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Snowball Earth, population bottleneck and Prochlorococcus evolution

Authors :
Hao Zhang
Sean A. Crowe
Qinglu Zeng
Ying Sun
Haiwei Luo
Source :
Proc Biol Sci
Publication Year :
2021
Publisher :
The Royal Society, 2021.

Abstract

Prochlorococcus are the most abundant photosynthetic organisms in the modern ocean. A massive DNA loss event occurred in their early evolutionary history, leading to highly reduced genomes in nearly all lineages, as well as enhanced efficiency in both nutrient uptake and light absorption. The environmental landscape that shaped this ancient genome reduction, however, remained unknown. Through careful molecular clock analyses, we established that this Prochlorococcus genome reduction occurred during the Neoproterozoic Snowball Earth climate catastrophe. The lethally low temperature and exceedingly dim light during the Snowball Earth event would have inhibited Prochlorococcus growth and proliferation, and caused severe population bottlenecks. These bottlenecks are recorded as an excess of deleterious mutations accumulated across genomic regions and inherited by descendant lineages. Prochlorococcus adaptation to extreme environmental conditions during Snowball Earth intervals can be inferred by tracing the evolutionary paths of genes that encode key metabolic potential. Key metabolic innovation includes modified lipopolysaccharide structure, strengthened peptidoglycan biosynthesis, the replacement of a sophisticated circadian clock with an hourglass-like mechanism that resets daily for dim light adaption and the adoption of ammonia diffusion as an efficient membrane transporter-independent mode of nitrogen acquisition. In this way, the Neoproterozoic Snowball Earth event may have altered the physiological characters of Prochlorococcus , shaping their ecologically vital role as the most abundant primary producers in the modern oceans.

Details

Language :
English
Database :
OpenAIRE
Journal :
Proc Biol Sci
Accession number :
edsair.doi.dedup.....4a3f7cec462e033ce989f8efea8553d7