Abstract
Recent studies have revealed presence of fungus-originated genes in genomes of cool-season grasses, suggesting occurrence of multiple ancestral gene transfer events between the two distant lineages. The current article describes identification of glucanase-like and monooxygenase-like genes from creeping bent grass, as lateral gene transfer candidates. An in silico analysis suggested presence of the glucanase-like gene in Agrostis, Deyeuxia, and Polypogon genera, but not in other species belonging to the clade 1 of the Poeae tribe. Similarly, the monooxygenase-like gene was confined to Agrostis and Deyeuxia genera. A consistent result was obtained from PCR-based screening. The glucanase-like gene was revealed to be ubiquitously expressed in young seedlings of creeping bent grass. Although expression of the monooxygenase-like gene was suggested in plant tissues, the levels were considerably lower than those of the glucanase-like gene. A phylogenetic analysis revealed close relationships of the two genes between the corresponding genes in fungal endophyte species of the Epichloë genus, suggesting that the genes originated from the Epichloë lineage.
Highlights
The genus Agrostis [Agrostidinae subtribe, Poeae tribe clade 1 (PC1), Pooideae sub-family] includes around 200 species, and its representative species, such that creeping bent grass and common bent (Agrostis capillaris), are grown world-wide as turf [1]
Into the same clade of the Poeae tribe, oat (Avena sativa L.) and harding grass (Phalaris aquatica L.) are classified, which are cultivated as food and pasture crops, respectively [5]
The current study reports the identification of two horizontal gene transfer (HGT) candidates from creeping bent grass, which show unusually high DNA sequence identities to those of Epichloë
Summary
The genus Agrostis [Agrostidinae subtribe, Poeae tribe clade 1 (PC1), Pooideae sub-family (cool-season grasses)] includes around 200 species, and its representative species, such that creeping bent grass and common bent (Agrostis capillaris), are grown world-wide as turf [1]. The current study reports the identification of two HGT candidates from creeping bent grass, which show unusually high DNA sequence identities to those of Epichloë. Through an alignment of sequences from creeping bent grass and Epichloë species, single nucleotide variations (SNVs) were identified, which could be used for a PCR-RFLP assay.
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