Gene Expression

1. Gene Expression

2. Gene expression • All cells in one organism have the same DNA. But different cells have very different functions. • In each cell at certain times only some genes are expressed. • Which genes are expressed at which times?

3. Cells muscle nerve

4. Double-stranded DNA

5. DNA Structure

6. DNA matching • Every A forms two weak hydrogen bonds with T. • Every T forms two hydrogen bonds with A. • Every C forms three weak hydrogen bonds with G. • Every G forms three hydrogen bonds with C.

7. RNA • RNA is also a sequence of nucleotides. • RNA means “ribonucleic acid”. • DNA means “deoxyribonucleic acid”.

8. Nucleotides

9. RNA

10. DNA Structure

11. DNA vs RNA • Both are strings of nucleotides. • DNA is usually double-stranded; RNA is single-stranded. • RNA is usually much shorter than DNA. • RNA replaces each T by U (uracil). • DNA contains deoxyribose while RNA contains ribose. This makes DNA more stable chemically than RNA.

12. DNA and RNA • DNA in your cells is in the nucleus; RNA can be anywhere in the cell. • Proteins are made directly using RNA, not DNA.

13. Central Dogma • A protein-coding region of DNA is copied to messenger RNA (mRNA) by transcription. • The mRNA leaves the nucleus and goes to a ribosome. • The ribosome uses the mRNA to make a protein by translation.

14. Central Dogma

15. Translating codons • Ala/A GCT, GCC, GCA, GCG Leu/L TTA, TTG, CTT, CTC, CTA, CTG • Arg/R CGT, CGC, CGA, CGG, AGA, AGG Lys/K AAA, AAG • Asn/N AAT, AAC Met/M ATG • Asp/D GAT, GAC Phe/F TTT, TTC • Cys/C TGT, TGC Pro/P CCT, CCC, CCA, CCG • Gln/Q CAA, CAG Ser/S TCT, TCC, TCA, TCG, AGT, AGC • Glu/E GAA, GAG Thr/T ACT, ACC, ACA, ACG • Gly/G GGT, GGC, GGA, GGG Trp/W TGG • His/H CAT, CAC Tyr/Y TAT, TAC • Ile/I ATT, ATC, ATA Val/V GTT, GTC, GTA, GTG • START ATG STOP TAG, TGA, TAA

16. Protein primary structure

17. 3D views of proteins

18. DNA for beta hemoglobin • ATGGTGCATCTGACTCCTGAGGAGAAGTCTGCCGTTACTGCCCTGTGGGGCAAGGTGAACGTGGATGAAGTTGGTGGTGAGGCCCTGGGCAGGCTGCTGGTGGTCTACCCTTGGACCCAGAGGTTCTTTGAGTCCTTTGGGGATCTGTCCACTCCTGATGCTGTTATGGGCAACCCTAAGGTGAAGGCTCATGGCAAGAAAGTGCTCGGTGCCTTTAGTGATGGCCTGGCTCACCTGGACAACCTCAAGGGCACCTTTGCCACACTGAGTGAGCTGCACTGTGACAAGCTGCACGTGGATCCTGAGAACTTCAGGCTCCTGGGCAACGTGCTGGTCTGTGTGCTGGCCCATCACTTTGGCAAAGAATTCACCCCACCAGTGCAGGCTGCCTATCAGAAAGTGGTGGCTGGTGTGGCTAATGCCCTGGCCCACAAGTATCACTAA

19. Primary structure for beta hemoglobin • MVHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH

20. Part of the two strands for beta hemoglobin • ATGGTGCATCTGACTCCT… • TACCACGTAGACTGAGGA… • The top is the sense or template; the bottom is the antisense or coding strand.

21. Transcription: Make mRNA • ATGGTGCATCTGACTCCT… sense • TACCACGTAGACTGAGGA… coding • AUGGUGCAUCUGACUCCU… mRNA

22. Structure of mRNA

23. mRNA goes to a ribosome, outside the nucleus • AUGGUGCAUCUGACUCCU… mRNA

24. Eukaryotic cell • (1) nucleolus • (2) nucleus • (3) ribosomes (little dots) • (5) rough endoplasmic reticulum (ER) • (9) mitochondria • (10) vacuole • (11) cytoplasm

25. Ribosomes • The ribosome functions as a factory to make proteins. It uses two kinds of input: • (a) mRNA • (b) tRNA • It outputs a protein.

