Tereza Clarence scite author profile

We present the results for CAPRI Round 50, the fourth joint CASP-CAPRI protein assembly prediction challenge. The Round comprised a total of twelve targets, including six dimers, three trimers, and three higher-order oligomers. Four of these were easy targets, for which good structural templates were available either for the full assembly, or for the main interfaces (of the higher-order oligomers). Eight were

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Emergence of novel cephalopod gene regulation and expression through large-scale genome reorganization

Schmidbaur

Kawaguchi

Clarence

et al. 2022

Nat Commun

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Coleoid cephalopods (squid, cuttlefish, octopus) have the largest nervous system among invertebrates that together with many lineage-specific morphological traits enables complex behaviors. The genomic basis underlying these innovations remains unknown. Using comparative and functional genomics in the model squid Euprymna scolopes, we reveal the unique genomic, topological, and regulatory organization of cephalopod genomes. We show that coleoid cephalopod genomes have been extensively restructured compared to other animals, leading to the emergence of hundreds of tightly linked and evolutionary unique gene clusters (microsyntenies). Such novel microsyntenies correspond to topological compartments with a distinct regulatory structure and contribute to complex expression patterns. In particular, we identify a set of microsyntenies associated with cephalopod innovations (MACIs) broadly enriched in cephalopod nervous system expression. We posit that the emergence of MACIs was instrumental to cephalopod nervous system evolution and propose that microsyntenic profiling will be central to understanding cephalopod innovations.

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Multi-omic profiling of the developing human cerebral cortex at the single cell level

Zhu

Bendl

Rahman

et al. 2022

Preprint

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The cellular complexity of the human brain is established via dynamic changes in gene expression throughout development that is mediated, in part, by the spatiotemporal activity of cis-regulatory elements. We simultaneously profiled gene expression and chromatin accessibility in 45,549 cortical nuclei across 6 broad developmental time-points from fetus to adult. We identified cell-type specific domains in which chromatin accessibility is highly correlated with gene expression. Differentiation pseudotime trajectory analysis indicates that chromatin accessibility at cis-regulatory elements precedes transcription and that dynamic changes in chromatin structure play a critical role in neuronal lineage commitment. In addition, we mapped cell-type and temporally specific genetic loci implicated in neuropsychiatric traits, including schizophrenia and bipolar disorder. Together, our results describe the complex regulation of cell composition at critical stages in lineage determination, serve as a developmental blueprint of the human brain and shed light on the impact of spatiotemporal alterations in gene expression on neuropsychiatric disease.One-Sentence SummarySimultaneous profiling of gene expression and chromatin accessibility in single nuclei from 6 developmental time-points sheds light on cell fate determination in the human cerebral cortex and on the molecular basis of neuropsychiatric disease.

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The role of bivalent ions in the regulation of D-loop extension mediated by DMC1 during meiotic recombination

Altmannová¹,

Špı́rek²,

Orlic³

et al. 2022

iScience

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Robust 3D Modelling Reveals Spatiosyntenic Properties of Animal Genomes

et al. 2022

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Tereza Clarence

Prediction of protein assemblies, the next frontier: The CASP14‐CAPRI experiment

Emergence of novel cephalopod gene regulation and expression through large-scale genome reorganization

Multi-omic profiling of the developing human cerebral cortex at the single cell level

The role of bivalent ions in the regulation of D-loop extension mediated by DMC1 during meiotic recombination

Robust 3D Modelling Reveals Spatiosyntenic Properties of Animal Genomes

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