| URL: | http://db.phasep.pro/ |
| Full name: | database of phase-separation related proteins |
| Description: | Phase separation PS proteins form droplets to regulate myriad membraneless organelles MLOs and cellular pathways such as transcription, signaling transduction and protein degeneration. With growing interest in PS condensates and associated proteins, we introduce PhaSepDB, which provides a collection of manually curated phase separation PS proteins and Membraneless organelles MLOs related proteins. As of June 2022, 1419 PS entries, 507 high throughput PS entries, 73 MLOs, 770 low throughput MLO related entries and 7303 high throughput MLO related entries were included. |
| Year founded: | 2020 |
| Last update: | 2022 |
| Version: | v2.1 |
| Accessibility: |
Accessible
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| Country/Region: | China |
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| University/Institution: | Peking University |
| Address: | Department of Biomedical Informatics, Peking University Health Science Center, Beijing 100191, China |
| City: | Beijing |
| Province/State: | Beijing |
| Country/Region: | China |
| Contact name (PI/Team): | Tingting Li |
| Contact email (PI/Helpdesk): | litt@hsc.pku.edu.cn |
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PhaSepDB in 2022: annotating phase separation-related proteins with droplet states, co-phase separation partners and other experimental information. [PMID: 36124686]
Phase separation (PS) proteins form droplets to regulate myriad membraneless organelles (MLOs) and cellular pathways such as transcription, signaling transduction and protein degeneration. PS droplets are usually liquid-like and can convert to hydrogel/solid-like under certain conditions. The PS behavior of proteins is regulated by co-PS partners and mutations, modifications, oligomerizations, repeat regions and alternative splicing of the proteins. With growing interest in PS condensates and associated proteins, we established PhaSepDB 1.0, which provided experimentally verified PS proteins and MLO-related proteins. The past few years witnessed a surge in PS-related research works; thus, we kept updating PhaSepDB. The current PhaSepDB contains 1419 PS entries, 770 low-throughput MLO-related entries and 7303 high-throughput MLO-related entries. We provided more detailed annotations of PS proteins, including PS verification experiments, regions used in experiments, phase diagrams of different experimental conditions, droplet states, co-PS partners and PS regulatory information. We believe that researchers can go further in studying PS proteins with the updated PhaSepDB (http://db.phasep.pro/). |
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PhaSepDB: a database of liquid-liquid phase separation related proteins. [PMID: 31584089]
It's widely appreciated that liquid-liquid phase separation (LLPS) underlies the formation of membraneless organelles, which function to concentrate proteins and nucleic acids. In the past few decades, major efforts have been devoted to identify the phase separation associated proteins and elucidate their functions. To better utilize the knowledge dispersed in published literature, we developed PhaSepDB (http://db.phasep.pro/), a manually curated database of phase separation associated proteins. Currently, PhaSepDB includes 2914 non-redundant proteins localized in different organelles curated from published literature and database. PhaSepDB provides protein summary, publication reference and sequence features of phase separation associated proteins. The sequence features which reflect the LLPS behavior are also available for other human protein candidates. The online database provides a convenient interface for the research community to easily browse, search and download phase separation associated proteins. As a centralized resource, we believe PhaSepDB will facilitate the future study of phase separation. |