Gene Expression and Regulation I Gene Regulation in
- Slides: 19
Gene Expression and Regulation
I. Gene Regulation in Eukaryotes A. Transcriptional Controls 1. Gene amplification 2. Chemical Modification A. Post-transcriptional Controls B. Translational Controls
A. Transcriptional Control 1. Gene Amplification: A gene sequence can be repeated many times on a DNA sequence…resulting in multiple m. RNA transcripts, therefore more gene expression.
TRANSCRIPTION Different gene regions of a DNA molecule m. RNA Transcript processing r. RNA t. RNA proteins mature m. RNA TRANSLATION synthesis of polypeptide chain on the platform of an intact ribosome subunits for ribosomes convergence of RNAs mature t. RNA Pools of amino acids, t. RNAs, and ribosomal subunits in the cytoplasm FINAL PROTEIN Fig. 15. 5, p. 245 for use in cell or for export
A. Transcriptional Control 2. Chemical Modification: A DNA segment may be wrapped tightly with histones, preventing gene expression. In mammalian females, the extra “X” is tightly bound, resulting in the presence of a Barr Body in the nucleus.
Mosiac Effect and X inactivation
B. Post Transcription Splicesomes: Enzymes that rearrange segements of introns, creating new combinations of proteins.
C. Translational Controls m. RNA transcript will be digested when it reaches the cytoplasm (a good thing, or once a gene were turned on it would be forever expressed). A transcript has a cap added to the 5’ end a poly-A tail added to the 3’ end. If these tails/caps are long, it will take the enzymes in the cytoplasm a greater amount of time to digest the coding region of the transcript.
unit of transcription in a DNA strand exon intron exon 3’ 5’ transcription into pre-m. RNA poly-A tail cap 5’ 3’ (snipped out) 5’ 3’ mature m. RNA transcript Fig. 14. 9, p. 229
II. Gene Regulation in Prokaryotes: Prokaryotes have only one DNA molecule (circular and not protected by nuclear envelope) and this DNA molecule is not bound up with histones. Thus, gene regulation in prokaryotes is unique. One of the best known pathways of gene recognition is the lac Operon, a regulatory pathway by which bacteria are able to produce the enzyme to digest lactose only when necessary (when lactose is present in the environment).
A. Operon and DNA Operon is a regulatory system that controls DNA transcription in prokaryotes. Operon contains a promoter (the specific nucleotide sequence that tells a cell to begin or start transcription), an operator (a segment of DNA that can be used to turn gene expression on or off) and more than one gene.
B. Actors in Lac Operon Regulatory or Repressor Protein – Binds with operator (segment of DNA) to prevent a gene from being transcribed. Substrate/Inducer – Interacts with protein to prevent it from adhering to DNA. Operator – Section of DNA Promoter – Section of DNA. Operon – The entire system.
gene 1 (codes for b-galactosidase) regulator gene transcription, translation repressor protein promoter (binding site for RNA polymerase) gene 2 (codes for premease) gene 3 (codes for transacetylase) operator (binding site for repressor) lactose operon Fig. 15. 4 a, p. 243
RNA polymerase m. RNA transcript translation into three polypeptide chains for three different enzymes lactose b-galactosidase permease trans-acetylase Fig. 15. 4 b, p. 243
Without Lactose: Describe the chain of events that occurs in a bacterial colony when no lactose is present.
With Lactose: Describe the chain of events that occur when lactose is present in a bacterial culture:
Positive Control: Glucose Digestion Bacterial cells digest glucose before lactose. If glucose is present, c. AMP is converted to ATP. c. AMP, when present, bonds to promoter region and helps RNA polymerase begin transcription of lactose digestion genes.
- Regulation of gene expression in bacteria
- Chapter 18 regulation of gene expression
- Chapter 18 regulation of gene expression
- "manuales delorenzo"
- Chapter 18 regulation of gene expression
- Chapter 18 regulation of gene expression
- Chapter 17: from gene to protein
- Section 4 gene regulation and mutation
- Section 4 gene regulation and mutation
- Gene regulation
- 12-5 gene regulation
- Prokaryotes vs eukaryotes gene regulation
- Section 12-1 dna answers
- What is gene regulation
- Gene regulation
- Differential gene regulation
- Operon positive and negative control
- Gene by gene test results
- Trp operon
- Gene expression: