| P50 | author | Daniel P Raleigh | Q56423022 |
| | Vadim Patsalo | Q59601192 |
| | D F Green | Q73676610 |
| P2093 | author name string | David F Green | |
| P2860 | cites work | Printed covalent glycan array for ligand profiling of diverse glycan binding proteins | Q24559665 |
| | How frequent are correlated changes in families of protein sequences? | Q24562368 |
| | Sequence logos: a new way to display consensus sequences | Q24598387 |
| | The Pfam protein families database | Q24644670 |
| | CHARMM: the biomolecular simulation program | Q24658108 |
| | Potent anti-influenza activity of cyanovirin-N and interactions with viral hemagglutinin | Q24680353 |
| | Crystal structure of cyanovirin-N, a potent HIV-inactivating protein, shows unexpected domain swapping | Q27618183 |
| | Solution structure of a cyanovirin-N:Man alpha 1-2Man alpha complex: structural basis for high-affinity carbohydrate-mediated binding to gp120 | Q27635270 |
| | The domain-swapped dimer of cyanovirin-N is in a metastable folded state: reconciliation of X-ray and NMR structures | Q27639001 |
| | A monovalent mutant of cyanovirin-N provides insight into the role of multiple interactions with gp120 for antiviral activity | Q27646788 |
| | The evolutionarily conserved family of cyanovirin-N homologs: structures and carbohydrate specificity | Q27650286 |
| | Solution and Crystal Structures of a Sugar Binding Site Mutant of Cyanovirin-N: No Evidence of Domain Swapping | Q27651425 |
| | Anti-HIV Activity of Defective Cyanovirin-N Mutants Is Restored by Dimerization | Q27659715 |
| | Solution Structure of the Monovalent Lectin Microvirin in Complex with Man (1-2)Man Provides a Basis for Anti-HIV Activity with Low Toxicity | Q27667444 |
| | Structure-Function Analysis of a CVNH-LysM Lectin Expressed during Plant Infection by the Rice Blast Fungus Magnaporthe oryzae | Q27667816 |
| | Designed oligomers of cyanovirin-N show enhanced HIV neutralization | Q27671182 |
| | Are buried salt bridges important for protein stability and conformational specificity? | Q27730229 |
| | Energetic cost and structural consequences of burying a hydroxyl group within the core of a protein determined from Ala-->Ser and Val-->Thr substitutions in T4 lysozyme | Q27731429 |
| | Amino-acid substitutions in a surface turn modulate protein stability | Q27732236 |
| | Design, structure and stability of a hyperthermophilic protein variant | Q27758864 |
| | Solution structure of cyanovirin-N, a potent HIV-inactivating protein | Q27764577 |
| | High-resolution protein design with backbone freedom | Q27766051 |
| | Effect of the extra n-terminal methionine residue on the stability and folding of recombinant alpha-lactalbumin expressed in Escherichia coli | Q27766482 |
| | All-atom empirical potential for molecular modeling and dynamics studies of proteins | Q27860468 |
| | WebLogo: A Sequence Logo Generator | Q27860646 |
| | NMRPipe: a multidimensional spectral processing system based on UNIX pipes | Q27860859 |
| | Computer-based redesign of a protein folding pathway | Q28203951 |
| | Solvation energy in protein folding and binding | Q28307568 |
| | Antibody neutralization and escape by HIV-1 | Q29547345 |
| | Evolutionarily conserved pathways of energetic connectivity in protein families | Q29615037 |
| | Classical electrostatics in biology and chemistry | Q29615082 |
| | The penultimate rotamer library | Q29615941 |
| | Dramatic stabilization of an SH3 domain by a single substitution: roles of the folded and unfolded states. | Q30168361 |
| | Exploring the conformational space of protein side chains using dead-end elimination and the A* algorithm | Q31996404 |
| | Computational design of antibody-affinity improvement beyond in vivo maturation | Q33576857 |
| | Multiple antiviral activities of cyanovirin-N: blocking of human immunodeficiency virus type 1 gp120 interaction with CD4 and coreceptor and inhibition of diverse enveloped viruses | Q33804363 |
| | Targeting the glycans of glycoproteins: a novel paradigm for antiviral therapy | Q34005185 |
| | The dead-end elimination theorem and its use in protein side-chain positioning | Q34177888 |
| | The anti-HIV cyanovirin-N domain is evolutionarily conserved and occurs as a protein module in eukaryotes. | Q34432278 |
| | Discovery of cyanovirin-N, a novel human immunodeficiency virus-inactivating protein that binds viral surface envelope glycoprotein gp120: potential applications to microbicide development | Q35137168 |
| | Redesigning the hydrophobic core of a four-helix-bundle protein | Q36278357 |
| | Do salt bridges stabilize proteins? A continuum electrostatic analysis. | Q36278616 |
| | Probing the role of packing specificity in protein design | Q36583764 |
| | In vitro evolution of thermodynamically stable turns | Q36797001 |
| | Enhanced dead-end elimination in the search for the global minimum energy conformation of a collection of protein side chains | Q36799809 |
| | Exploiting the defensive sugars of HIV-1 for drug and vaccine design | Q36802333 |
| | Denatured states of proteins | Q37285327 |
| | A sugar binding protein cyanovirin-N blocks herpes simplex virus type-1 entry and cell fusion | Q37336219 |
