| scholarly article | Q13442814 |
| P50 | author | Michael Fairhead | Q42314527 |
| Denis Krndija | Q79976800 | ||
| P2093 | author name string | Mark Howarth | |
| Ed D Lowe | |||
| P2860 | cites work | Peptide tag forming a rapid covalent bond to a protein, through engineering a bacterial adhesin | Q24610696 |
| Bioorthogonal chemistry: fishing for selectivity in a sea of functionality | Q24629024 | ||
| A streptavidin variant with slower biotin dissociation and increased mechanostability | Q24630310 | ||
| A monovalent streptavidin with a single femtomolar biotin binding site | Q24645981 | ||
| MolProbity: all-atom structure validation for macromolecular crystallography | Q24649111 | ||
| Electrophilic affibodies forming covalent bonds to protein targets | Q24651974 | ||
| Rhizavidin from Rhizobium etli: the first natural dimer in the avidin protein family | Q24654678 | ||
| Monovalent, reduced-size quantum dots for imaging receptors on living cells | Q24656938 | ||
| A minimal peptide substrate in biotin holoenzyme synthetase-catalyzed biotinylation | Q24672668 | ||
| Tamavidins--novel avidin-like biotin-binding proteins from the Tamogitake mushroom | Q27653625 | ||
| How the biotin–streptavidin interaction was made even stronger: investigation via crystallography and a chimaeric tetramer | Q27666604 | ||
| Streptavidin and its biotin complex at atomic resolution | Q27673475 | ||
| Structural Adaptation of a Thermostable Biotin-binding Protein in a Psychrophilic Environment | Q27678441 | ||
| 1.85 A structure of anti-fluorescein 4-4-20 Fab | Q27732718 | ||
| Coot: model-building tools for molecular graphics | Q27860505 | ||
| Towards automated crystallographic structure refinement with phenix.refine | Q27860678 | ||
| Avidin | Q28292166 | ||
| Presenting your structures: the CCP4mg molecular-graphics software | Q29547443 | ||
| Recombinant core streptavidins. A minimum-sized core streptavidin has enhanced structural stability and higher accessibility to biotinylated macromolecules. | Q30192913 | ||
| Site-directed, Ligase-Independent Mutagenesis (SLIM): a single-tube methodology approaching 100% efficiency in 4 h. | Q33209678 | ||
| The contribution of individual interchain interactions to the stabilization of the T and R states of Escherichia coli aspartate transcarbamoylase | Q33907815 | ||
| Streptavidin-biotin binding energetics | Q33910294 | ||
| Genetically engineered avidins and streptavidins. | Q34000726 | ||
| The kinetics of two-dimensional TCR and pMHC interactions determine T-cell responsiveness. | Q34078621 | ||
| Trans-suppression of misfolding in an amyloid disease. | Q34092993 | ||
| Generation of protein lattices by fusing proteins with matching rotational symmetry | Q34205140 | ||
| Engineered streptavidin monomer and dimer with improved stability and function. | Q34213613 | ||
| New currency for old rope: from coiled-coil assemblies to α-helical barrels. | Q34263399 | ||
| DNA-templated carbon nanotube field-effect transistor | Q34278263 | ||
| Graphical tools for macromolecular crystallography in PHENIX | Q34295357 | ||
| Engineering soluble monomeric streptavidin with reversible biotin binding capability | Q34412508 | ||
| Nanohedra: using symmetry to design self assembling protein cages, layers, crystals, and filaments | Q34446725 | ||
| Biotin-4-fluorescein based fluorescence quenching assay for determination of biotin binding capacity of streptavidin conjugated quantum dots | Q34691197 | ||
| Designing supramolecular protein assemblies | Q34774283 | ||
| Pretargeted radioimmunotherapy using genetically engineered antibody-streptavidin fusion proteins for treatment of non-hodgkin lymphoma | Q35589582 | ||
| HIT: a versatile proteomics platform for multianalyte phenotyping of cytokines, intracellular proteins and surface molecules | Q35906579 | ||
| Engineering subunit association of multisubunit proteins: a dimeric streptavidin. | Q36180294 | ||
| DOLORS: versatile strategy for internal labeling and domain localization in electron microscopy | Q36502340 | ||
| Imaging proteins in live mammalian cells with biotin ligase and monovalent streptavidin | Q37164001 | ||
| Nanomechanics of streptavidin hubs for molecular materials | Q37334635 | ||
| MHC-peptide tetramers for the analysis of antigen-specific T cells | Q37771944 | ||
| How to obtain labeled proteins and what to do with them | Q37804576 | ||
| Properties of Bacillus cereus hemolysin II: a heptameric transmembrane pore | Q38270075 | ||
| Heterotetramers formed by an S-layer-streptavidin fusion protein and core-streptavidin as a nanoarrayed template for biochip development | Q38306185 | ||
| Self-assembly of DNA-streptavidin nanostructures and their use as reagents in immuno-PCR. | Q38318651 | ||
| The MORPHEUS protein crystallization screen | Q40010483 | ||
| Tetravalent single-chain avidin: from subunits to protein domains via circularly permuted avidins | Q40678610 | ||
| Avidin. 5. Quenching of fluorescence by dinitrophenyl groups | Q41760753 | ||
| Liposomes on a Streptavidin Crystal: A System to Study Membrane Proteins by Cryo-EM | Q41893235 | ||
| Quantum dot targeting with lipoic acid ligase and HaloTag for single-molecule imaging on living cells | Q42127438 | ||
| Protein unfolding with a steric trap | Q42155956 | ||
| (Strept)avidin as host for biotinylated coordination complexes: stability, chiral discrimination, and cooperativity | Q42163751 | ||
