Project description:plastid genomes

Project description:A large corpus of 112 keratin extracts from archaeological fibres collected in Bronze Age and Iron Age sites of the Keriya valley in the Taklamakan desert (Xinjiang, China) was analyzed by bottom-up proteomics for archaeological purpose.

Project description:To explore whether KSHV infection is a risk factor for osteosarcoma development in ethnic Uyghur population. Sarcoma specimens including tumor, adjacent normal tissues and paired blood samples were obtained from several osteosarcoma patients of Xinjiang China. Then, osteosarcoma clinical samples were subjected to analysis for the presence of the KSHV genome and proteins. Gene expression profiles of these osteosarcomas were analyzed to reveal the pathogenesis of KSHV-positive and -negative osteosarcomas.

Project description:Plastid genomes of Tordylieae

Project description:Chloroplast biogenesis represents a crucial step in seedling development, and is essential for the transition to autotrophic growth in plants. This light-controlled process relies on the transcription of nuclear and plastid genomes that drives the effective assembly and regulation of the photosynthetic machinery. Here we reveal a novel regulation level for this process by showing the involvement of chromatin remodelling in the coordination of nuclear and plastid gene expression for proper chloroplast biogenesis and function. The two Arabidopsis homologs of the yeast EPL1 proteins, core components of the NuA4 histone acetyl-transferase complex, are essential for the correct assembly and performance of chloroplasts. EPL1 proteins are necessary for the coordinated expression of nuclear genes encoding most of the components of chloroplast transcriptional machinery, specifically promoting H4K5Ac deposition in these loci. These data unveil a key participation of epigenetic regulatory mechanisms in the coordinated expression of the nuclear and plastid genomes.

Project description:complete plastid genomes of Quercus

Project description:complete plastid genomes of Quercus

Project description:Sequencing genomes of Xinjiang Brown cattle

Project description:Upon exposure to light, plant cells quickly acquire photosynthetic competence by converting pale etioplasts into green chloroplasts. This developmental transition involves the de novo biogenesis of the thylakoid system, and requires reprogramming of metabolism and gene expression. Etioplast-to-chloroplast differentiation involves massive changes in plastid ultrastructure, but how these changes are connected to specific changes in physiology, metabolism and expression of the plastid and nuclear genomes is poorly understood. Here a new experimental system in the dicotyledonous model plant tobacco (Nicotiana tabacum) that allows us to study the leaf de-etiolation process at the systems level. We have determined the accumulation kinetics of photosynthetic complexes, pigments, lipids and soluble metabolites, and recorded the dynamic changes in plastid ultrastructure and in the nuclear and plastid transcriptomes. Our data describe the greening process at high temporal resolution, resolve distinct genetic and metabolic phases during de-etiolation, and reveal numerous candidate genes that may be involved in light-induced chloroplast development and thylakoid biogenesis.

Project description:Virome of rodents collected in Xinjiang, China