This search combines search strings from the content search (i.e. "Full Text", "Author", "Title", "Abstract", or "Keywords") with "Article Type" and "Publication Date Range" using the AND operator.
Beilstein J. Org. Chem. 2020, 16, 2448–2468, doi:10.3762/bjoc.16.199
Graphical Abstract
Figure 1: Levels of representation of glycans: from sketching to virtual reality.
Figure 2: Depiction of lactose by various glycan sketching tools.
Figure 3: Examples of different glycan structure text formats for the same glycan. Data in these formats are ...
Figure 4: From top to bottom: SugarSketcher [36] interface with a glycan structure drawn using the “Quick Mode”. ...
Figure 5: GlyTouCan [38] interface allows to search for glycans structures in the database. Data contained in Gly...
Figure 6: From top to bottom: GlycanBuilder2 [46] interface with a glycan image in SNFG notation. Original Glycan...
Figure 7: From top to bottom: DrawGlycan-SNFG [51] web interface with a glycan text input and the resulting image...
Figure 8: From top to bottom: Glyco.me SugarBuilder [56] interface with a glycan structure showing options to def...
Figure 9: From top to bottom: Sweet II [62] web-interface with a text input to generate a 3D model. GLYCAM Carboh...
Figure 10: PolysGlycanBuilder [77] interface illustrating glycan drawing using SNFG symbols. The glycan can be fur...
Figure 11: From top to bottom: 3D-SNFG representation of glycan using 3D-SNFG script integrated VMD [79]. LiteMol [80]...
Beilstein J. Org. Chem. 2017, 13, 1145–1167, doi:10.3762/bjoc.13.114
Figure 1: Complementarity of synchrotron radiation and neutron sources to investigate the structure of matter....
Figure 2: A representation of a synchrotron storage ring, including linear accelerator, booster and two beaml...
Figure 3: Schematic representation of a sector of a storage ring. Bending magnets and insertion devices are a...
Figure 4: Structural features of the resin glycoside tricolorin A. (a) Extracted from the Mexican variety of ...
Figure 5: Powder diffractogram measured on a synthetic pentasaccharide from heparin, at ESRF beamline ID31, λ...
Figure 6: Three dimensional ribbon representation of a heavily N-glycosylated Aspergilllus sp. Family GH3 β-D...
Figure 7: Histogram of the number of deposited crystal structures of glycan-binding proteins deposited over t...
Figure 8: Ribbon diagram representations of prototypical members of the GT-A and GT-B super-family fold, resp...
Figure 9: Representation of the FUT1 structure determined in complex with the acceptor (carbon atoms in green...
Figure 10: Representation of the seven folds most commonly found in glycoside hydrolases. From the classificat...
Figure 11: The multivalent carbohydrate binding features of lectins from X-ray structures. (a) Monovalent. E-s...
Figure 12: Three-dimensional depiction of the ternary complex formed by a heparin mimetic in interaction with ...
Figure 13: 3D representation of different sugar transporter structures: (left to right, top to down) lactose p...
Figure 14: Kinetic crystallography. Protein crystals are soaked with the cage compound (Step 1) followed by fl...
Figure 15: Reconstruction of the full three-dimensional structure of the soluble lectin (BC2L-C) from the oppo...
Figure 16: Characterization by synchrotron X-ray reflectometry of the transverse structures of a model membran...
Figure 17: Complementary use of X-ray synchrotron and neutron fiber diffraction to unravel the three-dimension...
Figure 18: Scanning electron micrograph of high-quality micrometer-sized A-amylose microcrystals grown from sh...
Figure 19: Cartography of distribution and orientation of cellulose in wood using a 3 µm X-ray beam. The scann...
Figure 20: Structural micro-diffraction scanning of a starch granule from Phajus grandifolius with dimensions ...