02219nas a2200241 4500008004100000022001400041245012000055210006900175260000900244300001200253490000800265520138800273653001701661653001901678653001101697653001901708653002301727653002401750100002801774700002101802700002501823856012901848 2019 eng d a0003-986100aInvestigation of structural and saccharide binding transitions of Bauhinia purpurea and Wisteria floribunda lectins0 aInvestigation of structural and saccharide binding transitions o cFEB a134-1420 v6623 a
Two novel medicinally important legume lectins from Bauhinia purpurea (BPL) and Wisteria floribunda (WFL) possessing extended sugar binding site were investigated for functional and conformational transitions using biochemical and biophysical techniques as well as bioinformatical tools. Homology model of BPL was constructed using the Schrodinger suite and docked with N-acetyl galactosamine and T-antigen disaccharide (Gal beta 1-3GalNAc alpha O-Me). The longer loop D in the structure of WFL compared to that in BPL was found to be responsible for its specificity to LacdiNac (beta-D-GalNAc-[1 -> 4]-DGlcNAc) over Gal beta 1-3GalNAc. BPL remained functionally stable up to 40 degrees C whereas WFL remained stable upto 70 degrees C indicating the strength of the sugar binding site geometry. Both the lectins showed intense but non-specific secondary structure in the range of 65-90 degrees C. WFL showed rapid aggregation above 80 degrees C as indicated by light scattering intensity. The lectins showed simultaneous dissociation and multistate unfolding in the vicinity of GdnHCl. At pH 1.0, both the lectins exhibited molten globule like structures, which were characterized further and were found to respond in a different way towards denaturants. The results have provided valuable insights into the molecular basis of the activity and stability of the two lectins.
10aConformation10aHomology model10aLectin10aMolten globule10asaccharide binding10aThermal aggregation1 aAgrawal, Sanskruthi, B.1 aGhosh, Deepanjan1 aGaikwad, Sushama, M. uhttp://library.ncl.res.in/content/investigation-structural-and-saccharide-binding-transitions-bauhinia-purpurea-and-wisteria