Litcius/Paper detail

To dry perchance to live: Insights from the genome of the desiccation‐tolerant biocrust moss <i>Syntrichia caninervis</i>

Anderson Tadeu Silva, Bei Gao, Kirsten M. Fisher, Brent D. Mishler, Jenna T. B. Ekwealor, Lloyd R. Stark, Xiaoshuang Li, Daoyuan Zhang, Matthew A. Bowker, John C. Brinda, Kirsten K. Coe, Melvin J. Oliver

2020The Plant Journal102 citationsDOIOpen Access PDF

Abstract

With global climate change, water scarcity threatens whole agro/ecosystems. The desert moss Syntrichia caninervis, an extremophile, offers novel insights into surviving desiccation and heat. The sequenced S. caninervis genome consists of 13 chromosomes containing 16 545 protein-coding genes and 2666 unplaced scaffolds. Syntenic relationships within the S. caninervis and Physcomitrella patens genomes indicate the S. caninervis genome has undergone a single whole genome duplication event (compared to two for P. patens) and evidence suggests chromosomal or segmental losses in the evolutionary history of S. caninervis. The genome contains a large sex chromosome composed primarily of repetitive sequences with a large number of Copia and Gypsy elements. Orthogroup analyses revealed an expansion of ELIP genes encoding proteins important in photoprotection. The transcriptomic response to desiccation identified four structural clusters of novel genes. The genomic resources established for this extremophile offer new perspectives for understanding the evolution of desiccation tolerance in plants.

Topics & Concepts

BiologyPhyscomitrella patensDesiccationGenomeDesiccation toleranceExtremophileGenome evolutionSyntenyComparative genomicsGeneGenome sizeMossPhylogenomicsGenomicsGeneticsBotanyPhylogeneticsThermophileBacteriaMutantCladeBiocrusts and Microbial EcologyPhotosynthetic Processes and MechanismsAlgal biology and biofuel production