Add to ORKGThe rise of atmospheric oxygen has driven environmental change and biological evolution throughout much of Earth’s history and was enabled by the evolution of oxygenic photosynthesis in the cyanobacteria. Dating this metabolic innovation using inorganic proxies from sedimentary rocks has been difficult and one important approach has been to study the distributions of fossil lipids, such as steranes and 2-methylhopanes, as biomarkers for this process. 2-methylhopanes arise from degradation of 2-methylbacteriohopanepolyols (2-MeBHPs), lipids thought to be synthesized primarily by cyanobacteria. The discovery that 2-MeBHPs are produced by an anoxygenic phototroph, however, challenged both their taxonomic link with cyanobacteria and their funct...
Sedimentary rocks host a vast reservoir of organic carbon, such as 2-methylhopane biomarkers, whose ...
Lipid molecules preserved in sedimentary rocks facilitate the reconstruction of events that have sha...
Hopanes preserved in both modern and ancient sediments are recognized as the molecular fossils of ba...
The rise of atmospheric oxygen has driven environmental change and biological evolution throughout m...
The rise of atmospheric oxygen has driven environmental change and biological evolution throughout m...
The oxygenation of Earth's atmosphere by cyanobacteria was one of the most significant events in the...
Hopanoids are a class of sterol-like lipids produced by select bacteria. Their preservation in the r...
Families of closely related chemical compounds, which are relatively resistant to degradation, are o...
Families of closely related chemical compounds, which are relatively resistant to degradation, are o...
© 2017 American Society for Microbiology. To investigate the function of 2-methylhopanoids in modern...
To investigate the function of 2-methylhopanoids in modern cyanobacteria, the hpnP gene coding for t...
2-Methylhopanes, molecular fossils of 2-methylbacteriohopanepolyol (2-MeBHP) lipids, have been propo...
Sedimentary 2-methyhopanes have been used as biomarker proxies for cyanobacteria, the only known bac...
Our ability to read the molecular fossil record has advanced significantly in the past decade. Impro...
The 2-methylhopanes (2-MeHops) are molecular fossils of 2-methylbacteriohopanepolyols (2-MeBHPs) and...
Sedimentary rocks host a vast reservoir of organic carbon, such as 2-methylhopane biomarkers, whose ...
Lipid molecules preserved in sedimentary rocks facilitate the reconstruction of events that have sha...
Hopanes preserved in both modern and ancient sediments are recognized as the molecular fossils of ba...
The rise of atmospheric oxygen has driven environmental change and biological evolution throughout m...
The rise of atmospheric oxygen has driven environmental change and biological evolution throughout m...
The oxygenation of Earth's atmosphere by cyanobacteria was one of the most significant events in the...
Hopanoids are a class of sterol-like lipids produced by select bacteria. Their preservation in the r...
Families of closely related chemical compounds, which are relatively resistant to degradation, are o...
Families of closely related chemical compounds, which are relatively resistant to degradation, are o...
© 2017 American Society for Microbiology. To investigate the function of 2-methylhopanoids in modern...
To investigate the function of 2-methylhopanoids in modern cyanobacteria, the hpnP gene coding for t...
2-Methylhopanes, molecular fossils of 2-methylbacteriohopanepolyol (2-MeBHP) lipids, have been propo...
Sedimentary 2-methyhopanes have been used as biomarker proxies for cyanobacteria, the only known bac...
Our ability to read the molecular fossil record has advanced significantly in the past decade. Impro...
The 2-methylhopanes (2-MeHops) are molecular fossils of 2-methylbacteriohopanepolyols (2-MeBHPs) and...
Sedimentary rocks host a vast reservoir of organic carbon, such as 2-methylhopane biomarkers, whose ...
Lipid molecules preserved in sedimentary rocks facilitate the reconstruction of events that have sha...
Hopanes preserved in both modern and ancient sediments are recognized as the molecular fossils of ba...