| Streptavidin 2D crystal substrates for visualizing biomolecular processes by atomic force microscopy | Q42183370 | ||
| HaloTag: a novel protein labeling technology for cell imaging and protein analysis | Q42809086 | ||
| Orthogonal protein decoration of DNA origami | Q42843917 | ||
| Self-controlled monofunctionalization of quantum dots for multiplexed protein tracking in live cells. | Q43078654 | ||
| Ultrafast electron transfer in the complex between fluorescein and a cognate engineered lipocalin protein, a so-called anticalin | Q43921351 | ||
| Smart polymer-streptavidin conjugates | Q44936659 | ||
| Novel avidin-like protein from a root nodule symbiotic bacterium, Bradyrhizobium japonicum. | Q45254066 | ||
| Evolution of fluorescein as a platform for finely tunable fluorescence probes | Q46409193 | ||
| Engineering a novel, stable dimeric streptavidin with lower isoelectric point | Q48084499 | ||
| Chemically programmed supramolecular assembly of hemoprotein and streptavidin with alternating alignment | Q50253048 | ||
| Selection of affibody molecules to the ligand-binding site of the insulin-like growth factor-1 receptor | Q56893298 | ||
| Stable, high-affinity streptavidin monomer for protein labeling and monovalent biotin detection | Q59319682 | ||
| Avidin and streptavidin | Q68891815 | ||
| Cooperative biotin binding by streptavidin. Electrophoretic behavior and subunit association of streptavidin in the presence of 6 M urea | Q68929497 | ||
| Sodium dodecyl sulfate-polyacrylamide gel electrophoretic method for assessing the quaternary state and comparative thermostability of avidin and streptavidin | Q71692197 | ||
| Noncooperativity of biotin binding to tetrameric streptavidin | Q71715201 | ||
| Molecular engineering of streptavidin | Q71869134 | ||
| The SA/rABC technique: a new ABC procedure for detection of antigens at increased sensitivity | Q72412389 | ||
| Accurate measurement of avidin and streptavidin in crude biofluids with a new, optimized biotin-fluorescein conjugate | Q74615806 | ||
| Rapid estimation of avidin and streptavidin by fluorescence quenching or fluorescence polarization | Q74615807 | ||
| Generation of epitope-tagged proteins by inverse PCR mutagenesis | Q77777265 | ||
| BirA enzyme: production and application in the study of membrane receptor-ligand interactions by site-specific biotinylation | Q77789560 | ||
| Assessment of small ligand-protein interactions by electrophoretic mobility shift assay using DNA-modified ligand as a sensing probe | Q79722129 | ||
| Protein supramolecular complex formation by site-specific avidin-biotin interactions | Q85299388 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 199-214 | |
| P577 | publication date | 2013-09-19 | |
| P1433 | published in | Journal of Molecular Biology | Q925779 |
| P1476 | title | Plug-and-play pairing via defined divalent streptavidins | |
| P478 | volume | 426 |
| Q64069726 | A bio-coupling approach using a dextran-binding domain to immobilize an engineered streptavidin to Sephadex for easy preparation of affinity matrix |
| Q91800445 | A generic cell surface ligand system for studying cell-cell recognition |
| Q41461298 | Amine Landscaping to Maximize Protein-Dye Fluorescence and Ultrastable Protein-Ligand Interaction. |
| Q42314473 | Controlling Multivalent Binding through Surface Chemistry: Model Study on Streptavidin |
| Q57876255 | Dynamics of a Molecular Plug Docked onto a Solid-State Nanopore |
| Q35787955 | Engineering Streptavidin and a Streptavidin-Binding Peptide with Infinite Binding Affinity and Reversible Binding Capability: Purification of a Tagged Recombinant Protein to High Purity via Affinity-Driven Thiol Coupling |
| Q27330372 | Mapping the dynamics and nanoscale organization of synaptic adhesion proteins using monomeric streptavidin |
| Q92340005 | Molecular basis of chromatin remodeling by Rhp26, a yeast CSB ortholog |
| Q47158104 | Monodisperse measurement of the biotin-streptavidin interaction strength in a well-defined pulling geometry |
| Q57255889 | Monomeric TCRs drive T cell antigen recognition |
| Q55668744 | New Routes and Opportunities for Modular Construction of Particulate Vaccines: Stick, Click, and Glue. |
| Q42429669 | Quantifying mammalian genomic DNA hydroxymethylcytosine content using solid-state nanopores |
| Q30379986 | Quantifying the stabilizing effects of protein-ligand interactions in the gas phase |
| Q36905836 | Quantum dots implementation as a label for analysis of early stages of EGF receptor endocytosis: a comparative study on cultured cells |
| Q40476086 | RASGRP1 deficiency causes immunodeficiency with impaired cytoskeletal dynamics. |
| Q37723138 | Sequence-Specific Recognition of MicroRNAs and Other Short Nucleic Acids with Solid-State Nanopores |
| Q34433158 | SpyAvidin hubs enable precise and ultrastable orthogonal nanoassembly |
| Q92932991 | Star-like Supramolecular Complexes of Reducing-End-Functionalized Cellulose Nanocrystals |
| Q64238907 | Streptavidin cooperative allosterism upon binding biotin observed by differential changes in intrinsic fluorescence |
| Q64924805 | Streptavidin interfacing as a general strategy to localize fluorescent membrane tension probes in cells. |
| Q37522712 | The Crystal Structure of Monovalent Streptavidin |
| Q91555690 | Transmembrane protein rotaxanes reveal kinetic traps in the refolding of translocated substrates |
| Q100454872 | Unscrambling fluorophore blinking for comprehensive cluster detection via photoactivated localization microscopy |
Search more.