Cracking the Genetic Code 

The Central Dogma: DNA makes RNA makes protein

Original Meaning: Information flows one way only
 

> 1953: DNA somehow "codes" for proteins
    Proteins made on ribosomes, with
         long-lived (stable) & short-lived (labile) RNA  

Deciphering the code (logically)
       Can't be 1- or 2-letter code:
            1 letter 4 amino acids only; 2 letters  4 x 4  =  16 only
           20 amino acids require a minimum 3-letter triplet code
                 4 x 4 x 4 = 64, is there redundancy? (hmmm ....)

        Can't overlap: neighbors aren't constrained
                               point mutations affect only single amino acids

        Can't be direct DNA protein:
            not chemically compatible (H-bonds vs. covalent bonds)
            in eukaryotes, DNA & protein physically separated

       Adaptor Hypothesis (Crick 1957)
                some molecule serves as intermediary

       '"Messenger RNA"  hypothesis (Jacob & Monod 1961)
           rRNA too stable; "other RNA" labile (transient) 
                "other RNA" acts as messenger: mRNA "blueprint"
                rRNA "workshop"

Experiments with RNA homopolymers (Nirenberg & Matthaei 1961)

    cell-free in vitro protein synthesis:
       polynucleotide phosphorylase polymerizes rNDP monomers into RNA
                 rNDP  +  rNDP  + ... +  rNDP  <=>  3'-rNM-rNM-...-rNMP-5' + nPi

    UUU UUU UUU           poly-phenylalanine, therefore      UUU codes phe
    AAA AAA AAA           poly-lysine                                     AAA codes lys
    CCC CCC CCC           poly-proline                                   CCC codes pro
    GGG GGG GGG         poly-glycine                                  GGG codes gly

Experiments with RNA di-, tri-, & tetra-nucleotide polymers (Khorana 1965)

(1) UG + UG + UG + UG   UGU-GUG-UGU-GUG 
            cysteine + valine + cysteine + valine + . . . . etc

(2)UGG + UGG + UGG + UGG   UGG-UGG-UGG or
                                                          GGU-GGU-GGU or
                                                          GUG-GUG-GUG
        mixture of poly-trypotophan, poly-glycine, & poly-valine

      GUG & valine co-occur in both experiments
            therefore, GUG makes valine

(3) UGGG UGGG UGGG UGGG UGG - GUG - GGU - GGG
                        trp, val, gly in 1:1:2 ratio

        Since we know GUG makes valine,
              & we know GGG makes glycine,
                             if GGU also makes gly (2X as much gly: hmmm...),
                         & if GGN makes glycine: code "degenerate" in 3rd position
             Then, UGG makes tryptophan

     & so on for all 64 codons

Complete "code" deciphered by 1965 (Nobel prize 1968)
    Code a logical relationship between DNA, RNA, & Protein
    Code precedes molecular understanding of transcription & translation

    [First example of Mega-Project Biology: NIH organized major effort through Nirenberg] 

All text material ©2026 by Steven M. Carr