Horizontal Gene Transfer and Symbiotic Microorganisms Regulate the Adaptive Evolution of Intertidal Algae, Porphyra Sense Lato

Overview

Journal Commun Biol

Specialty Biology

Date 2024 Aug 11

PMID 39128935

Authors

Wenlei Wang

Qijin Ge

Jian Wen

Han Zhang

Yanling Guo

Zongtang Li

Yan Xu

Dehua Ji

Changsheng Chen

Lidong Guo

Mengyang Xu

Chengcheng Shi

Guangyi Fan

Chaotian Xie

Affiliations

Soon will be listed here.

Abstract

Intertidal algae may adapt to environmental challenges by acquiring genes from other organisms and relying on symbiotic microorganisms. Here, we obtained a symbiont-free and chromosome-level genome of Pyropia haitanensis (47.2 Mb), a type of intertidal algae, by using multiple symbiont screening methods. We identified 286 horizontal gene transfer (HGT) genes, 251 of which harbored transposable elements (TEs), reflecting the importance of TEs for facilitating the transfer of genes into P. haitanensis. Notably, the bulked segregant analysis revealed that two HGT genes, sirohydrochlorin ferrochelatase and peptide-methionine (R)-S-oxide reductase, play a significant role in the adaptation of P. haitanensis to heat stress. Besides, we found Pseudomonas, Actinobacteria, and Bacteroidetes are the major taxa among the symbiotic bacteria of P. haitanensis (nearly 50% of the HGT gene donors). Among of them, a heat-tolerant actinobacterial strain (Saccharothrix sp.) was isolated and revealed to be associated with the heat tolerance of P. haitanensis through its regulatory effects on the genes involved in proline synthesis (proC), redox homeostasis (ggt), and protein folding (HSP20). These findings contribute to our understanding of the adaptive evolution of intertidal algae, expanding our knowledge of the HGT genes and symbiotic microorganisms to enhance their resilience and survival in challenging intertidal environments.

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