Add to ORKGSome biological characteristics of cancer cells and solid tumors are identifiable by the high resolution NMR relaxation behavior of their nonaqueous components. Chemical analysis and two-dimensional scalar correlated (COSY) NMR spectroscopy show these resonances arise from neutral lipid in the plasma membrane. Triglyceride is shown to be the main plasma membrane component giving rise to the NMR spectrum, while soluble nonmembrane components account for 90% of the remaining resonances in the spectrum of intact cells. The presence of triglyceride has been detected by chemical analysis in highly purified plasma membranes from two different cell lines. The COSY spectra of cancer cells are comparable with that obtained for the triglyceride-rich ...
The proton magnetic resonance spectrum of malignant cells can frequently be distinguished from that ...
A narrow NMR line originating from the plasma membrane of a cancer cell is unexpected. The behaviour...
Proton magnetic resonance spectroscopy can be used to elucidate alterations to cellular chemistry as...
Some biological characteristics of cancer cells and solid tumors are identifiable by the high resolu...
Cancerous tissue or a suspension of cultured cancer cells give a high resolution proton NMR spectrum...
Cancerous tissue or a suspension of cultured cancer cells give a high resolution proton NMR spectrum...
Human blood lipoproteins have been characterised by <sup>1</sup>H NMR methods and chemical analysis,...
AbstractHuman blood lipoproteins have been characterised by 1H NMR methods and chemical analysis, an...
Human blood lipoproteins have been characterised by 1H NMR methods and chemical analysis, and compar...
Whole cells are made up of molecules in different environments to which NMR spectroscopy is sensitiv...
Whole cells are made up of molecules in different environments to which NMR spectroscopy is sensitiv...
Transformed, embryonic and malignant cells give a high resolution 1H NMR spectrum which arises from ...
The proton magnetic resonance spectrum of malignant cells can frequently be distinguished from that ...
High-resolution proton nuclear magnetic resonance studies show that the spectrum of a proteolipid co...
High-resolution proton nuclear magnetic resonance studies show that the spectrum of a proteolipid co...
The proton magnetic resonance spectrum of malignant cells can frequently be distinguished from that ...
A narrow NMR line originating from the plasma membrane of a cancer cell is unexpected. The behaviour...
Proton magnetic resonance spectroscopy can be used to elucidate alterations to cellular chemistry as...
Some biological characteristics of cancer cells and solid tumors are identifiable by the high resolu...
Cancerous tissue or a suspension of cultured cancer cells give a high resolution proton NMR spectrum...
Cancerous tissue or a suspension of cultured cancer cells give a high resolution proton NMR spectrum...
Human blood lipoproteins have been characterised by <sup>1</sup>H NMR methods and chemical analysis,...
AbstractHuman blood lipoproteins have been characterised by 1H NMR methods and chemical analysis, an...
Human blood lipoproteins have been characterised by 1H NMR methods and chemical analysis, and compar...
Whole cells are made up of molecules in different environments to which NMR spectroscopy is sensitiv...
Whole cells are made up of molecules in different environments to which NMR spectroscopy is sensitiv...
Transformed, embryonic and malignant cells give a high resolution 1H NMR spectrum which arises from ...
The proton magnetic resonance spectrum of malignant cells can frequently be distinguished from that ...
High-resolution proton nuclear magnetic resonance studies show that the spectrum of a proteolipid co...
High-resolution proton nuclear magnetic resonance studies show that the spectrum of a proteolipid co...
The proton magnetic resonance spectrum of malignant cells can frequently be distinguished from that ...
A narrow NMR line originating from the plasma membrane of a cancer cell is unexpected. The behaviour...
Proton magnetic resonance spectroscopy can be used to elucidate alterations to cellular chemistry as...