The Broad Institute in collaboration with many of the Coprinopsis cinereus (Coprinus cinerea) community of researchers have updated the genome annotation for C. cinereus with additional gene calls based on ESTs and improved gene callers. The annotation was made on the 13 chromosome assembly produced by work by SEMO fungal biology group and collaborators across the globe including a BAC map from H. Muraguchi. Thanks to Jonathan Goldberg and colleagues at the Broad Institute for getting this updated annotation out the door.
This updated annotation is able to join and split several sets of genes and the gene count sits at just under 14k genes in this 36Mb genome. There are a couple of hiccups in the GTF and Genome contig/supercontig file naming that I am told will be fixed by early next week. Additional work to annotate the “Kinome” by the Broad team provides some promising new insight to this genome annotation as well.
We’re using this updated genome assembly address questions about evolution of genome structure by studying syntenic conservation and aspects of crossing over points during meiosis. The C. cinereus system has long been used as model for fungal development and morphogensis of mushrooms as it is straightforward to induce mushroom fruiting in the laboratory. It also a model for studying meiosis due to the synchronized meiosis occurring in the cells in the cap of the mushroom.
Happy genome shrooming.