EMBL researchers and collaborators have developed SDR-seq, a breakthrough single-cell technology that captures DNA and RNA ...

EMBL researchers created SDR-seq, a next-generation tool that decodes both DNA and RNA from the same cell. It finally opens ...

By examining genomic variation more closely, scientists can now identify new disease connections with greater speed and accuracy. For centuries, scientists have recognized that certain illnesses can ...

Scientists have long suspected connections between heredity and disease, dating back to Hippocrates, who observed certain ...

Two new research papers from the Living Brain Project at Mount Sinai present what is, by several metrics, the largest ...

Alternative splicing exhibits lineage-specific variability, with mammals and birds reaching the highest levels despite conserved intron-rich architectures, while unicellular eukaryotes and prokaryotes ...

Overview of the process of obtaining genomic diversity of influenza virus in a population replicated from a single particle. (a) MDCK cells were infected with influenza vi ...

Researchers led by Prof. GAO Caixia from the Institute of Genetics and Developmental Biology of the Chinese Academy of Sciences, together with their collaborators, uncovered the molecular innovation ...

Wiring up the brain's trillions of circuit connections is an enormous job performed by a huge crew of molecules. Among the less understood members are circular RNAs, transcripts from DNA that assume a ...

New work shows that physical folding of the genome to control genes located far away may have been an early evolutionary ...

Captive life does more than change routines for bears and pandas. It also changes the microscopic communities living in their ...