Solution structure of the region 4 of sigma(70) subunit of Escherichia coli RNA polymerase, whose 4.2 subregion is involved in specific recognition of the -35 element of cognate promoters, has not been yet studied. Using multinuclear NMR spectroscopy, we have assigned recently all the backbone and aliphatic side-chain (13)C resonances for a recombinant His(6)-tagged protein containing the whole region 4 and a part of region 3.2 of sigma(70) in aqueous solution at pH 2.8 (Poznański, J., Zhukov, I., Bolewska, K., and Wierzchowski, K. L. (2001) J. Biomol. NMR 20, 181-2). The protein proved to be sufficiently soluble and did not aggregate only in the protonated state. In this paper, the structure and dynamics of this state at pH 2.8 have been extensively examined using CD and NMR spectroscopy. Both analysis of CD spectra and NMR observables (secondary chemical shifts of the (13)Calpha, (13)CO, and (1)Halpha nuclei and of vicinal (3)J(HNH)(alpha) coupling constants) indicated that a significant amount of helical structure remained in the protonated protein. The amount of this structure increased upon deprotonation of carboxylic amino acids, as shown by pH titration CD experiments. 2,2,2-Trifluoroethanol induced an even more extensive build up of this structure. Distribution along the protein sequence of the secondary shifts and (3)J(HNH)(alpha) couplings demonstrated partition of the helical secondary structure into three helices located similarly as in the crystal structures of the homologous region 4 of the sigma(A) subunit of Thermus aquaticus RNA polymerase (Campbell, E. A., Muzzin, O., Chlenov, M., Sun, J. L., Olson, A., Weinman, O., Trester-Zedlitz, M. L., and Darst, S. A. (2002) Mol. Cell 9, 527-39) and sigma(70) of the Thermus thermophilus RNA polymerase (Vassylyev, D. G., Sekine, S., Laptenko, O., Lee, J., Vassylyeva, M. N., Borukhov, S., and Yokoyama, S. (2002) Nature 417, 712-9.). Spectral density analysis of NMR relaxation parameters, R(1) and R(2), and [(1)H]-(15)N heteronuclear NOEs indicated that backbone fluctuations in the whole region embracing the three helices and intervening nonhelical sequences are severely restricted on the nanosecond time scale as compared with the N- and C-terminal protein segments. Inspection of the side-chain contacts stabilizing the crystal structures well explains the observed folding and solution properties of sigma(70)(4) protein in its protonated state.