High resolution measurement characterizing the large number of cellular features is in the focus of recent cell biological research. To achieve these goals single cell mass cytometry combines advantages of the single cell resolution of traditional fluorescence-based flow cytometry with the multiplexicity of inductively coupled plasma-mass spectrometry. Instead of fluorophores detection for mass cytometry is based on stable heavy-metal isotope labeled antibodies. Thus, the autofluorescence and spectral overlapping are eliminated. The current state-of-the-art mass cytometer is capable of measuring up to 135 different stable isotopes of rare earth metals, although the current availability of these tags in high purity limits the usage to around...
Recent studies have shown that accurate characterization of biological samples is only possible by a...
A holistic understanding of tissue and organ structure and function requires the detection of molecu...
Flow cytometry is an essential tool for dissecting the functional complexity of hematopoiesis. We us...
Technology development in biological research often aims to either increase the number of cellular f...
Imaging Mass Cytometry (IMC) is a powerful spatial technology that utilizes Cytometry Time of Flight...
What is mass cytometry? What can be done with it? What does it take to start doing it? How can we a...
Characterizing chemical changes within individual cells is important for determining fundamental mec...
Abstract Sample barcoding is essential in mass cytometry analysis, since it can eliminate potential ...
High-dimensional, single-cell cell technologies revolutionized the way to study biological systems, ...
Questions in cell biology are often answered with complexity of protein pathways. For years, cell bi...
Single-cell barcoding enables the combined processing and acquisition of multiple individual samples...
Analysis of multiplexed assays is highly important for clinical diagnostics and other analytical app...
Increased appreciation for the inherent heterogeneity in cell populations has prompted a demand for ...
Mass cytometry, or Cytometry by Time-Of-Flight, is a powerful new platform for high-dimensional sing...
Population-averaged measurements (PAMs) of cells have advanced understanding of innumerable biochemi...
Recent studies have shown that accurate characterization of biological samples is only possible by a...
A holistic understanding of tissue and organ structure and function requires the detection of molecu...
Flow cytometry is an essential tool for dissecting the functional complexity of hematopoiesis. We us...
Technology development in biological research often aims to either increase the number of cellular f...
Imaging Mass Cytometry (IMC) is a powerful spatial technology that utilizes Cytometry Time of Flight...
What is mass cytometry? What can be done with it? What does it take to start doing it? How can we a...
Characterizing chemical changes within individual cells is important for determining fundamental mec...
Abstract Sample barcoding is essential in mass cytometry analysis, since it can eliminate potential ...
High-dimensional, single-cell cell technologies revolutionized the way to study biological systems, ...
Questions in cell biology are often answered with complexity of protein pathways. For years, cell bi...
Single-cell barcoding enables the combined processing and acquisition of multiple individual samples...
Analysis of multiplexed assays is highly important for clinical diagnostics and other analytical app...
Increased appreciation for the inherent heterogeneity in cell populations has prompted a demand for ...
Mass cytometry, or Cytometry by Time-Of-Flight, is a powerful new platform for high-dimensional sing...
Population-averaged measurements (PAMs) of cells have advanced understanding of innumerable biochemi...
Recent studies have shown that accurate characterization of biological samples is only possible by a...
A holistic understanding of tissue and organ structure and function requires the detection of molecu...
Flow cytometry is an essential tool for dissecting the functional complexity of hematopoiesis. We us...