Project description:The complete chloroplast genome of Saussurea medusa

Project description:Saussurea medusa overview

Project description:Raw sequence reads of chloroplast genome of Saussurea phaeantha

Project description:Raw sequence reads of chloroplast genome of Saussurea inversa

Project description:Saussurea inversa Raw sequence reads

Project description:Saussurea involucrata Raw sequence reads

Project description:Here we identify and characterize a spontaneous mutant allele that disrupts the initiation and specification of the ovule integument in Mimulus nudatus. The mutant phenotype is characterized by the early arrest of the ovule integument or alternatively, the delayed development of a carpel-like structure in place of the integument. Additionally, medusa mutant ovule primordia fail to develop female gametophytic structures. Morphological analyses indicate that a nucellar domain is specified within the ovule and a megaspore-like cell is often specified, but that cell aborts before generating the female gametophyte. We mapped the position of the mutation to a location on Chromosome1. Mapping revealed a primary candidate gene that was a member of a family of MADS-domain containing transcription factors with sequence similarity to the Arabidopsis BEL1 gene (At5G41410) and is an orthologue of the Mimulus guttatus gene MgTOL.A0789.1. Analysis of the sequence of the Mimulus nudatus homolog (referred hereafter as MnBEL1) locus, revealed the insertion of a mitochondrial DNA genomic fragment within the MnBEL1 locus that segregated with the medusa mutant phenotype. The mitochondrial insertion sequence is predicted to disrupt the coding sequence of MnBEL1. RNA expression analysis revealed dramatically reduced levels of the expression of the MnBEL1 in gynoecia from medusa mutant plants relative to wild type sisters. RNA seq analysis revealed that the medusa mutant seedpods failed to express MnBEL1 at wildtype levels. RNA sequence data comparisons between wildtype and medusa mutant seedpods also identified a set of genes, that are expressed in wildtype seedpods, but that are expressed at very low levels or that are not detected in the medusa seed pods. Homologues of many of these genes have been previously shown to be strongly expressed in female gametophyte in Arabidopsis. This RNA seq analysis further indicates a strong developmental disruption and identifies sets of genes with expected roles in female gametophyte development in Mimulus species for further investigation. Our evidence strongly suggests that MnBEL1 is a true functional orthologue of AtBEL1. To the best of our knowledge, these studies provide the first mutational analysis of a BEL1 orthologue outside of Arabidopsis and indicate the functional conservation of this gene between Mimulus and Arabidopsis. This work also presents the first identification of a mutational event in Mimulus that is linked to an insertion of a mitochondrial sequence in the nuclear genome.

Project description:Loimia medusa overview

Project description:Erebia medusa overview

Project description:Saussurea wettsteiniana Genome sequencing