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Section 8.4: Transcription.

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Presentation on theme: "Section 8.4: Transcription."— Presentation transcript:

1 Section 8.4: Transcription

2 Central Dogma Information flows in one direction:
1. Replication copies DNA 2. Transcription converts DNA into RNA 3. Translation interprets RNA message into string of amino acids or proteins Central Dogma

3 What is a gene? A section of DNA that contains instructions on how to make a specific protein. Each gene has a locus (location) on DNA Alleles are different forms of a gene DNA located in the nucleus only

4 What is transcription? Process of copying a sequence of DNA (gene) to produce strand of RNA RNA is a copy of a gene, not the entire strand of DNA. Strand of RNA is complementary to DNA strand Small segment can exit nucleus into cytoplasm

5 Steps of Transcription
1. RNA Polymerase recognizes the start of the gene, attaches to the DNA strand and begins to unwind and unzip using helicase.

6 2. RNA Polymerase adds RNA nucleotides to section of DNA being used as template.
3. Transcription complex moves along DNA, adding nucleotides, until complete gene is copied.

7 4. Complete mRNA strand breaks off and moves out of nucleus.

8 What does transcription produce?
mRNA – message that is ultimately translated into a protein

9 Practice transcribing…… Don’t forget to swap U for T
DNA: A C G T T A C A G RNA: U G C A A U G U C

10

11 Reflection #2 (original) A G C C T C A G T T C A G (new) (mRNA)
Define Replication: Create the complementary strand for the DNA sequence: (original) A G C C T C A G T T C A G (new) Define Transcription: Translate the complementary strand from above into mRNA: (mRNA)

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