The DNA-dependent RNA polymerases induce specific conformational changes in the promoter DNA during transcription initiation. using T7 phage and mitochondrial transcriptional systems as examples. CK-1827452 (a) Fluorescence anisotropy is lower when the fluorophore-labeled DNA is not bound to RNAP and increases when the DNA binds to RNAP because the larger complex does … 6.2 Fluorophore-Labeled DNA Substrates Fluorophore-labeled oligodeoxynucleotides can be purchased with a wide selection of fluorophores which absorb and fluoresce above the absorbance maxima of the DNA and protein (>400 nm) thus minimizing background CK-1827452 fluorescence and inner-filter effects. The parameters that need to be considered for designing the DNA substrates are as follows: (1) the preferred length of the DNA is the minimal promoter length that binds RNAP with 1:1 stoichiometry (2) the sequence at the DNA ends such as GC bp that quench the fluorescence of the fluorophore or stack the fluorophore  (3) the extinction coefficient and quantum yield of the fluorophore (4) the length of the linker between the fluorophore and the DNA and (5) the distance between the fluorophore and the RNAP binding site. The fluorophore is positioned away from the RNAP binding site to avoid direct interactions . Labeled oligodeoxynucleotides are purified by denaturing PAGE under dark conditions . The concentration of single-stranded (ss) DNA is usually calculated from its absorbance at 260 nm and the extinction coefficient including the fluorophore. During annealing to prepare the double-stranded (ds) DNA the unlabeled strand should be kept in slight extra over the labeled strand (1.1: 1 ratio) to ensure that there is no free labeled single strand that could contribute to higher background CK-1827452 fluorescence. Alternatively the dsDNA is usually purified or the correct annealing ratio is determined by titrating the two strands resolving dsDNA CK-1827452 from your ssDNA by native PAGE [18 14 When using fluorescently labeled oligonucleotides it is important to check using competition methods  that this fluorophore does not greatly perturb the interactions of the DNA with the RNAP. 6.2 Fluorescence Anisotropy to Measure the Equilibrium Dissociation Constant (and not due to an increase in and can also be used to determine of RNAP-DNA complex fluorescence anisotropy is recorded after mixing fluorescently labeled promoter DNA with RNAP in a stopped-flow instrument (Fig. 6.2c). Here automated motor-driven syringes help quick combining of RNAP with DNA at a constant temperature with continuous fluorescence emission measurement at a particular wavelength. The anisotropy changes are measured as a function of time after mixing at constant DNA and various RNAP concentrations under pseudo-first-order conditions (where the RNAP concentration is usually in tenfold extra over the labeled DNA). Multiple time traces (at least 7-8 shots) are averaged for each RNAP concentration and the averaged observed anisotropy (is the switch in anisotropy and is time. Representative time traces of increase in anisotropy of TAMRA-labeled promoter DNA upon addition of Rpo41 and Rpo41-Mtf1 are shown (Fig. 6.2d) . The observed rates increase linearly with increase in Rpo41 and CK-1827452 Rpo41-Mtf1 concentrations (Fig. 6.2e) indicating that binding of RNAP to promoter DNA is a single-step process (Plan 6.1). Therefore the dependency can be fit to a linear equation (Eq. 6.5) to obtain the ((and the is slow then it is best determined more directly from chase experiments (Sect. 220.127.116.11). Such measurements with Rpo41 and Rpo41-Mtf1 showed that each binds to the promoter DNA with comparable (2?2.5 × 108 M?1 s?1) which indicates that this transcription Rabbit polyclonal to Transmembrane protein 132B factor Mtf1 does not impact the kinetics of complex formation . Thus the lower of 1.9 × 108 M?1 s?1 and an open complex with a pre-melted promoter with similar of 3 × 108 M?1 s?1 . Thus the lower and are obtained then the ratio provides an independent measure of the equilibrium dissociation constant for the RNAP-DNA complex which should match the of the CK-1827452 RNAP-DNA complex is directly measured using a chase experiment where a preformed complex of RNAP and fluorescently labeled DNA is mixed with a large molar excess (10- to.