| | Computer-aided design of functional protein interactions | Q37617943 |
| | Potent inhibition of HIV-1 fusion by cyanovirin-N requires only a single high affinity carbohydrate binding site: characterization of low affinity carbohydrate binding site knockout mutants | Q38288396 |
| | The potent anti-HIV protein cyanovirin-N contains two novel carbohydrate binding sites that selectively bind to Man(8) D1D3 and Man(9) with nanomolar affinity: implications for binding to the HIV envelope protein gp120. | Q38298945 |
| | Analysis of sequence requirements for biological activity of cyanovirin-N, a potent HIV (human immunodeficiency virus)-inactivating protein | Q38343015 |
| | Cyanovirin-N binds to the viral surface glycoprotein, GP1,2 and inhibits infectivity of Ebola virus | Q38355197 |
| | Computational models explain the oligosaccharide specificity of cyanovirin-N. | Q38360623 |
| | Multisite and multivalent binding between cyanovirin-N and branched oligomannosides: calorimetric and NMR characterization | Q38361586 |
| | Flipping the switch from monomeric to dimeric CV-N has little effect on antiviral activity | Q40524775 |
| | Recombinant production of cyanovirin-N, a potent human immunodeficiency virus-inactivating protein derived from a cultured cyanobacterium | Q41056025 |
| | Rational design of new binding specificity by simultaneous mutagenesis of calmodulin and a target peptide | Q41949099 |
| | Determination of the folding of proteins as a function of denaturants, osmolytes or ligands using circular dichroism | Q42067026 |
| | Using circular dichroism collected as a function of temperature to determine the thermodynamics of protein unfolding and binding interactions | Q42566843 |
| | Design and initial characterization of a circular permuted variant of the potent HIV-inactivating protein cyanovirin-N. | Q43864568 |
| | Transgenic plant production of Cyanovirin-N, an HIV microbicide. | Q44616943 |
| | Thermodynamics and kinetics of non-native interactions in protein folding: a single point mutant significantly stabilizes the N-terminal domain of L9 by modulating non-native interactions in the denatured state | Q44852943 |
| | Deciphering the message in protein sequences: tolerance to amino acid substitutions | Q45038796 |
| | Exploiting the right side of the Ramachandran plot: substitution of glycines by D-alanine can significantly increase protein stability | Q45102646 |
| | Isolation, primary sequence determination, and disulfide bond structure of cyanovirin-N, an anti-HIV (human immunodeficiency virus) protein from the cyanobacterium Nostoc ellipsosporum | Q45760520 |
| | The dead-end elimination theorem: mathematical aspects, implementation, optimizations, evaluation, and performance | Q45872529 |
| | Protein denaturation: a small-angle X-ray scattering study of the ensemble of unfolded states of cytochrome c. | Q46117814 |
| | Characterization of the unfolding pathway of hen egg white lysozyme | Q46599166 |
| | A mannan binding lectin is involved in cell-cell attachment in a toxic strain of Microcystis aeruginosa | Q46899370 |
| | Structural characterization of an equilibrium unfolding intermediate in cytochrome c. | Q46940734 |
| | Model building of disulfide bonds in proteins with known three-dimensional structure | Q48655269 |
| | Generalized dead-end elimination algorithms make large-scale protein side-chain structure prediction tractable: implications for protein design and structural genomics. | Q52067139 |
| | On the calculation of electrostatic interactions in proteins. | Q52663973 |
| | A thermodynamic scale for the beta-sheet forming tendencies of the amino acids. | Q53709834 |
| | Discovery of a stable dimeric mutant of cyanovirin-N (CV-N) from a T7 phage-displayed CV-N mutant library | Q56895709 |
| | Dissecting carbohydrate–Cyanovirin-N binding by structure-guided mutagenesis: functional implications for viral entry inhibition | Q57904639 |
| | Functional homologs of cyanovirin-N amenable to mass production in prokaryotic and eukaryotic hosts | Q57904660 |
| | Equilibrium and Kinetic Studies on Folding of the Authentic and Recombinant Forms of Human α-Lactalbumin by Circular Dichroism Spectroscopy† | Q58840872 |
| | Rational Modification of Protein Stability by the Mutation of Charged Surface Residues† | Q59600482 |
| | Protein stabilization by removal of unsatisfied polar groups: computational approaches and experimental tests | Q71165654 |
| | Striking stabilization of Arc repressor by an engineered disulfide bond | Q73030400 |
| | Expression, purification, and characterization of recombinant cyanovirin-N for vaginal anti-HIV microbicide development | Q81251755 |
| P433 | issue | 49 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | computational design | Q106195621 |
| P304 | page(s) | 10698-10712 | |
| P577 | publication date | 2011-11-16 | |
| P1433 | published in | Biochemistry | Q764876 |
| P1476 | title | Rational and computational design of stabilized variants of cyanovirin-N that retain affinity and specificity for glycan ligands | |
| P478 | volume | 50 | |