Transcription & Translation

1. Transcription & Translation 11.2

2. DNAtranscription to m-RNA • The information in the “blueprint” of DNA is very important, so it never leaves the protection of the nucleus • Instead, the DNA “message” is transcribed to messenger RNA, which is expendable • m-RNA can then go out to the ribosomes with the information...

3. RNA (ribonucleic acid) • Three types (mRNA, tRNA, & rRNA) • Single-stranded in humans • Contains sugar/phosphate backbone and nitrogenous bases; just like DNA • The sugar this time is ribose • The bases are adenine, cytosine, guanine and uracil

4. mRNA (messenger) • Takes DNA ‘message’ out of the nucleus to the cytoplasm. • Starts with RNA polymerase (enzyme) that finds the gene to be transcribed from the DNA • Another enzyme ‘unzips’ that section of DNA to expose the bases for that gene

5. Transcription • RNA bases pair up with exposed DNA bases from a start signal code to a stop signal code • Each three nucleotides code for a protein; on mRNA this is called a codon • This process is called transcription

6. tRNA (transfer) • Involved in protein synthesis • There is one tRNA for every amino acid (twenty different amino acids = twenty different tRNA) • Three bases on a tRNA will bond with each codon on an mRNA; these bases are called the anticodon

7. Transcription • Where: • Occurs in cell nucleus • Overview: - DNA molecule must separate - RNA molecules H bond with DNA strand via RNA polymerase. - * A (DNA) pairs with U (mRNA) instead of A-T bond. - T (DNA) pairs with A (mRNA)

8. Messenger RNA • Codons – series of three nucleotides in m-RNA that correspond to an amino acid in translation (charts showcodons) • Anti-codon – corresponding nucleotide triplet in t-RNA • Reading frames • 3 nucleotide sequence.

9. mRNA Overview Info. • mRNA codes for Amino Acids; itgets translated into polypeptides/proteins. • mRNA translation occurs in cell cytoplasm. • Before leaving the nucleus RNA transcript is modified. • Addition of extra nucleotides, G nucleotide cap, and “poly-A tail” • These serve as protection from enzyme degradation during transport

10. DNA Strand: 5’- AAA TAA CCG GAC – 3’ mRNA codon: 3’ UUU AUU GGC CUG -5’ Amino Acid: Phe Ile Gly Leu tRNA anti-codon: AAA UAA CCG GAC

11. Transcription &Translation • DNA is like a blueprint that contains the information to build proteins. • Remember that proteins are specific because of the order of amino acids in them. • DNA is ultimately responsible for giving the instructions for that amino acid order.

12. Translation • Pairing occurs while mRNA is attached to a ribosome (ribosomes read the codons and build the proteins) • tRNAs come to the ribosomes carrying an amino acid and attach to the corresponding codon

13. Translation • The amino acid is linked to the growing protein by a peptide bond • Then the ribosome will move down and read the next codon and wait for the next correct tRNA • This process is called translation since you are translating DNA code into a new language of proteins

14. T A C A C C A A G G Translation - 1 • This is the same DNA as we looked at before...

15. T A C A C C A A G G Transcription - 2 • Enzymes uncoil and separate the two sides of the molecule...

16. T A C A C C A A G G Transcription - 3 • But this time, only one side of the DNA molecule is copied...

17. A U U U U T G G G A C A C C A C C A G G Transcription - 4 • RNA poly-merase joins nucleo- tides in the proper positions...

18. A U U U U G G G A U C phe A C C trp A C A C G Translation • Now transfer-RNA’s line up with m-RNA • t-RNA brings along specific amino acids

19. STOP STOP STOP START