Articles - 2jdu mentioned but not cited (1)
- Engineering of PA-IIL lectin from Pseudomonas aeruginosa - Unravelling the role of the specificity loop for sugar preference. Adam J, Pokorná M, Sabin C, Mitchell EP, Imberty A, Wimmerová M. BMC Struct Biol 7 36 (2007)
Reviews citing this publication (5)
- Binding sugars: from natural lectins to synthetic receptors and engineered neolectins. Arnaud J, Audfray A, Imberty A. Chem Soc Rev 42 4798-4813 (2013)
- Biomolecular Mechanisms of Pseudomonas aeruginosa and Escherichia coli Biofilm Formation. Laverty G, Gorman SP, Gilmore BF. Pathogens 3 596-632 (2014)
- A survey of the year 2007 literature on applications of isothermal titration calorimetry. Bjelić S, Jelesarov I. J Mol Recognit 21 289-312 (2008)
- Lectin engineering: the possible and the actual. Hirabayashi J, Arai R. Interface Focus 9 20180068 (2019)
- Resources and Methods for Engineering "Designer" Glycan-Binding Proteins. Warkentin R, Kwan DH. Molecules 26 E380 (2021)
Articles citing this publication (17)
- A simple strategy for the creation of a recombinant lectin microarray. Hsu KL, Gildersleeve JC, Mahal LK. Mol Biosyst 4 654-662 (2008)
- Burkholderia cenocepacia BC2L-C is a super lectin with dual specificity and proinflammatory activity. Sulák O, Cioci G, Lameignère E, Balloy V, Round A, Gutsche I, Malinovská L, Chignard M, Kosma P, Aubert DF, Marolda CL, Valvano MA, Wimmerová M, Imberty A. PLoS Pathog 7 e1002238 (2011)
- Structural basis of the affinity for oligomannosides and analogs displayed by BC2L-A, a Burkholderia cenocepacia soluble lectin. Lameignere E, Shiao TC, Roy R, Wimmerova M, Dubreuil F, Varrot A, Imberty A. Glycobiology 20 87-98 (2010)
- Nanoscale controlled architecture for development of ultrasensitive lectin biosensors applicable in glycomics. Kluková L, Bertók T, Kasák P, Tkac J. Anal Methods 6 4922-4931 (2014)
- Genomic Rearrangements and Functional Diversification of lecA and lecB Lectin-Coding Regions Impacting the Efficacy of Glycomimetics Directed against Pseudomonas aeruginosa. Boukerb AM, Decor A, Ribun S, Tabaroni R, Rousset A, Commin L, Buff S, Doléans-Jordheim A, Vidal S, Varrot A, Imberty A, Cournoyer B. Front Microbiol 7 811 (2016)
- A biophysical study with carbohydrate derivatives explains the molecular basis of monosaccharide selectivity of the Pseudomonas aeruginosa lectin LecB. Sommer R, Exner TE, Titz A. PLoS One 9 e112822 (2014)
- Homolog of the maize beta-glucosidase aggregating factor from sorghum is a jacalin-related GalNAc-specific lectin but lacks protein aggregating activity. Kittur FS, Yu HY, Bevan DR, Esen A. Glycobiology 19 277-287 (2009)
- PROCARB: A Database of Known and Modelled Carbohydrate-Binding Protein Structures with Sequence-Based Prediction Tools. Malik A, Firoz A, Jha V, Ahmad S. Adv Bioinformatics 436036 (2010)
- Computational prediction of monosaccharide binding free energies to lectins with linear interaction energy models. Mishra SK, Sund J, Åqvist J, Koča J. J Comput Chem 33 2340-2350 (2012)
- Orientation of GST-tagged lectins via in situ surface modification to create an expanded lectin microarray for glycomic analysis. Propheter DC, Mahal LK. Mol Biosyst 7 2114-2117 (2011)
- SMPLIP-Score: predicting ligand binding affinity from simple and interpretable on-the-fly interaction fingerprint pattern descriptors. Kumar S, Kim MH. J Cheminform 13 28 (2021)
- Importance of oligomerisation on Pseudomonas aeruginosaLectin-II binding affinity. In silico and in vitro mutagenesis. Wimmerová M, Mishra NK, Pokorná M, Koca J. J Mol Model 15 673-679 (2009)
- Mannose Conjugated Polymer Targeting P. aeruginosa Biofilms. Limqueco E, Passos Da Silva D, Reichhardt C, Su FY, Das D, Chen J, Srinivasan S, Convertine A, Skerrett SJ, Parsek MR, Stayton PS, Ratner DM. ACS Infect Dis 6 2866-2871 (2020)
- Microscopy examination of red blood and yeast cell agglutination induced by bacterial lectins. Mrázková J, Malinovská L, Wimmerová M. PLoS One 14 e0220318 (2019)
- A Fucosylated Lactose-Presenting Tetravalent Glycocluster Acting as a Mutual Ligand of Pseudomonas aeruginosa Lectins A (PA-IL) and B (PA-IIL)-Synthesis and Interaction Studies. Csávás M, Kalmár L, Szőke P, Farkas LB, Bécsi B, Kónya Z, Kerékgyártó J, Borbás A, Erdődi F, Kövér KE. Int J Mol Sci 23 16194 (2022)
- Glycocodon theory--the first table of glycocodons. Nahalka J. J Theor Biol 307 193-204 (2012)
- Engineering the Pseudomonas aeruginosa II lectin: designing mutants with changed affinity and specificity. Kříž Z, Adam J, Mrázková J, Zotos P, Chatzipavlou T, Wimmerová M, Koča J. J Comput Aided Mol Des 28 951-960 (2014)
Related citations provided by authors (3)
- Structural basis for oligosaccharide-mediated adhesion of Pseudomonas aeruginosa in the lungs of cystic fibrosis patients.. Mitchell E, Houles C, Sudakevitz D, Wimmerova M, Gautier C, Pérez S, Wu AM, Gilboa-Garber N, Imberty A Nat Struct Biol 9 918-21 (2002)
- Binding of different monosaccharides by lectin PA-IIL from Pseudomonas aeruginosa: thermodynamics data correlated with X-ray structures.. Sabin C, Mitchell EP, Pokorná M, Gautier C, Utille JP, Wimmerová M, Imberty A FEBS Lett 580 982-7 (2006)
- Unusual entropy-driven affinity of Chromobacterium violaceum lectin CV-IIL toward fucose and mannose.. Pokorná M, Cioci G, Perret S, Rebuffet E, Kostlánová N, Adam J, Gilboa-Garber N, Mitchell EP, Imberty A, Wimmerová M Biochemistry 45 7501-10 (2006)