DNA Structure and Protein Synthesis (also known as Gene Expression)

1. DNA Structure and Protein Synthesis (also known as Gene Expression)

2. Protein Synthesis • The process of making proteins… • Boring stuff? • Nope • This is how the information in your genes is used to build… you!

3. DNA • Deoxyribonucleic Acid (DNA) is found in what part of the cell? • How is the DNA organized? Chromosomes! Nucleus

4. Each strand of DNA is a POLYMER!! • Individual nucleotides are the monomers! • Monomers (nucleotides) are linked to form a long polymer of single-stranded DNA • In our cells, 2 DNA polymers are bonded together to form a LONG double-stranded polymer

5. The Parts of a Nucleotide • SUGAR – deoxyribose • Phosphate group (PO4) • Nitrogen-containing base

6. A nucleotide

7. What are the 4 BASES? ADENINE THYMINE CYTOSINE GUANINE

8. A DNA POLYMER!! • Strong bonds hold the nucleotides together to form a ‘backbone’. • They occur between the sugar of one nucleotide and the phosphate of the next nucleotide.

9. MORE ABOUT THE BASES… • Adenine always bonds to thymine • Cytosinealways bonds toguanine

10. Adenine –Thymine (A-T) • Cytosine-Guanine (C-G)

11. How does DNA Replicate? • DNA replication is making a COPY of ALL the genetic information (ALL the bases of DNA). • This has to happen BEFORE cell division (either Mitosis or Meiosis) can occur. • WHY does it have to happen?

12. The role of DNA • The material that genes are made of… • Gene - segment of DNA that carries the information necessary to build a protein. • Information is encoded in the sequence (order) of the four DNA bases (ATGC). • A gene is a sequence of thousands of these bases that codes for a protein!

14. The DNA in a single human cell = 3,000,000,000 bases (3 Billion!) • However, scientists were surprised that there are only about 30,000 genes!!

16. DNA is Double Stranded Molecule • The four bases that make up the genetic code (ATGC) form complimentary pairs. • A pairs with T… G pairs with C. • If one strand is ACGCAATTGCATT • The other is TGCGTTAACGTAA • This makes it possible for DNA copy it’s self…

17. Make a complementary strand! • TTCCGATCGGCGTATCTGAGCGATCAG…. AAGGCTAGCCGCATAGACTCGCTAGTC

18. What is a gene? • A Segment of DNA that contains the information that codes for a protein!!!

20. How do genes result in proteins? • The DNA is in the NUCLEUS of the cell. • Proteins are made on the ribosomes- where? • In the cytoplasm! • So, the information needs to leave the nucleus….. • Can the DNA can leave the nucleus?

21. NO, it cannot! • The information for the gene needs to be copied in a way that the information CAN leave the nucleus! • This process is the 1st step in Protein Synthesis- TRANSCRIPTION

22. Transcription: • The information in the DNA is copied into a molecule of RNA (Ribonucleic acid). • DNA can’t leave the nucleus so …a messenger (copy) is sent. • mRNA is the messenger.

23. How is RNA different from DNA? • Monomer is a nucleotide with Ribose sugar, nitrogen base, and phosphate group • In RNA, nitrogen bases are: Adenine, Guanine, Cytosine, and URACIL • Complementary base pairs are C-G; A-U)

24. RNA is Single Stranded; DNA is double stranded • DNA: ATGCGTTAC • mRNA: UACGCAAUG

25. http://www.dnalc.org/resources/3d/03-mechanism-of-replication-basic.htmlhttp://www.dnalc.org/resources/3d/03-mechanism-of-replication-basic.html

26. Transcribe this DNA sequence! • DNA: GCCTTAAGACATTGTATGCCTAGCTAG • Complementary mRNA: CGGAAUUCUGUAACAUACGGAUCGAUC

27. What are differences between mRNA & DNA • Location? • Nucleotides? • Double stranded? Single Stranded? • How much genetic information is contained?

29. TRANSLATION • What do you do when you go from one language to another? You TRANSLATE! • mRNA carries the instructions for building the protein • It takes place on the ribosomes (cellular machine that makes the protein by joining amino acids)

30. Translation • The Sequence (order) of bases in the DNA/RNA determines the order of amino acids in the protein! • The information is translatedfrom the language of DNA/RNA (nucleic acids) to the language of proteins (amino acids).

31. What does the cell need to translate a mRNA? • mRNA- information for making the protein • tRNA- type of RNA that actually translates the information from nucleic acid (RNA) to amino acid (protein) • Ribosome- the “machine” where translation takes place; binds the mRNA, tRNA, and joins the corresponding amino acids (the monomers of proteins!)

32. How is the mRNA translated to make a protein? • Correct tRNA with an amino acid attached “reads” 3 nucleotides (a codon) in the mRNA and puts the correct amino acid in the growing polypeptide (unfolded protein!). • This happens in the ribosome!!

34. Summary of transcription and translation Transcription – A copy of the information in DNA for a gene is encoded into RNA (takes place in nucleus). Translation – The RNA (messenger) serves as the plan for building a protein using tRNA as the translator and the ribosome as the “machine” (takes place in cytoplasm)

35. http://www.lew-port.com/10712041113402793/lib/10712041113402793/Animations/Protein%20Synthesis%20%20long.swfhttp://www.lew-port.com/10712041113402793/lib/10712041113402793/Animations/Protein%20Synthesis%20%20long.swf