Project description:Eudemis profundana (diamond-back marble)

Project description:Eudemis profundana (diamond-back marble) genome assembly, ilEudProf1, alternate haplotype

Project description:Eudemis profundana (diamond-back marble), genomic and transcriptomic data

Project description:Eudemis profundana overview

Project description:Diamond Back Moth treatment

Project description:Investigation of the function of GUN1 in the chloroplast (post)-transcriptome We performed gene expression profiling analysis using data obtained from lncRNA-seq of gun1 seedlings with white, marble or green cotyledons

Project description:Apotomis capreana (sallow marble) genome assembly, ilApoCapr1

Project description:Apotomis betuletana (birch marble) genome assembly, ilApoBetu1

Project description:Celypha lacunana (common marble) genome assembly, ilCelLacu3

Project description:Unique traits of pluripotent stem cells are not fully known. Using thermal proteome profiling, we identified reduced stability of ribosomes in induced pluripotent cells (iPSCs) compared to that in somatic cells. Also, iPSCs exhibited lower protein synthesis rate and lower expression of a ribosome maturation factor, the Shwachman-Bodian-Diamond Syndrome protein (SBDS). Differentiation of iPSCs led to upregulation of SBDS and knock-down of SBDS slowed the differentiation while increasing expression of master pluripotency markers NANOG and OCT4. Mutations in the SBDS gene have been shown to impair ribosome assembly and to inhibit differentiation of hematopoietic stem cells causing the Shwachman-Diamond syndrome. Physiological SBDS-dependent destabilization of ribosomes appears to be a tool for translational control providing robustness to the state of pluripotency.