| Accession | PRJCA008842 | ||||||||
|---|---|---|---|---|---|---|---|---|---|
| Title | Decoding ultrasound perception of bat auditory cortex by cross-species comparison | ||||||||
| Relevance | Evolution | ||||||||
| Data types | Single cell sequencing | ||||||||
| Organisms |
Mus musculus
Cynopterus sphinx Rousettus leschenaultii Myotis ricketti Rhinolophus sinicus |
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| Description | Ultrasound perception is important for some mammalian species during their daily life, especially for microbats, which utilize ultrasonic echolocation (UE) to navigate and prey. However, how ultrasound is perceived in the brain remains elusive. As the transformation site from the auditory scene to its perceptual representation, the auditory cortex (AC) is crucial for higher cognitive information. To explore the molecular mechanisms of ultrasound perception, we made comprehensive cross-species comparison between the single-nucleus AC atlas of two UE microbat species (Rhinolophus sinicus and Myotis ricketti) and two non-UE megabat species (Rousettus leschenaultii and Cynopterus sphinx). | ||||||||
| Sample scope | Multispecies | ||||||||
| Release date | 2024-04-30 | ||||||||
| Grants |
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| Submitter | Changliang Wang (yb67610@um.edu.mo) | ||||||||
| Organization | Guangzhou Laboratory | ||||||||
| Submission date | 2021-11-01 |
| Resource name | Description |
|---|---|
| BioSample (95) show | - |
| GSA (5) | - |
| CRA016203 | snRNA-seq for somatosensory cortices (SCs) of both microbats (M. ricketti) and megabats (C.sphinx) |
| CRA016191 | snRNA-seq in five other key components of the auditory pathway |
| CRA016144 | The raw data for genome assembly and annotation of Rousettus leschenaultii and Cynopterus sphinx |
| CRA016104 | Bulk data of mice AUD with Cplx1 KD and rescue |
| CRA006563 | The single nucleus sequencing data of auditory cortex from four bat species |