Difference between revisions of "Phosphatase Subfamily Dullard"
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Dullard, is also known as CTDNEP1 (CTD nuclear envelope phosphatase 1). It participates in a unique phosphatase cascade regulating nuclear membrane biogenesis, and the cascade is conserved from yeast to human <cite>Kim07</cite> (in particular, Figure 5B). Dullard, as well as its substrate, phosphatidic acid phosphatase, lipin, is conserved from yeast to human. | Dullard, is also known as CTDNEP1 (CTD nuclear envelope phosphatase 1). It participates in a unique phosphatase cascade regulating nuclear membrane biogenesis, and the cascade is conserved from yeast to human <cite>Kim07</cite> (in particular, Figure 5B). Dullard, as well as its substrate, phosphatidic acid phosphatase, lipin, is conserved from yeast to human. | ||
| − | == Substrates and Related Kinases == | + | |
| + | ===Evolution=== | ||
| + | Dullard is conserved from yeast to human, so is its substrate lipin and the kinases phosphorylating lipin. However, interestingly, the kinases in yeast and mammals are of different families, though both of them are present in yeast and mammals. It is quite interesting that the same molecular function are carried out by different protein families in yeast and mammals. | ||
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| + | ===Domain Structure=== | ||
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| + | |||
| + | ===Substrates and Related Kinases=== | ||
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2. mTOR (in mammals). Lipin has multiple phosphorylation sites. Though many kinases may involve in the multisite phosphorylation, mTOR plays an important role <cite>Huffman02</cite>. | 2. mTOR (in mammals). Lipin has multiple phosphorylation sites. Though many kinases may involve in the multisite phosphorylation, mTOR plays an important role <cite>Huffman02</cite>. | ||
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===Catalytic activity=== | ===Catalytic activity=== | ||
Revision as of 05:17, 29 December 2014
Phosphatase Classification: FCP:Subfamily Dullard
Dullard, is also known as CTDNEP1 (CTD nuclear envelope phosphatase 1). It participates in a unique phosphatase cascade regulating nuclear membrane biogenesis, and the cascade is conserved from yeast to human [1] (in particular, Figure 5B). Dullard, as well as its substrate, phosphatidic acid phosphatase, lipin, is conserved from yeast to human.
Evolution
Dullard is conserved from yeast to human, so is its substrate lipin and the kinases phosphorylating lipin. However, interestingly, the kinases in yeast and mammals are of different families, though both of them are present in yeast and mammals. It is quite interesting that the same molecular function are carried out by different protein families in yeast and mammals.
Domain Structure
Substrates and Related Kinases
| Phosphatase | Lipin | Kinase | |
|---|---|---|---|
| Yeast | Nem1-Spo7 complex | Smp2 | Cdc28/Cdk1 |
| Mammals | Dullard (-? complex) | LIPIN | mTOR |
Note: i) The kinases are of different families in yeast and mammals, though both of them are conserved from yeast to human. (The tree of the family containing yeast Cdc28 may be wrong is KinBase). ii) Dullard may have a unknown partner.
1. Cdc28/Cdk1 (in yeast). Smp2 is phosphorylated by Cdc28/Cdk1 and dephosphorylated by a nuclear/endoplasmic reticulum (ER) membrane-localized CPD phosphatase complex consisting of Nem1 and Spo7 [2].
2. mTOR (in mammals). Lipin has multiple phosphorylation sites. Though many kinases may involve in the multisite phosphorylation, mTOR plays an important role [3].
Catalytic activity
Curation notes
References
Error fetching PMID 15889145:
Error fetching PMID 11792863:
- Error fetching PMID 17420445:
- Error fetching PMID 15889145:
- Error fetching PMID 11792863:
Links
Human Dullard from NCBI Gene
