scholarly article | Q13442814 |
P50 | author | Ivo Fabrik | Q47102684 |
Jan Macák | Q69812688 | ||
P2093 | author name string | Pavel Rehulka | |
Zuzana Bilkova | |||
Jana Klimentova | |||
V C Anitha | |||
Pavla Murasova | |||
Hanna Sopha | |||
Rudolf Kupcik | |||
Helena Rehulkova | |||
P2860 | cites work | Mapping and analysis of phosphorylation sites: a quick guide for cell biologists | Q26852359 |
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TiO2 nanotube platforms for smart drug delivery: a review | Q28066800 | ||
Highly selective enrichment of phosphorylated peptides from peptide mixtures using titanium dioxide microcolumns. | Q31164900 | ||
SIMAC (sequential elution from IMAC), a phosphoproteomics strategy for the rapid separation of monophosphorylated from multiply phosphorylated peptides | Q33307225 | ||
Cerium ion-chelated magnetic silica microspheres for enrichment and direct determination of phosphopeptides by matrix-assisted laser desorption ionization mass spectrometry | Q33321655 | ||
Specific phosphopeptide enrichment with immobilized titanium ion affinity chromatography adsorbent for phosphoproteome analysis | Q33352234 | ||
Enrichment of phosphopeptides using bare magnetic particles | Q33355062 | ||
Preparation and characterization of ceria-zirconia composite for enrichment and identification of phosphopeptides | Q33614890 | ||
Efficient enrichment and identification of phosphopeptides by cerium oxide using on-plate matrix-assisted laser desorption/ionization time-of-flight mass spectrometric analysis | Q33921575 | ||
Titanium dioxide as chemo-affinity chromatographic sorbent of biomolecular compounds--applications in acidic modification-specific proteomics | Q33992580 | ||
Effective enrichment and mass spectrometry analysis of phosphopeptides using mesoporous metal oxide nanomaterials | Q34113986 | ||
Phosphoproteome dynamics reveal novel ERK1/2 MAP kinase substrates with broad spectrum of functions | Q34300397 | ||
Ti(4+)-phosphate functionalized cellulose for phosphopeptides enrichment and its application in rice phosphoproteome analysis | Q34337350 | ||
Complementary Fe(3+)- and Ti(4+)-immobilized metal ion affinity chromatography for purification of acidic and basic phosphopeptides | Q34377453 | ||
Analysis of the glycosylation pattern of plant copper amine oxidases by MALDI-TOF/TOF MS coupled to a manual chromatographic separation of glycans and glycopeptides | Q34666374 | ||
Enhancing the identification of phosphopeptides from putative basophilic kinase substrates using Ti (IV) based IMAC enrichment | Q35497380 | ||
Rapid and reproducible single-stage phosphopeptide enrichment of complex peptide mixtures: application to general and phosphotyrosine-specific phosphoproteomics experiments | Q35650675 | ||
ZrO2 Nanofiber as a Versatile Tool for Protein Analysis | Q35841964 | ||
Evidence for phosphorylation of serine 753 in CFTR using a novel metal-ion affinity resin and matrix-assisted laser desorption mass spectrometry | Q36280213 | ||
Nanomaterials for in situ cell delivery and tissue regeneration | Q37692601 | ||
Phosphoproteomics: searching for a needle in a haystack | Q37917040 | ||
Advances in phosphopeptide enrichment techniques for phosphoproteomics | Q38028383 | ||
Development of the affinity materials for phosphorylated proteins/peptides enrichment in phosphoproteomics analysis | Q38407437 | ||
New Interface for Purification of Proteins: One-Dimensional TiO2 Nanotubes Decorated by Fe3O4 Nanoparticles | Q38645519 | ||
Aberrant protein phosphorylation in Alzheimer disease brain disturbs pro-survival and cell death pathways | Q38899588 | ||
Tissue engineering and regenerative medicine in musculoskeletal oncology | Q38938423 | ||
Magnetic affinity microspheres with meso-/macroporous shells for selective enrichment and fast separation of phosphorylated biomolecules | Q39447986 | ||
Sequential Fe3O4/TiO2 enrichment for phosphopeptide analysis by liquid chromatography/tandem mass spectrometry | Q39711944 | ||
Global profiling of phosphopeptides by titania affinity enrichment | Q40069163 | ||
The effects of phosphorylation on the structure and function of proteins | Q40832954 | ||
Chemical and functional aspects of posttranslational modification of proteins | Q42153052 | ||
Effect of peptide-to-TiO2 beads ratio on phosphopeptide enrichment selectivity | Q43275362 | ||
Facile synthesis of titania-zirconia monodisperse microspheres and application for phosphopeptides enrichment. | Q43568105 | ||
Tailoring of a TiO2 nanotube array-integrated portable microdevice for efficient on-chip enrichment and isotope labeling of serum phosphopeptides | Q44235336 | ||
Kinase-loaded magnetic beads for sequential in vitro phosphorylation of peptides and proteins | Q47309543 | ||
Microgradient separation technique for purification and fractionation of permethylated N-glycans before mass spectrometric analyses | Q48117249 | ||
The Early Dendritic Cell Signaling Induced by Virulent Francisella tularensis Strain Occurs in Phases and Involves the Activation of Extracellular Signal-Regulated Kinases (ERKs) and p38 In the Later Stage | Q50091331 | ||
Functionalization of titanium dioxide nanotubes with biomolecules for biomedical applications. | Q50190945 | ||
Protein interactions with layers of TiO2 nanotube and nanopore arrays: Morphology and surface charge influence. | Q51135930 | ||
Carbon-Decorated TiO2 Nanotube Membranes: A Renewable Nanofilter for Charge-Selective Enrichment of Proteins. | Q51580234 | ||
Magnetically Guided Titania Nanotubes for Site-Selective Photocatalysis and Drug Release | Q57787992 | ||
Large-scale Analysis ofin VivoPhosphorylated Membrane Proteins by Immobilized Metal Ion Affinity Chromatography and Mass Spectrometry | Q58082931 | ||
Mechanism of inhibition of protein-tyrosine phosphatases by vanadate and pervanadate | Q71973575 | ||
Phosphopeptide enrichment by aliphatic hydroxy acid-modified metal oxide chromatography for nano-LC-MS/MS in proteomics applications | Q79830472 | ||
Zirconium phosphonate-modified porous silicon for highly specific capture of phosphopeptides and MALDI-TOF MS analysis | Q80196325 | ||
Iron oxide nanoparticle coating of organic polymer-based monolithic columns for phosphopeptide enrichment | Q84075188 | ||
Phosphopeptide separation using radially aligned titania nanotubes on titanium wire | Q87243869 | ||
P4510 | describes a project that uses | RStudio | Q4798119 |
P433 | issue | 7 | |
P304 | page(s) | 12156-12166 | |
P577 | publication date | 2019-07-15 | |
P1433 | published in | ACS Omega | Q27727647 |
P1476 | title | Amorphous TiO2 Nanotubes as a Platform for Highly Selective Phosphopeptide Enrichment | |
P478 | volume | 4 |