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Steroids, triterpenoids and molecular oxygen
Roger E. Summons
,
Alexander S. Bradley
, Linda L. Jahnke
, Jacob R. Waldbauer
Department of Earth & Planetary Sciences
Roy and Diana Vagelos Division of Biology & Biomedical Sciences (DBBS)
DBBS - Plant and Microbial Biosciences
DBBS - Evolution, Ecology and Population Biology
Institute of Clinical and Translational Sciences (ICTS)
Research output
:
Contribution to journal
›
Review article
›
peer-review
312
Scopus citations
Overview
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Keyphrases
Triterpenoids
100%
Molecular Oxygen
100%
Sterols
75%
Cyanobacteria
75%
Sterol Biosynthesis
75%
Eukaryotes
50%
Biosynthetic Pathway
50%
Lipids
25%
Cholesterol
25%
Functional Properties
25%
Cycloheximide
25%
Thermodynamics
25%
Knowledge Level
25%
Hydrocarbons
25%
Biological Role
25%
Functional Interpretation
25%
Environmental Conditions
25%
Parsimony
25%
Structural Motif
25%
Oxygen Demand
25%
Last Common Ancestor
25%
Oxygen-generating
25%
Steroid Biosynthesis
25%
Carbon Skeleton
25%
Bacterial Taxa
25%
Closest Connection
25%
Co-occurrence Patterns
25%
Phylogenetic Pattern
25%
Earth History
25%
Hopanoids
25%
Geological Record
25%
Molecular Fossils
25%
Oxygenic Photosynthesis
25%
Steranes
25%
Bacteriohopanepolyols
25%
Deposition Environment
25%
Triterpanes
25%
Free Samples
25%
Rust Fungi
25%
Anaerobic Pathway
25%
Taxonomic Affinity
25%
Biochemistry, Genetics and Molecular Biology
Anabolism
100%
Sterol
100%
Sterol Synthesis
100%
Eukaryote
66%
Cyanobacteria
66%
Enzyme
33%
Lipid
33%
Oxygen Consumption
33%
Cycloheximide
33%
Steroid Biosynthesis
33%
Photosystem
33%
Structural Motif
33%
Taxon
33%
Last Common Ancestor
33%
Extant Species
33%
Immunology and Microbiology
Sterol Synthesis
100%
Sterol
100%
Eukaryote
66%
Cyanobacteria
66%
Oxygen Consumption
33%
Taxon
33%
Skeleton
33%
Photosynthesis
33%
Steroidogenesis
33%
Last Common Ancestor
33%
Extant Species
33%
Rust Fungi
33%
Hopanoid
33%
Structural Motif
33%
Functional Property
33%
Chemistry
Sterol
100%
Dioxygen
100%
Triterpenoid
100%
Biological Marker
83%
Hopanoid
16%
Cycloheximide
16%
Photosynthesis
16%
Structural Motif
16%