Showing posts with label codon. Show all posts
Showing posts with label codon. Show all posts

Monday, 29 April 2024

New video posted: Translation - making proteins from DNA - decoding mRNA to make the protein

This is the second of two videos on how cells make proteins using DNA. In the first video, I looked at the first step, which is making the messenger RNA (mRNA) a process called transcription - Transcription - making proteins from DNA - the mRNA.

In this video, I will guide you through the process of producing the protein from the mRNA, also known as translation. I will look at the coding problem (how many mRNA bases do you need to code from an amino acid), the number of reading frames in a DNA molecule, and how the cell produces protein from the mRNA.

  

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Blog Bonus: Free information sheet summarising the video and defining the key terms - download.
 

Additional Reading

The video was produced with help from the following resources:

Monday, 5 October 2009

Protein sequence to DNA - Degeneracy calculation

I have had some questions about the reverse translation of protein to DNA and degeneracy...

The protein sequence is THERIGHTREADINGFRAME

It is 20 amino acids, and therefore, you will need 60 bases to encode it. So....

Protein Seq:  T  H  E  R  I  G  H  T  R  E  A  D  I  N  G  F  R  A  M  E 
DNA Seq:     ACNCAYGARMGNATHGGNCAYACNMGNGARGCNGAYATHAAYGGNTTYMGNGCNATGGAR    
Full DNA:    ACACACGAACGAATAGGACACACACGAGAAGCAGACATAAACGGATTCCGAGCAATGGAA
               T  T  G  T  C  T  T  T  T  G  T  T  C  T  T  T  T  T     G
               G        G  T  C     G  G     C     T     C     G  C
               C        C     G     C  C     G           G     C  G
                      AGG            AGG                     AGG
                        A              A                       A
Number codons: 4  2  2  6  3  4  2  4  6  2  4  2  3  2  4  2  6  4  1  2
So, 4 x 2 x 2 x 6 x 3 x 4 x 2 x 4 x 6 x 2 x 4 x 2 x 3 x 2 x 4 x 2 x 6 x 4 x 1 x 2 = 2,038,431,744 or 2 x 109 possible DNA sequences would encode the protein sequence.

This is a big number; however, compared to the total number of possible DNA sequences you could have for a 60-base sequence, it is small.

The total number of DNA sequences you could have for a 60 base sequence is 4 x 4 x 4.... sixty times, or 460, which is equal to 1.3 x 1036 possible sequences. Of those 1.3 x 1036 sequences only 2,038,431,744 would encode THERIGHTREADINGFRAME. Or in percentage terms, (2,038,431,744 / 1.3 x 1036) x 100 = 0.0000000000000000000000002% (2 x 10-25%) of all the possible sequences would encode THERIGHTREADINGFRAME.

You may find the following video useful where I explain the above:


If you would like to support my blogging efforts, then please feel free to buy me a coffee at https://www.buymeacoffee.com/drnickm

Additional Resources