble Hypothesis to account for this. He postulated that the 5' base on the anticodon, which binds to the 3' base on the mRNA, was not as spatially confined as the other two bases and could, thus, have non-standard base pairing. Crick creatively named it for the small amount of "play" or wobble that occurs at this third codon position. Movement ("wobble") of the base in the 5' anticodon position is necessary for small conformational adjustments that affect the overall pairing geometry of anticodons of tRNA" (Wikipedia article on Wobble base pair, accessed 7-22).