Understanding Protein Synthesis: The Molecular Machinery Behind Protein Production

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Delve deep into the intricate process of protein synthesis, from transcription to translation, exploring the roles of DNA, mRNA, ribosomes, tRNA, and amino acids. Uncover the fascinating mechanisms that culminate in the creation of functional proteins, likened to baking a complex recipe. Discover the correlation between genetic code and protein formation through a series of enlightening diagrams.


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  1. Protein Synthesis (digging deeper .)

  2. transcription An enzyme separates the DNA strands and builds an RNA strand- RNA polymerase ONE strand of DNA is used to makes a strand of mRNA by following base paring rules Promoters- area of DNA that signals the enzyme where to bind start area

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  4. INTRONS/EXONS Some DNA does not code for proteins- introns Some DNA is coded instructions for proteins- exons mRNA copies both, so the introns are edited OUT and removed!

  5. Genetic code The mRNA language is called the genetic code Bases are read in 3 s= codon UCG-CAC-GGU Each codon calls for one of 20 amino acids to form chain of protein

  6. See the difference???? There are charts using the DNA code, and others using the mRNA code. Be careful!

  7. Example.. mRNA UCG-CAC-GGU Serine Histidine- Glycine

  8. translation Translation begins when mRNA binds to the ribosome to be read IN the CYTOPLASM! As mRNA codons are read, tRNA brings in and drops the amino acid adding to the growing protein chain. Translation stops when a stop codon is reached, everything disassembles, and protein chain breaks free.

  9. Area of tRNA base pairs to mRNA = anticodon Ex mRNA = ACG tRNA= UGC Each tRNA can carry only one type of amino acid

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  11. You have now studied the roles of DNA and RNA. I used an analogy of a recipe and baking a cake. Use a different analogy to represent the roles of DNA, mRNA, transcription, ribosome, tRNA, amino acids, translation, the finished protein. Create a diagram with a key showing what each part of the diagram represents!

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