Milan Mrksich
Mrksich, Milan, 1968-....
VIAF ID: 9621165271593710690002 (Personal)
Permalink: http://viaf.org/viaf/9621165271593710690002
Preferred Forms
- 100 0 _ ‡a Milan Mrksich
- 100 1 _ ‡a Mrksich, Milan, ‡d 1968-....
4xx's: Alternate Name Forms (3)
Works
Title | Sources |
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Biosensing | |
A gene expression-based comparison of cell adhesion to extracellular matrix and RGD-terminated monolayers | |
Geometric control of switching between growth, apoptosis, and differentiation during angiogenesis using micropatterned substrates | |
Geometric cues for directing the differentiation of mesenchymal stem cells | |
High-throughput photocapture approach for reaction discovery | |
High-throughput screening of small molecule libraries using SAMDI mass spectrometry | |
High-Throughput Synthesis and Analysis of Intact Glycoproteins Using SAMDI-MS | |
Identification of ligands with bicyclic scaffolds provides insights into mechanisms of estrogen receptor subtype selectivity. | |
An Immobilized Enzyme Reactor for Spatiotemporal Control over Reaction Products | |
Immunoisolating pancreatic islets by encapsulation with selective withdrawal | |
An inhibitor of a cell adhesion receptor stimulates cell migration | |
Label-assisted mass spectrometry for the acceleration of reaction discovery and optimization | |
Label-Free Assay of Protein Tyrosine Phosphatase Activity in Single Cells | |
Long-Range Energy Transfer in Protein Megamolecules | |
Machine Learning on Signal-to-Noise Ratios Improves Peptide Array Design in SAMDI Mass Spectrometry | |
Mass spectrometry of self-assembled monolayers: a new tool for molecular surface science | |
The mechanostability of isolated focal adhesions is strongly dependent on pH | |
A method for connecting solution-phase enzyme activity assays with immobilized format analysis by mass spectrometry | |
Micropatterned dynamically adhesive substrates for cell migration | |
Micropatterned surfaces for control of cell shape, position, and function | |
Micropatterning Facilitates the Long-Term Growth and Analysis of iPSC-Derived Individual Human Neurons and Neuronal Networks. | |
Modular assembly of protein building blocks to create precisely defined megamolecules. | |
Nanopatterned Extracellular Matrices Enable Cell-Based Assays with a Mass Spectrometric Readout | |
Non-peptide macrocyclic histone deacetylase inhibitors derived from tricyclic ketolide skeleton | |
De novo motif for kinase mediated signaling across the cell membrane. | |
On-chip synthesis and label-free assays of oligosaccharide arrays | |
On-line detection of nonspecific protein adsorption at artificial surfaces | |
Patterning multiple aligned self-assembled monolayers using light. | |
Peptide Arrays: Development and Application | |
Peptide arrays: towards routine implementation | |
Peptide chips for the quantitative evaluation of protein kinase activity | |
Peptide delivery with poly(ethylene glycol) diacrylate microneedles through swelling effect. | |
Phenotypic differences in hiPSC NPCs derived from patients with schizophrenia | |
Physiological calcium concentrations regulate calmodulin binding and catalysis of adenylyl cyclase exotoxins | |
Plasmonic Microneedle Arrays for in Situ Sensing with Surface-Enhanced Raman Spectroscopy (SERS) | |
The platelet integrin alphaIIbbeta3 binds to the RGD and AGD motifs in fibrinogen | |
Plectin-containing, centrally localized focal adhesions exert traction forces in primary lung epithelial cells | |
Profiling kinase activities by using a peptide chip and mass spectrometry | |
Profiling the selectivity of DNA ligases in an array format with mass spectrometry | |
Protein nanoarrays generated by dip-pen nanolithography | |
Rapid evaluation and screening of interfacial reactions on self-assembled monolayers. | |
Rate enhancement of an interfacial biochemical reaction through localization of substrate and enzyme by an adaptor domain | |
Rewiring cell adhesion. | |
Selective immobilization of proteins to self-assembled monolayers presenting active site-directed capture ligands | |
Self-assembled monolayer facilitates epithelial-mesenchymal interactions mimicking odontogenesis | |
Self-assembled monolayers that transduce enzymatic activities to electrical signals | |
Sequential Glycosylation of Proteins with Substrate-Specific N-Glycosyltransferases | |
Single-pot glycoprotein biosynthesis using a cell-free transcription-translation system enriched with glycosylation machinery. | |
SIRT1 is a critical regulator of K562 cell growth, survival, and differentiation | |
Solid-Phase Synthesis of Megamolecules | |
SP19 Label-Free Detection of Kinase Activities and Protein-Protein Interactions on BioChips | |
A spatially propagating biochemical reaction. | |
Steady-state of an enzymatic reaction is dependent on the density of reactant | |
Stem cell differentiation: Multipotency retained | |
Storage of Information Using Small Organic Molecules | |
Structural basis for the interaction of Bordetella pertussis adenylyl cyclase toxin with calmodulin | |
Structural, kinetic and proteomic characterization of acetyl phosphate-dependent bacterial protein acetylation | |
Structure-based inhibitor discovery against adenylyl cyclase toxins from pathogenic bacteria that cause anthrax and whooping cough | |
Subcellular Control over Focal Adhesion Anisotropy, Independent of Cell Morphology, Dictates Stem Cell Fate | |
Subcellular curvature at the perimeter of micropatterned cells influences lamellipodial distribution and cell polarity. | |
Substrates for cell adhesion prepared via active site-directed immobilization of a protein domain | |
Surface molecular recognition. | |
The synergy peptide PHSRN and the adhesion peptide RGD mediate cell adhesion through a common mechanism. | |
Synthesis and structure-activity relationship of 3-hydroxypyridine-2-thione-based histone deacetylase inhibitors | |
Synthetic Tuning of Domain Stoichiometry in Nanobody-Enzyme Megamolecules | |
Tailored substrates for studies of attached cell culture | |
Traceless Immobilization of Analytes for High-Throughput Experiments with SAMDI Mass Spectrometry. | |
Turning On Cell Migration with Electroactive Substrates We are grateful for support of this work by DARPA and the National Institute of Health (GM 54621). This work used facilities of the MRSEC supported by the National Science Foundation (DMR-98085 | |
An Unusual Salt Effect in an Interfacial Nucleophilic Substitution Reaction | |
Using capillary electrophoresis to follow the acetylation of the amino groups of insulin and to estimate their basicities | |
Using mass spectrometry to characterize self-assembled monolayers presenting peptides, proteins, and carbohydrates. | |
Using Microfluidics and Imaging SAMDI-MS To Characterize Reaction Kinetics | |
Using model substrates to study the dependence of focal adhesion formation on the affinity of integrin-ligand complexes. | |
Using Peptide Arrays To Discover the Sequence-Specific Acetylation of the Histidine-Tyrosine Dyad | |
Using Peptide Arrays to Profile Phosphatase Activity in Cell Lysates | |
Using selective withdrawal to coat microparticles | |
Using self-assembled monolayers to understand α8β1-mediated cell adhesion to RGD and FEI motifs in nephronectin | |
What can surface chemistry do for cell biology? |