Footprinting DNA-Protein InteractionsSlide 2Slide 3Slide 4Slide 5Positive Control of Lac OperonSlide 7CAP (catabolite activator protein), a.k.a. crp (cAMP receptor protein) geneLac Control RegionCAP-cAMP dimer interacts with the CTD of the a subunits of the RNAP CoreCAP-cAMP-CTD and CAP-cAMP-DNA complexes: CAP-cAMP bends the activator DNAWhy does the Lac Operon need an activator?Tryptophan operon: Regulation by attenuationSlide 14Slide 15Slide 16Slide 17Slide 18Footprinting DNA-Protein Interactions •Powerful and fairly rapid methods for mapping where and how proteins bind tightly to DNA•2 ways:1. DNAse I footprinting2. DMS footprinting1. Prepare end-labeled DNA.2. Bind protein.3. Mild digestion with DNAse I (randomly cleaves DS DNA on each strand)4. Separate DNA fragments on denaturing acrylamide gels.DNAse I FootprintingFig. 5.37aSample of a DNase I footprinting gel.FootprintSamples in lanes 2-4 had increasing amounts of the DNA-binding protein (lambda protein cII); lane 1 had none. Fig. 5.37bDimethylsulfate (DMS) Footprinting1. End-label DNA fragment.2. Bind protein.3. Treat with DMS, methylates purines.4. Partially cleave DNA at the methylated bases.5. Separate fragments on gel. Fig. 5.38aExample of DMS footprinting.Lanes 1 and 4 had no proteinLanes 2 and 3 had 2 different amounts of protein.Protein binding protects most purines from modification by DMS, but it can stimulate modification of those in regions where the helix is distorted or partially melted (indicated by *) . Fig. 5.38bPositive Control of Lac Operon •Catabolite Repression hypothesis–predicted that glucose would inhibit synthesis of other sugar metabolizing pathway enzymes (e.g., lactose pathway)•Partially right, its lack of activation instead of true repression –Cells respond to high glucose with lowered levels of cAMP and vice-versa–cAMP activates Lac operon via CAPcAMP ----->OCH2PAdenineOOOO- OHCRP bends -->cyclic 5’-3’ phosphodiester in cAMP- Stimulates Lac operon (lacZ production) as the co-activator for the CAP proteinglucose cAMPCAP (catabolite activator protein), a.k.a. crp (cAMP receptor protein) gene•CAP only active bound to cAMP•CAP-cAMP stimulates transcription by promoting formation of closed complex:RNAP + Pro ↔ RPc → RPo (RPc = Closed complex) Kb k2 (RPo = Open complex)Kb – equilibrium binding constant for formation of RPck2 – rate constant for formation of RPo•CAP-cAMP increases KbLac Control RegionFig. 7.16•CAP binds just upstream of promoter•L1 deletion mutant has constitutively low expressionCAP-cAMP dimer interacts with the CTD of the subunits of the RNAP CoreCTD - carboxy-terminal domainNTD - amino-terminal domainFig. 7.19CAP-cAMP is a dimer that binds to a short sequence (~20 bp) with dyad symmetry (activator site)αCTD binds DNA tooCAP-cAMP-CTD and CAP-cAMP-DNA complexes:CAP-cAMP bends the activator DNAFig 7.17Why does the Lac Operon need an activator?Not a very good core promoter: -35 -10TTTACAC ---------------- TATGTT (Lac) -35 -10TTGACAT --------------- TATAAT (consensus)CAP stimulates more than 100 promoters!Tryptophan operon: Regulation by attenuation•Genes for tryptophan synthesis•Repressed by end-product of pathway, Tryptophan•Repression requires Operator sequence, Aporepressor (trpR gene product) & Co-repressor (Tryptophan)- Operator is within the promoter•Also controlled by attenuation in the “Leader” region of the transcripttrp RP P/O L E D C B Atrp repressortrp RP P/O L E D C B Atrp repressortryptophanAttenuation-->Low [tryptophan], aporepressor doesn’t bind Operator, transcription on! High [tryptophan], repressor (aporep. + tryp.) binds operator, represses transcription!The trp operon is also controlled by attenuation. P P/O L E D C B AModerate trpLow trpAUG140 bp7000 bpAUGTranscription stops in the leader-attenuator “L” region when the [tryptophan] is elevated.The trp Leader peptide (14 aa) has two key tryptophan codons.The ribosome stalls at the trp codons when [tryptophan] is too low. The stalled ribosome prevents a downstream transcription terminator (IR + U-rich sequence) from forming.Fig. 7.31Fig. 7.32How is translation of the downstream genes achieved with the leader peptide there to stop the ribosomes?Biological advantage: • Repression alone decreases expression 70-fold• Repression plus attenuation decreases expression
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