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1ETO

THE CRYSTAL STRUCTURE OF E. COLI FIS MUTANT R71L

Summary for 1ETO
Entry DOI10.2210/pdb1eto/pdb
Related1ETK 1ETQ 1ETV 1ETW 1ETX 1ETY 1F36 1FIP 3FIS
DescriptorFACTOR FOR INVERSION STIMULATION (2 entities in total)
Functional Keywordstranscriptional activation region, dna-binding protein, transcription activator
Biological sourceEscherichia coli
Total number of polymer chains2
Total formula weight22417.76
Authors
Cheng, Y.S.,Yang, W.Z.,Johnson, R.C.,Yuan, H.S. (deposition date: 2000-04-13, release date: 2000-10-11, Last modification date: 2024-04-03)
Primary citationCheng, Y.S.,Yang, W.Z.,Johnson, R.C.,Yuan, H.S.
Structural analysis of the transcriptional activation on Fis: crystal structures of six Fis mutants with different activation properties.
J.Mol.Biol., 302:1139-1151, 2000
Cited by
PubMed Abstract: The Fis protein regulates gene expression in Escherichia coli by activating or repressing transcription of a variety of genes. Fis can activate transcription when bound to DNA upstream of the RNA-polymerase-binding site, such as in the rrnB P1 promoter, or when bound to a site overlapping the -35 RNA polymerase binding site, such as in the proP P2 promoter. It has been suggested that transcriptional activation in both promoters results from interactions between specific amino acids within a turn connecting the B and C helices (the BC turn) in Fis and the C-terminal domain of the alpha-subunit of RNA polymerase (alphaCTD of RNAP). Here, crystal structures of six Fis BC turn mutants with different transcriptional activation properties, Q68A, R71Y, R71L, G72A, G72D and Q74A, were determined at 1.9 to 2.8 A resolution. Two of these mutants, R71Y and R71L, crystallized in unit cells which are different from that of wild-type Fis, and the structure of R71L offers the most complete Fis model to date in that the extended structure of the N-terminal region is revealed. The BC turn in all of these mutant structures remains in a nearly identical gamma gamma beta-turn conformation as present in wild-type Fis. Analyses of the molecular surfaces of the transactivation region of the mutants suggest that several residues in or near the BC turn, including Gln68, Arg71, Gly72 and Gln74, form a ridge that could contact the alphaCTD of RNAP on one side. The structures and biochemical properties of the mutants suggest that Arg71 is the most critical residue for contacting RNAP within this ridge and that the glycine at position 72 helps to stabilize the structure.
PubMed: 11183780
DOI: 10.1006/jmbi.2000.4123
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.9 Å)
Structure validation

226707

數據於2024-10-30公開中

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