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This week, we talked about DNA… T goes with…? G goes with…? What does DNA look like? Ok, so now we’ll talk about RNA…

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Presentation on theme: "This week, we talked about DNA… T goes with…? G goes with…? What does DNA look like? Ok, so now we’ll talk about RNA…"— Presentation transcript:

1 This week, we talked about DNA… T goes with…? G goes with…? What does DNA look like? Ok, so now we’ll talk about RNA…

2 What’s RNA? RNA is short for Ribose Nucleic Acid. It helps our body decode DNA and it helps assemble proteins.

3 What’s the difference between DNA and RNA? RNA single-stranded while DNA has two strands. RNA contains Ribose sugar instead of Deoxyribose sugar. RNA uses uracil(U) instead of thymine (T).

4

5 Three Types of RNA There are three types of RNA. Most RNA molecules have only one job – protein synthesis.

6 Three Types of RNA Messenger (mRNA): a messenger between DNA in the nucleus and ribosomes in the cytoplasm

7 Three Types of RNA Transfer (tRNA): transfers amino acids to the ribosomes to build proteins

8 Three Types of RNA Ribosomal (rRNA): makes up part of the ribosome; clamps/hold onto mRNA and hold it in place

9 Three Types of RNA Label the three types of RNA… Ribosomal RNA (rRNA) Messenger RNA (mRNA) Transfer RNA (tRNA)

10 PROTEIN SYNTHESIS Essential Idea: DNA  RNA  Proteins (This is important. That’s why it’s so BIG! Circle it, put a big star by it. I wouldn’t be telling you do this if it wasn’t an IMPORTANT IDEA. )

11 PROTEIN SYNTHESIS What? Using info from DNA to make proteins – The sequence of DNA bases is a code for how to make proteins. Where? Takes place in the nucleus and cytoplasm of a cell Why? So our cells can make the proteins need for important processes all over our bodies – Ex. in humans, how we make hair, fingernails, hemoglobin, insulin, enzymes, etc…

12 PROTEIN SYNTHESIS DNA  RNA  Proteins How? – DNA  RNA by transcription – RNA  proteins by translation

13 Transcriptalatiowhat? Don’t worry, by the end of this you will be EXPERTS! (Pros, masters, geniuses, magicians, super synthesizers --- trust me, you got this). First, we’ll talk about transcription.

14 TRANSCRIPTION What? Making mRNA molecules by using the DNA sequence as a template Where? Takes place in the nucleus Why? So that a disposable copy of the “protein instruction manual” stored in DNA can be transferred to the ribosome and used to make a protein How?

15 Steps in Transcription Transcription is just like DNA replication (almost) except that we are making messenger RNA instead and U is put in place of T

16 Steps in Transcription: Separation of Strands 1.The enzyme RNA polymerase uses one DNA strand as a template

17 Steps in Transcription: Separation of Strands 1.Only one gene is copied at a time; mRNA is made at the start of a gene sequence

18 Steps in Transcription: Base Pairing 2. Free RNA nucleotides are matched to exposed DNA nucleotides (A=U, C=G)

19 Steps in Transcription: Bonding of Bases 3. Sugars and phosphates bond to form a new backbone

20 Steps in Transcription: Termination/Stop Codon 4. Transcription stops when a terminator/ stop codon (end of the sequence) is reached

21 Steps in Transcription: Results of Transcription 5. The mRNA molecule is a complementary (opposite) copy of the DNA sequence

22 Steps in Transcription 5. Each three-nucleotide set on the mRNA is called a codon, which represents a different amino acid

23 Let’s practice transcription: DNA: ATC CGT AAG CTC GTC mRNA: UAG GCA UUC GAG CAG

24 Let’s practice transcription: DNA: GGC TAA TCG ACT GCA mRNA: CCG AUU AGC UGA CGU

25 Let’s practice transcription: DNA: ATC GAC GCT CAT CGA mRNA: UAG CUG CGA GUA GCU

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