1. Double Helix DNA consists of two strips, made of sugars and phosphates, twisted around each other and connected by nitrogen bases. Looks like a spiral staircase or a twisted ladder.

2. Sugar Backbone The backbone of DNA is made up of Deoxyribose (Sugar) molecules connected to each other using Phosphates

3. Nitrogen Bases DNA contains 4 nitrogen bases that make up the “code” for all living things. A = Adenine T = Thymine G = Guanine C = Cytosine A always bonds to T G always bonds to C

4. Nucleotide The combination of a sugar, phosphate and nitrogen base is called a Nucleotide. These are the building blocks of DNA.

5. DNA Facts There is 6 feet of DNA in EVERY cell in your body Your DNA contains over 3 Billion base pairs Your DNA has over 23,000 genes which means you can produce 23 thousand different protiens.

7. Protein synthesis

8. DNA Facts There is 6 feet of DNA in EVERY cell in your body Your DNA contains over 3 Billion base pairs Your DNA has over 23,000 genes which means you can produce 23 thousand different protiens.

9. Protein Synthesis: Transcription and Translation Protein Synthesis: Building proteins from the instructions in DNA. It has two parts: Part 1: Transcription: the first part of gene expression/protein synthesis, the process of synthesizing mRNA by using one strand of a DNA molecule as a template.(in the nucleus) Part 2: Translation: the second part of gene expression/protein synthesis, when mRNA is used to build a protein. (in the ribosomes)

10. Key Words for Protein Synthesis Gene- section of DNA that codes for a specific protein. Messenger RNA (mRNA)- nucleic acid that copies the DNA and takes it to the Ribosome. Ribosome- Organelle that builds proteins using mRNA and tRNA. Protein: biological molecules that perform a variety of functions and build many structures Transfer RNA (tRNA)- nucleic acid that matches up codon to anticodon and drops off amino acids in the correct order. Ribosomal RNA (rRNA) structural material of ribosomes

11. Key Words Continued Codon- Group of three nitrogen bases found on the mRNA that codes for a specific amino acid. Anticodon- Group of three nitrogen bases found on the tRNA that matches up with the codon and drops off the correct amino acid. Amino Acid- Building blocks of proteins that are placed in the correct order by matching codon to anticodon along the length of a gene.

12. DNA vs RNA DNA: Deoxyribonucleic acid. The genetic material that is found in the nucleus and: 1.Gives instructions on how to build an organism 2.Passes genetic info from parent to offspring RNA: a natural polymer that is present in all living cells and that plays a role in protein synthesis. There are three types of RNA

13. Differences between DNA and RNA 1.DNA is much longer (all genes). RNA is usually one or a few genes (shorter) 2.DNA is double stranded, RNA is single stranded 3.DNA has the sugar deoxyribose, RNA has ribose 4.RNA uses the nitrogen base Uracil instead of Thymine

14. Three types of RNA mRNA tRNA rRNA What do they look like? What do they do?

15. The Three Types of RNA (Draw and Describe) Messenger RNA (mRNA)- nucleic acid that copies the DNA and takes it to the Ribosome. RNA (tRNA)- nucleic acid that matches up codon to anticodon and drops off amino acids in the correct order. Ribosomal RNA (rRNA) structural material of ribosomes

16. Key Words for Protein Synthesis Gene- section of DNA that codes for a specific protein. Messenger RNA (mRNA)- nucleic acid that copies the DNA and takes it to the Ribosome. Ribosome- Organelle that builds proteins using mRNA and tRNA. Protein: biological molecules that perform a variety of functions and build many structures Transfer RNA (tRNA)- nucleic acid that matches up codon to anticodon and drops off amino acids in the correct order. Ribosomal RNA (rRNA) structural material of ribosomes

17. Key Words Continued Codon- Group of three nitrogen bases found on the mRNA that codes for a specific amino acid. Anticodon- Group of three nitrogen bases found on the tRNA that matches up with the codon and drops off the correct amino acid. Amino Acid- Building blocks of proteins that are placed in the correct order by matching codon to anticodon along the length of a gene.

18. Transcription and Translation Transcription: the first part of gene expression/protein synthesis, the process of synthesizing mRNA by using one strand of a DNA molecule as a template. Translation: the second part of gene expression/protein synthesis, when mRNA is used to build a protein.

19. Key Words for Protein Synthesis Gene- section of DNA that codes for a specific protein. Ribosome- Organelle that builds proteins using mRNA and tRNA. Protein: biological molecules that perform a variety of functions and build many structures Messenger RNA (mRNA)- nucleic acid that copies the DNA and takes it to the Ribosome. Transfer RNA (tRNA)- nucleic acid that matches up codon to anticodon and drops off amino acids in the correct order. Ribosomal RNA (rRNA) structural material of ribosomes

20. Steps to Protein Synthesis Part 1: Transcription DNA Opens one Gene One side of the DNA is copied by the mRNA mRNA travels outside the Nucleus to the Ribosome Part 2: Translation Ribosome attaches to the mRNA. tRNA matches up codon to anticodon and drops off the correct amino acid A chain of amino acids is created which is a protein

21. Similarities and differences between DNA and RNA

22. Key Words for Protein Synthesis Gene- section of DNA that codes for a specific protein. Messenger RNA (mRNA)- nucleic acid that copies the DNA and takes it to the Ribosome. Ribosome- Organelle that builds proteins using mRNA and tRNA. Protein: biological molecules that perform a variety of functions and build many structures Transfer RNA (tRNA)- nucleic acid that matches up codon to anticodon and drops off amino acids in the correct order. Ribosomal RNA (rRNA) structural material of ribosomes

23. Key Words Continued Codon- Group of three nitrogen bases found on the mRNA that codes for a specific amino acid. Anticodon- Group of three nitrogen bases found on the tRNA that matches up with the codon and drops off the correct amino acid. Amino Acid- Building blocks of proteins that are placed in the correct order by matching codon to anticodon along the length of a gene.

24. https://www.youtube.com/watch?v=u9dh O0iCLww tRNA!

25. Part 1: Transcription

26. The Genetic Code

27. Part 2: Translation

28. tRNA! And the codon-anticodon connection

29. https://www.youtube.com/ watch?v=u9dhO0iCLww Hippy Dance

30. Protein Synthesis Models https://www.youtube.com/watch?v=NJxobgkPEAo&list=FLEezLUm- pa3vfMmQGp1aPTQ&feature=mh_lolz https://www.youtube.com/watch?v=NJxobgkPEAo&list=FLEezLUm- pa3vfMmQGp1aPTQ&feature=mh_lolz https://www.youtube.com/watch?v=Nmqhdozuf7Y&list=FLEezLUm- pa3vfMmQGp1aPTQ&index=1 https://www.youtube.com/watch?v=Nmqhdozuf7Y&list=FLEezLUm- pa3vfMmQGp1aPTQ&index=1

31. Genetic Mutation Point mutation substitution, addition or removal of a single nucleotide or a few nucleotides are rearranged. Substitution: One nucleotide is replaced with another. This can cause a change in the amino acid sequence. Deletion: A single nucleotide is inserted or deleted. This type of mutation can cause a frameshift which means that the order of amino acids changes.

33. Sickle Cell Anemia