Difference between revisions of "Main Page"
(→Catalytically inactive phosphatases (pseudophosphatases)) |
(→Catalytically inactive phosphatases (pseudophosphatases)) |
||
| Line 14: | Line 14: | ||
===== [[Pseudophosphatases|Catalytically inactive phosphatases]] (pseudophosphatases) ===== | ===== [[Pseudophosphatases|Catalytically inactive phosphatases]] (pseudophosphatases) ===== | ||
| − | Protein phosphatases have various functions. Some protein phosphatases lack catalytically activity, | + | Protein phosphatases have various functions. Some protein phosphatases lack catalytically activity, but them play critical roles in various cellular signaling pathways. |
===== Protein phosphatase evolution ===== | ===== Protein phosphatase evolution ===== | ||
Revision as of 16:31, 8 October 2015
Welcome to Phosphatase Wiki, a resource for of phosphatases and phosphatase signaling. This is a pilot project for sharing and publication of discoveries that do not fit into traditional publications or haven't yet been polished for publication. Initial content is mostly from the Manning lab at Salk (moved to Genentech in 2012), but we welcome anyone who would like to contribute. Like other wiki's, just go to the login page to request an account.
Introduction to Phosphatases
- Phosphatases and diseases
- Phosphatases as drug and/or inhibitor targets
- Miscellaneous biological and clinic significance of phosphorylation
- (De)phosphorylation on unusual amino acids: unusual evidence for phosphorylation on histidine, aspartate, cysteine, lysine, and arginine.
- Regulatory subunits: some phosphatases, particularly PPPs, consist of a common heteromeric core enzyme, which is composed of a catalytic subunit and a constant regulatory subunit, that associates with a variety of regulatory subunits.
Protein Phosphatase Classification and Evolution
Classification chart
In contrast with kinases, there are multiple folds of protein phosphatases, which means protein phosphatases have multiple independent evolutionary origins, while most kinases have a single origin. We classified protein phosphatases into a hierarchy scheme of four levels: fold, superfamily, family and subfamily.
Catalytically inactive phosphatases (pseudophosphatases)
Protein phosphatases have various functions. Some protein phosphatases lack catalytically activity, but them play critical roles in various cellular signaling pathways.
