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Reading the instructions and building a protein!

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Presentation on theme: "Reading the instructions and building a protein!"— Presentation transcript:

1 Reading the instructions and building a protein!
Translation Reading the instructions and building a protein!

2 Translation on paper Must always transcribe before you can translate 1 codon codes for 1 amino acid DNA: TACTCTGGATTCAGCCAAGCTATC mRNA: Amino : Acids of protein AUGAGACCUAAGACGGUUCGAUAG Met Arg Pro Asn Ser Val Arg

3 Significance of Translation?
Builds protein to exact specifications of DNA instructions. *exact size and shape What determines size and shape? The number and sequence of amino acids

4 Where does it take place?
On a ribosome in the cytoplasm Ribosomes provide a location for all necessary parts for building a protein to assemble

5 The ribosome up close Made of rRNA and proteins Key features: - 2 subunits, large and small *small is first to bind to mRNA - 3 binding sites- A, P, E *A- holds next tRNA in line to drop off its amino acid *P- Site where tRNA connects its amino acid to the growing polypeptide chain *E- exit site once the tRNA has dropped off its amino acid

6 t-RNA up Close Made of RNA folded into a “clover leaf” shape tRNA physically bring amino acids to the ribosome and drop them off Key features - anticodon in the middle loop matches to codon to ensure correct amino acid is dropped off - amino acid attached to its 3’ end

7

8 Loading tRNA Aminoacyl tRNA synthetase Enzyme which bonds specific amino acid to tRNA Each tRNA only carries one specific amino acid Bonding amino acid to tRNA requires energy ATP  AMP

9

10 3 steps of Translation Initiation brings together mRNA by binding to 5’ cap, ribosome subunits, initiator tRNA Elongation adding amino acids based on codon sequence (GTP energy used) Termination Stop codon plus release factor, H20, GTP

11 How do proteins know where to go?
Signal peptide- ~20 amino acids at start of protein that act as address label Possible destinations: -secreted from cell -nucleus -mitochondria -chloroplast -cell membrane -cytoplasm

12 Translation in Prokaryotes
Transcription & translation are simultaneous in bacteria *DNA is in cytoplasm *no mRNA editing/processing *ribosomes read mRNA as it is being transcribed

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