Articles - 1fip mentioned but not cited (4)
- Towards accurate residue-residue hydrophobic contact prediction for alpha helical proteins via integer linear optimization. Rajgaria R, McAllister SR, Floudas CA. Proteins 74 929-947 (2009)
- Structural interface parameters are discriminatory in recognising near-native poses of protein-protein interactions. Malhotra S, Sankar K, Sowdhamini R. PLoS One 9 e80255 (2014)
- The role of the local environment of engineered Tyr to Trp substitutions for probing the denaturation mechanism of FIS. Muñiz VA, Srinivasan S, Boswell SA, Meinhold DW, Childs T, Osuna R, Colón W. Protein Sci 20 302-312 (2011)
- A bacteriophage mimic of the bacterial nucleoid-associated protein Fis. Chakraborti S, Balakrishnan D, Trotter AJ, Gittens WH, Yang AWH, Jolma A, Paterson JR, Świątek S, Plewka J, Curtis FA, Bowers LY, Pålsson LO, Hughes TR, Taube M, Kozak M, Heddle JG, Sharples GJ. Biochem J 477 1345-1362 (2020)
Reviews citing this publication (1)
- Location and nature of the residues important for ligand recognition in G-protein coupled receptors. Bywater RP. J Mol Recognit 18 60-72 (2005)
Articles citing this publication (13)
- Solution structure of the DNA-binding domain of NtrC with three alanine substitutions. Pelton JG, Kustu S, Wemmer DE. J Mol Biol 292 1095-1110 (1999)
- Structural insights into the stability and flexibility of unusual erythroid spectrin repeats. Kusunoki H, MacDonald RI, Mondragón A. Structure 12 645-656 (2004)
- The transactivation region of the fis protein that controls site-specific DNA inversion contains extended mobile beta-hairpin arms. Safo MK, Yang WZ, Corselli L, Cramton SE, Yuan HS, Johnson RC. EMBO J 16 6860-6873 (1997)
- A sequence and structural study of transmembrane helices. Bywater RP, Thomas D, Vriend G. J Comput Aided Mol Des 15 533-552 (2001)
- Folding mechanism of FIS, the intertwined, dimeric factor for inversion stimulation. Topping TB, Hoch DA, Gloss LM. J Mol Biol 335 1065-1081 (2004)
- Common and variable contributions of Fis residues to high-affinity binding at different DNA sequences. Feldman-Cohen LS, Shao Y, Meinhold D, Miller C, Colón W, Osuna R. J Bacteriol 188 2081-2095 (2006)
- Conversion of a beta-strand to an alpha-helix induced by a single-site mutation observed in the crystal structure of Fis mutant Pro26Ala. Yang WZ, Ko TP, Corselli L, Johnson RC, Yuan HS. Protein Sci 7 1875-1883 (1998)
- Proline in alpha-helical kink is required for folding kinetics but not for kinked structure, function, or stability of heat shock transcription factor. Hardy JA, Nelson HC. Protein Sci 9 2128-2141 (2000)
- Structural mimicry of proline kinks: tertiary packing interactions support local structural distortions. Ceruso MA, Weinstein H. J Mol Biol 318 1237-1249 (2002)
- Thermodynamics of replacing an alpha-helical Pro residue in the P40S mutant of Escherichia coli thioredoxin. Chakrabarti A, Srivastava S, Swaminathan CP, Surolia A, Varadarajan R. Protein Sci 8 2455-2459 (1999)
- DNA recognition by a σ(54) transcriptional activator from Aquifex aeolicus. Vidangos NK, Heideker J, Lyubimov A, Lamers M, Huo Y, Pelton JG, Ton J, Gralla J, Berger J, Wemmer DE. J Mol Biol 426 3553-3568 (2014)
- Proline residues in two tightly coupled helices of the sulphate transporter, SHST1, are important for sulphate transport. Shelden MC, Loughlin P, Tierney ML, Howitt SM. Biochem J 356 589-594 (2001)
- Thermodynamic effects of replacements of Pro residues in helix interiors of maltose-binding protein. Prajapati RS, Lingaraju GM, Bacchawat K, Surolia A, Varadarajan R. Proteins 53 863-871 (2003)