Biosynthesis of the beta and beta' subunits of RNA polymerase in Escherichia coli

The amounts of the β and β′ subunits of the DNA-dependent RNA polymerase relative to the amount of total protein synthesized have been determined under a number of growth conditions in two strains of Escherichia coli. The results of these measurements have been expressed as the relative rate of synthesis of core RNA polymerase, α_p, assuming the four constituent subunits (2α, 1β and 1β′) to be synthesized in equivalent amounts.This quantity, α_p, was found not to vary greatly with the growth rate μ. For glucose-grown cells of E. coli B/r (μ = 1.5 doublings/h) α_p = 1.4%, corresponding to about 7000 molecules of core RNA polymerase per cell. For slowgrowing cells the value obtained for α_p is lower and for fast-growing cells somewhat 3 higher. The comparison of these values with the number of RNA polymerase molecules estimated to be actively engaged in RNA synthesis indicates that both slow- and fast-growing cells contain a surplus of RNA polymerase, if the catalytic unit is assumed to be the monomer of core RNA polymerase.In addition to the measurements of cells during balanced growth at various rates, α_p has been determined during the transition from one growth rate to another and during synchronous growth. During a shift-up the rate of synthesis of polymerase follows closely the rate of total protein synthesis, α_p being nearly constant for a period of twenty minutes after the shift. In a synchronously dividing culture of E. coli B/r, α_p was seen to be fairly constant during two cycles of synchronous division. It appears that α_p is rather insensitive to the effect of gene doubling during the cell cycle.