Project description:Anchored Phylogenomics of Cariceae-Dulichieae-Scirpeae (CDS) clade, Cyperoideae, Cyperaceae

Project description:Pathways underlying miRNA biogenesis, degradation, and activity were established early in land plant evolution, but the 24-nt siRNA pathway that guides DNA methylation was incomplete in early land plants, especially lycophytes. We show that the functional diversification of key gene families such as DICER-LIKE and ARGONAUTE (AGO) as observed in angiosperms occurred early in land plants followed by parallel expansion of the AGO family in ferns and angiosperms. We uncovered an unexpected AGO family specific to lycophytes and ferns. Our phylogenetic analyses of miRNAs in lycophytes, bryophytes, ferns, and angiosperms refined the temporal origination of conserved miRNA families in land plants.

Project description:bra-inra09-01_bioen - abi4 - Diversification of the Molecular Mechanisms Involved in the Control of the Energetic Balance in Angiosperms - Abi4 is regulator pleotropic that interview in the metabolism glucose 12 dye-swap - wt vs mutant comparison

Project description:bra-inra09-01_bioen - abi4 - Diversification of the Molecular Mechanisms Involved in the Control of the Energetic Balance in Angiosperms - Abi4 is regulator pleotropic that interview in the metabolism glucose

Project description:Neuropterida phylogeny using Anchored Phylogenomics

Project description:Streptococcus suis is an important zoonotic pathogen that can cause meningitis and sepsis in both pigs and humans. In this study,we evaluated the genetic difference of 40 Streptococcus suis strains belonging to various sequence types by comparative genomic hybridization to identify genes associated with the variation in pathogenicity using NimbleGen’s tilling microarray platform. Application of Comparative Phylogenomics to Identify Genetic Differences Relating to Pathogenicity of Streptococcus suis

Project description:Molecular phylogenomics investigates evolutionary relationships based on genomic data. However, despite genomic sequence conservation, changes in protein interactions can occur relatively rapidly and may cause strong functional diversification. To investigate such functional evolution, we here combine phylogenomics with interaction proteomics. We develop this concept by investigating the molecular evolution of the shelterin complex, which protects telomeres, across 16 vertebrate species from zebrafish to humans covering 450 million years of evolution. Our phylointeractomics screen discovers previously unknown telomere-associated proteins and reveals how homologous proteins undergo functional evolution. For instance, we show that TERF1 evolved as a telomere-binding protein in the common stem lineage of marsupial and placental mammals. Phylointeractomics is a versatile and scalable approach to investigate evolutionary changes in protein function and thus can provide experimental evidence for phylogenomic relationships.

Project description:A genome-wide phylogeny and the diversification of genus Liriomyza (Diptera: Agromyzidae) inferred from anchored phylogenomics

Project description:The phylogenomics of diversification on an island: applying Anchored Hybrid Enrichment to New Zealand Leptospermum scoparium (Myrtaceae)

Project description:bra-inra09-01_bioen - cordycepin - Diversification of the Molecular Mechanisms Involved in the Control of the Energetic Balance in Angiosperms - To evaluate the importance of mRNA stability control in glucose signaling, genome wide RNA transcript levels changes will be evaluated in response to short term treatments with glucose or glucose plus abscisic acid (ABA) under conditions of transcriptional inhibition in Arabidopsis. The underlying mechanisms will be investigated for a selected number of co-regulated genes (transcription factors, kinases). 12 dye-swap - treatment variations