Add to ORKGAnalytical methodology using gas chromatography and mass spectrography for improved physiological monitoring of astronauts is developed. Reported research covers the following topics: (1) Chlorination of DNA bases; (2) mass fragmentography; (3) mass spectrometry; (4) urine analysis for metabolic constituents; (5) analysis of natural products by mass spectrometry; (6) computer identification of unknown molecular compounds; (7) fluorescent sorter for cell separation; (8) Mariner Mars 1971 orbital photography; and (9) Viking Lander imagery
Test facility to verify design concepts and mathematical models of chromatograph for atmospheric com...
The labeled release concept was advanced to accommodate a post- Viking mission designed to extend th...
Gas chromatography (GC) instruments have been successfully installed on the spatial probes for in si...
Cytochemical studies of planetary microorganisms by fluorometry, gas chromatography and optical reso...
Experiments to identify free living organisms in soils that may be substantially simpler in genetic ...
International audienceOne of the objectives of the various space exploration missions carrying GC-MS...
An investigation of the returned Mars samples for biologically important organic compounds, with emp...
This report summarizes the results of the Planetary Biology and Molecular Ecology's summer 1991 prog...
The Biotechnology and Planetary Protection Group (BPPG) at the Jet Propulsion Lab (JPL) focuses on a...
. The Planetary Protection discipline at NASA’s Jet Propulsion Laboratory develops and implements pr...
The Mars Sample Return mission will provide us with a unique source of material from our solar syste...
This interim report describes progress on the development of spacecraft-compatible methods of nuclei...
The Apollo 16 lunar samples were subjected to stepped pyrolyses up to 1000[degrees]C and the organog...
Development of computerized high resolution mass spectrometer and gas-liquid chromatographic facilit...
A Comprehensive Characterization of Microorganisms and Allergens in Spacecraft (SWAB) will use advan...
Test facility to verify design concepts and mathematical models of chromatograph for atmospheric com...
The labeled release concept was advanced to accommodate a post- Viking mission designed to extend th...
Gas chromatography (GC) instruments have been successfully installed on the spatial probes for in si...
Cytochemical studies of planetary microorganisms by fluorometry, gas chromatography and optical reso...
Experiments to identify free living organisms in soils that may be substantially simpler in genetic ...
International audienceOne of the objectives of the various space exploration missions carrying GC-MS...
An investigation of the returned Mars samples for biologically important organic compounds, with emp...
This report summarizes the results of the Planetary Biology and Molecular Ecology's summer 1991 prog...
The Biotechnology and Planetary Protection Group (BPPG) at the Jet Propulsion Lab (JPL) focuses on a...
. The Planetary Protection discipline at NASA’s Jet Propulsion Laboratory develops and implements pr...
The Mars Sample Return mission will provide us with a unique source of material from our solar syste...
This interim report describes progress on the development of spacecraft-compatible methods of nuclei...
The Apollo 16 lunar samples were subjected to stepped pyrolyses up to 1000[degrees]C and the organog...
Development of computerized high resolution mass spectrometer and gas-liquid chromatographic facilit...
A Comprehensive Characterization of Microorganisms and Allergens in Spacecraft (SWAB) will use advan...
Test facility to verify design concepts and mathematical models of chromatograph for atmospheric com...
The labeled release concept was advanced to accommodate a post- Viking mission designed to extend th...
Gas chromatography (GC) instruments have been successfully installed on the spatial probes for in si...