1 / 53

Making Human (eukaryote) proteins in Bacteria (prokaryote)

Making Human (eukaryote) proteins in Bacteria (prokaryote). Nucleus. Mitochondria. What keeps the mitochondria in dividing cells?…most likely. Resistance gene. What keeps plasmids in dividing cells?. Tetracycline works by:. Tetracycline resistance works by:. Origin of Replication.

kirtana-devaj
Download Presentation

Making Human (eukaryote) proteins in Bacteria (prokaryote)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Making Human (eukaryote) proteins in Bacteria (prokaryote)

  2. Nucleus

  3. Mitochondria • What keeps the mitochondria in dividing cells?…most likely

  4. Resistance gene What keeps plasmids in dividing cells?

  5. Tetracycline works by:

  6. Tetracycline resistance works by:

  7. Origin of Replication What allows for DNA replication in plasmid? Resistance gene

  8. Promoter Origin of Replication What allows for mRNA production? Resistance gene

  9. Promoter Add gene Origin of Replication Now have an inducible system Resistance gene

  10. Promoter Add gene Origin of Replication How does gene need to be formulated For transcription to produce functional RNA occur in prokaryotes? Resistance gene

  11. KozaK? • Kozak sequence: gccaccATGg

  12. Finding first AUG in Prokaryotes. • Shine-Delgarno sequence!

  13. So we add a Shine-Delgarno seq Promoter Origin of Replication Add gene Resistance gene

  14. Promoter Sigma Termination sequence Origin of Replication We missing something? Shine-Delgarno gene Resistance gene

  15. Transcription Prokaryotes

  16. Promoter Origin of Replication What should gene look like? Shine-Delgarno gene Sigma Termination sequence Resistance gene

  17. Promoter Origin of Replication What should gene look like? Shine-Delgarno gene Sigma Termination sequence Resistance gene

  18. After Transcription • In prokaryotes, the RNA copy of a gene is messenger RNA, ready to be translated into protein. In fact, translation starts even before transcription is finished. • In eukaryotes, the primary RNA transcript of a gene needs further processing before it can be translated. This step is called “RNA processing”. Also, it needs to be transported out of the nucleus into the cytoplasm. • Steps in RNA processing: • 1. Add a cap to the 5’ end • 2. Add a poly-A tail to the 3’ end • 3. splice out introns.

  19. Capping • RNA is inherently unstable, especially at the ends. The ends are modified to protect it. • At the 5’ end, a slightly modified guanine (7-methyl G) is attached “backwards”, by a 5’ to 5’ linkage, to the triphosphates of the first transcribed base. • At the 3’ end, the primary transcript RNA is cut at a specific site and 100-200 adenine nucleotides are attached: the poly-A tail. Note that these A’s are not coded in the DNA of the gene.

  20. hGH several versions of the gene in the genome 1 2 3 4 5

  21. hGH several genes in the genome

  22. Introns • Introns are regions within a gene that don’t code for protein and don’t appear in the final mRNA molecule. Protein-coding sections of a gene (called exons) are interrupted by introns. • The function of introns remains unclear. They may help is RNA transport or in control of gene expression in some cases, and they may make it easier for sections of genes to be shuffled in evolution. But , no generally accepted reason for the existence of introns exists. • There are a few prokaryotic examples, but most introns are found in eukaryotes. • Some genes have many long introns: the dystrophin gene (mutants cause muscular dystrophy) has more than 70 introns that make up more than 99% of the gene’s sequence. However, not all eukaryotic genes have introns: histone genes, for example, lack introns.

  23. Intron Splicing • Introns are removed from the primary RNA transcript while it is still in the nucleus. • Introns are “spliced out” by RNA/protein hybrids called “spliceosomes”. The intron sequences are removed, and the remaining ends are re-attached so the final RNA consists of exons only.

  24. AG/GT CAG/NT exon 1 intron 1 exon 2 Eukaryotes Splice Signals

  25. Summary of RNA processing • In eukaryotes, RNA polymerase produces a “primary transcript”, an exact RNA copy of the gene. • A cap is put on the 5’ end. • The RNA is terminated and poly-A is added to the 3’ end. • All introns are spliced out. • At this point, the RNA can be called messenger RNA. It is then transported out of the nucleus into the cytoplasm, where it is translated.

  26. hGH1 has many isoforms derived from Alternate splicing of the hnRNA

  27. Promoter Origin of Replication Spliced and correct isoform of gene Shine-Delgarno spliced Sigma Termination sequence Resistance gene

  28. Spliced gene needs ATG and STOP codons • The initiation process involves first joining the mRNA, the initiator methionine-tRNA, and the small ribosomal subunit. Several “initiation factors”--additional proteins--are also involved. The large ribosomal subunit then joins the complex.

  29. Promoter Origin of Replication They did something extra clever…. Shine-Delgarno spliced Sigma Termination sequence Resistance gene

  30. They added a signal peptide:two reasons

  31. -secrete protein….to ease purification -active form of hGH is a cleavage product

  32. Use a signal peptide

  33. Eukaryotic examples of signal peptides

  34. E. Coli

  35. Promoter Origin of Replication +Signal Seq , Truncate Protein Shine-Delgarno spliced Sigma Termination sequence Resistance gene

More Related