Refined 1.8 A crystal structure of the lambda repressor-operator complex.Beamer, L.J., Pabo, C.O.
(1992) J Mol Biol 227: 177-196
- PubMed: 1387915
- DOI: 10.1016/0022-2836(92)90690-l
- Primary Citation of Related Structures:
- PubMed Abstract:
- The DNA Binding Arm of a Lambda Repressor: Critical Contacts from a Flexible Region
Clarke, N.D., Beamer, L.J., Goldberg, H.R., Berkower, C., Pabo, C.O.
(1991) Science 254: 267
- Conserved Residues Make Similar Contacts in Two Repressor-Operator Complexes
Pabo, C.O., Aggarwal, A.K., Jordan, S.R., Beamer, L.J., Obeysekare, U.R., Harrison, S.C.
(1990) Science 247: 1210
- Comparison of the Structures of Cro and Lambda Repressor Proteins from Bacteriophage Lambda
Ohlendorf, D.H., Anderson, W.F., Lewis, M., Pabo, C.O., Matthews, B.W.
(1983) J Mol Biol 169: 757
- Structure of the Operator-Binding Domain of Bacteriophage Lambda Repressor. Implications for DNA Recognition and Gene Regulation
Lewis, M., Jeffrey, A., Wang, J., Ladner, R., Ptashne, M., Pabo, C.O.
(1983) Cold Spring Harb Symp Quant Biol 47: 435
- Homology Among DNA-Binding Proteins Suggests Use of a Conserved Super-Secondary Structure
Sauer, R.T., Yocum, R.R., Doolittle, R.F., Lewis, M., Pabo, C.O.
(1982) Nature 298: 447
- The Operator-Binding Domain of Lambda Repressor. Structure and DNA Recognition
Pabo, C.O., Lewis, M.
(1982) Nature 298: 443
- The N-Terminal Arms of Lambda Repressor Wrap Around the Operator DNA
Pabo, C.O., Krovatin, W., Jeffrey, A., Sauer, R.T.
(1982) Nature 298: 441
The crystal structure of the lambda repressor-operator complex has been refined to an R-factor of 18.9% at 1.8 A resolution. This refinement, using data collected at low temperature, has revealed the structure of the N-terminal arm and shows that the interactions of repressor with the two halves of the pseudo-symmetric operator site are significantly different ...
The crystal structure of the lambda repressor-operator complex has been refined to an R-factor of 18.9% at 1.8 A resolution. This refinement, using data collected at low temperature, has revealed the structure of the N-terminal arm and shows that the interactions of repressor with the two halves of the pseudo-symmetric operator site are significantly different. The two halves of the complex are most similar near the outer edge of the operator site (in a region where the lambda and 434 repressors make similar contacts), but they become increasingly different toward the center of the operator. There are striking differences near the center of the site where it appears that the arm makes significant contacts to only one half of the DNA site. This suggested a new way of aligning the operator sites in phage lambda. The high resolution structure confirms many of the previously noted features of the complex, but also reveals a number of new protein-DNA contacts. It also gives a better view of the extensive H-bonding networks that couple contacts made by different residues and different regions of the protein, and reveals important new details about the helix-turn-helix (HTH) region, and the positions of many water molecules in the complex.
Howard Hughes Medical Institute, Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, MD 21205.