The Role of E-Commerce in Increasing Sales Using Unified Modeling Language

The direct patterning of biomolecules on a solid substrate can be achieved using microcontact printing, a method that has been very successfully adopted for the precise and gentle transfer of proteins and lipid bilayers from stamp to substrate in 1 s, without loss of biological activity. The image shown was produced by patterning 16 different proteins onto the polystyrene surface of a cell culture dish using a stamp inked by means of a microfluidic network.

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Printing meets lithography: Soft approaches to high-resolution patterning

Michel

Bernard²,

et al. 2001

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Fabricating Microarrays of Functional Proteins Using Affinity Contact Printing

Renault

Bernard

Juncker

et al. 2002

Angew. Chem. Int. Ed.

142

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High‐resolution arrays of antibodies can be prepared in a highly parallel manner by a combination of affinity purification and microcontact printing. Arrays with lateral dimensions of between 100 and 3 μm were prepared by using planar, affinity stamps that were patterned by using various soft lithographic techniques. The fluorescence microscopy image shown demonstrates the placement of anti‐chicken and anti‐goat antibodies on a glass substrate from a stamp.

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Structure and Function of Adsorbed Hemoglobin on Silica Nanoparticles: Relationship between the Adsorption Process and the Oxygen Binding Properties

et al. 2017

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The connection between the mechanisms of protein adsorption on nanoparticles and the structural and functional properties of the adsorbed protein often remains unclear. We investigate porcine hemoglobin adsorption on silica nanoparticles, and we analyze the structural and functional modifications of adsorbed hemoglobin by UV-vis spectrophotometry, circular dichroism, and oxygen binding measurement. The structural analysis of adsorbed hemoglobin on silica nanoparticles reveals a significant loss of secondary structure and a preservation of the heme electronic structure. However, adsorbed hemoglobin retains its quaternary structure and exhibits an enhanced oxygen affinity with cooperative binding. Moreover, the structural and functional modifications are fully reversible after complete desorption from silica nanoparticles at pH 8.7. The tunable adsorption and desorption of hemoglobin on SNPs with pH change, and the full control of hemoglobin activity by pH, temperature, and the addition of inorganic phosphate effectors opens the way to an interesting system whereby protein adsorption on nanoparticles can allow for full control over hemoglobin oxygen binding activity. Our results suggest that adsorption of hemoglobin on silica nanoparticles leads to a new structural, functional, and dynamic state with full reversibility in a way that significantly differs from protein denaturation.

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Amine conformational change and spin conversion induced by metal-assisted ligand oxidation: from the seven-coordinate iron(II)–TPAA complex to the two oxidized iron(II)–(py)3tren isomers. Characterization, crystal structures, and density functional study

Morgenstern‐Badarau

Lambert

Renault

et al. 2000

Inorganica Chimica Acta

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In Situ Analysis of Weakly Bound Proteins Reveals Molecular Basis of Soft Corona Formation

et al. 2020

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Few experimental techniques allow the analysis of the protein corona in situ. As a result, little is known on the effects of nanoparticles on weakly bound proteins that form the soft corona. Despite its biological importance, our understanding of the molecular bases driving its formation is limited. Here we show that hemoglobin can form either a hard or a soft corona on silica nanoparticles depending on the pH conditions. Using cryoTEM and synchrotron-radiation circular dichroism, we show that nanoparticles alter the structure and the stability of weakly bound proteins in situ. Molecular dynamics simulation identified the structural elements driving protein-nanoparticle interaction. Based on thermodynamic analysis, we show that nanoparticles stabilize partially unfolded protein conformations by enthalpy-driven molecular interactions. We suggest that nanoparticles alter weakly bound proteins by shifting the equilibrium towards the unfolded states at physiological temperature. We show that the classical approach based on nanoparticle separation from the biological medium fails to detect destabilization of weakly bound proteins, and therefore cannot be used to fully predict the biological effects of nanomaterials in situ.

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Molecular cloning, expression analysis and iron metal cofactor characterisation of a superoxide dismutase from Toxoplasma gondii

Ödberg-Ferragut

Renault

Viscogliosi

et al. 2000

Molecular and Biochemical Parasitology

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Fabricating Microarrays of Functional Proteins Using Affinity Contact Printing

et al. 2002

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Jean Philippe Renault

Microcontact Printing of Proteins

Printing meets lithography: Soft approaches to high-resolution patterning

Fabricating Microarrays of Functional Proteins Using Affinity Contact Printing

Structure and Function of Adsorbed Hemoglobin on Silica Nanoparticles: Relationship between the Adsorption Process and the Oxygen Binding Properties

Amine conformational change and spin conversion induced by metal-assisted ligand oxidation: from the seven-coordinate iron(II)–TPAA complex to the two oxidized iron(II)–(py)3tren isomers. Characterization, crystal structures, and density functional study

In Situ Analysis of Weakly Bound Proteins Reveals Molecular Basis of Soft Corona Formation

Molecular cloning, expression analysis and iron metal cofactor characterisation of a superoxide dismutase from Toxoplasma gondii

Fabricating Microarrays of Functional Proteins Using Affinity Contact Printing

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