Deciphering Symbiotic Interactions of “ Candidatus Aenigmarchaeota” with Inferred Horizontal Gene Transfers and Co-occurrence Networks

Abstract

Recent advances in sequencing technology promoted the blowout discovery of super tiny microbes in the Diapherotrites , Parvarchaeota , Aenigmarchaeota , Nanoarchaeota , and Nanohaloarchaeota (DPANN) superphylum. However, the unculturable properties of the majority of microbes impeded our investigation of their behavior and symbiotic lifestyle in the corresponding community. “ Candidatus Aenigmarchaeota” (“ Ca. Aenigmarchaeota”) represents one of the earliest proposed evolutionary branches within the Diapherotrites , Parvarchaeota , Aenigmarchaeota , Nanoarchaeota , and Nanohaloarchaeota (DPANN) superphylum. However, their ecological roles and potential host-symbiont interactions are still poorly understood. Here, eight metagenome-assembled genomes (MAGs) were reconstructed from hot spring ecosystems, and further in-depth comparative and evolutionary genomic analyses were conducted on these MAGs and other genomes downloaded from public databases. Although with limited metabolic capacities, we reported that “ Ca. Aenigmarchaeota” in thermal environments harbor more genes related to carbohydrate metabolism than “ Ca. Aenigmarchaeota” in nonthermal environments. Evolutionary analyses suggested that members from the Thaumarchaeota , Aigarchaeota , Crenarchaeota , and Korarchaeota (TACK) superphylum and Euryarchaeota contribute substantially to the niche expansion of “ Ca. Aenigmarchaeota” via horizontal gene transfer (HGT), especially genes related to virus defense and stress responses. Based on co-occurrence network results and recent genetic exchanges among community members, we conjectured that “ Ca. Aenigmarchaeota” may be symbionts associated with one MAG affiliated with the genus Pyrobaculum , though host specificity might be wide and variable across different “ Ca. Aenigmarchaeota” organisms. This study provides significant insight into possible DPANN-host interactions and ecological roles of “ Ca. Aenigmarchaeota.” IMPORTANCE Recent advances in sequencing technology promoted the blowout discovery of super tiny microbes in the Diapherotrites , Parvarchaeota , Aenigmarchaeota , Nanoarchaeota , and Nanohaloarchaeota (DPANN) superphylum. However, the unculturable properties of the majority of microbes impeded our investigation of their behavior and symbiotic lifestyle in the corresponding community. By integrating horizontal gene transfer (HGT) detection and co-occurrence network analysis on “ Candidatus Aenigmarchaeota” (“ Ca. Aenigmarchaeota”), we made one of the first attempts to infer their putative interaction partners and further decipher the potential functional and genetic interactions between the symbionts. We revealed that HGTs contributed by members from the Thaumarchaeota , Aigarchaeota , Crenarchaeota , and Korarchaeota (TACK) superphylum and Euryarchaeota conferred “ Ca. Aenigmarchaeota” with the ability to survive under different environmental stresses, such as virus infection, high temperature, and oxidative stress. This study demonstrates that the interaction partners might be inferable by applying informatics analyses on metagenomic sequencing data.