26. Ribosome translates mRNA • Ribosome (2) straddles mRNA (1) • It makes the protein (3). • It starts at AUG and ends at UAG

27. Ribosome large subunit

28. Transfer RNA (tRNA) • Each tRNA molecule has on one side a conformation that binds to the specific codon and on the other side a conformation that binds to the corresponding amino acid.

29. tRNA • CCA tail in orange, Acceptor stem in purple, D arm in red, Anticodon arm in blue with Anticodon in black, T arm in green.

30. tRNA carries the amino acid matched to the codon • UAC … M tRNA will bind with the codon AUG in the mRNA. • CAC … V tRNA will bind with the codon GUG in the mRNA.

31. mRNA in a ribosome has the genetic information • AUGGUGCAUCUGACUCCU… • UAC … M tRNA will bind with the codon AUG. • CAC … V tRNA will bind with the codon GUG.

32. Translating codons • Ala/A GCT, GCC, GCA, GCG Leu/L TTA, TTG, CTT, CTC, CTA, CTG • Arg/R CGT, CGC, CGA, CGG, AGA, AGG Lys/K AAA, AAG • Asn/N AAT, AAC Met/M ATG • Asp/D GAT, GAC Phe/F TTT, TTC • Cys/C TGT, TGC Pro/P CCT, CCC, CCA, CCG • Gln/Q CAA, CAG Ser/S TCT, TCC, TCA, TCG, AGT, AGC • Glu/E GAA, GAG Thr/T ACT, ACC, ACA, ACG • Gly/G GGT, GGC, GGA, GGG Trp/W TGG • His/H CAT, CAC Tyr/Y TAT, TAC • Ile/I ATT, ATC, ATA Val/V GTT, GTC, GTA, GTG • START ATG STOP TAG, TGA, TAA

33. mRNA goes to a ribosome • AUGGUGCAUCUGACUCCU… mRNA • UAC …. M tRNA • CAC … V tRNA • The ribosome matches UAC on tRNA with AUG on mRNA, then uses the M on the other end in the protein.

34. mRNA goes to a ribosome • AUGGUGCAUCUGACUCCU… mRNA • UAC …. M tRNA • CAC … V tRNA • The ribosome matches CAC on tRNA with GUG on mRNA, then uses the V on the other end to extend the protein.

35. Ribosome • In this manner, the ribosome continues to make the protein until it reaches a STOP codon.

36. When is a given gene being expressed? • A given protein is being made when its mRNA is present in the cell. • The DNA is always present.

37. When is a given gene being expressed? • To tell what is being expressed at a given time in a given cell, find out which mRNAs are present. • For each kind of mRNA, measure the quantity present.

38. A microarray

39. Microarrays • A microarray consists of a pattern of thousands of features. • Each feature has some DNA that will probe and possibly bind with an mRNA sample. • Typically the feature is made to fluoresce under the presence of binding mRNA. • The brightness of the dot corresponds to the quantity of mRNA of the given sort that is present.

40. Two gene chips

41. Microarrays • Typically the probe is attached to a solid surface which is a glass or silicon chip. It is then called a gene chip or Affymetrix microarray.

42. Introns • Introns are inserts in the DNA within portions that code for one protein. • The parts that code are exons.

43. Introns must be removed to make the mature mRNA

44. cDNA • Complementary DNA (cDNA) is DNA synthesized from mature mRNA using reverse transcriptase. • AUGGUGCAUCUG mRNA • TACCACGTAGAC cDNA

45. cDNA • cDNA is more stable than RNA. • cDNA corresponds with the part of the genome from which introns have been removed. • cDNA does not correspond exactly to nuclear DNA.

46. The mature mRNA

47. The probes • Each dot can contain DNA, cDNA, or an oligonucleotide (oligo). • An oligonucleotide is a short fragment of single-stranded DNA, typically 5 to 50 nucleotides long.

48. Gene expression profiling • In an mRNA or gene expression profiling experiment the expression levels of thousands of genes are monitored simultaneously in parallel. This can be used to distinguish • (a) the effects of certain treatments • (b) the effects of diseases • (c) the effects of different stages of development.

49. Gene expression profiling • For example, microarrays can identify genes whose expression is changed in response to pathogens by comparing gene expression in infected cells to that in uninfected cells.

50. A microarray experiment • Suppose there are two cells--type 1, healthy, and type 2, diseased. Both have four genes A, B, C, D. We want to compare the expression of these genes in the two types of cell.