PTEN function
From Proteopedia
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==Structure== | ==Structure== | ||
<scene name='78/786030/Pten_molecule/1'>PTEN</scene> is a protein that consists of 403-amino acids. Breaking it down into two main parts (the C-terminal and the N-terminal) it has 166 residues on the C-terminal (C2 Domain) and 179 on the N-terminal (Phosphatase Domain). PTEN is consisted of Alpha helix and Beta pleated sheets. PTEN has a signature motif that forms a Walker loop (Phosphate-bonding loop) HCXXGXXR which is residues 123-130. The pocket of PTEN is about 8 angstroms deep. There are Cys, Arg, His, and Gly within the Walker loop. His and Gly are both important for the Walker loop, while the Cys and Arg are important for the catalytic ability of the PTEN enzyme. One difference from PTEN compared to other know Protein Tyrosine Phosphatases (PTPs) is the location of two Lys residues in the center of the Walker Loop. | <scene name='78/786030/Pten_molecule/1'>PTEN</scene> is a protein that consists of 403-amino acids. Breaking it down into two main parts (the C-terminal and the N-terminal) it has 166 residues on the C-terminal (C2 Domain) and 179 on the N-terminal (Phosphatase Domain). PTEN is consisted of Alpha helix and Beta pleated sheets. PTEN has a signature motif that forms a Walker loop (Phosphate-bonding loop) HCXXGXXR which is residues 123-130. The pocket of PTEN is about 8 angstroms deep. There are Cys, Arg, His, and Gly within the Walker loop. His and Gly are both important for the Walker loop, while the Cys and Arg are important for the catalytic ability of the PTEN enzyme. One difference from PTEN compared to other know Protein Tyrosine Phosphatases (PTPs) is the location of two Lys residues in the center of the Walker Loop. | ||
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| - | <StructureSection load='' size='340' side='right' caption='Caption for this structure' scene='78/786030/Pten_molecule/1'> | ||
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== Function == | == Function == | ||
Current revision
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References
1. Crystal Structure of the PTEN Tumor Suppressor
Lee, Jie-Oh et al. Cell , Volume 99 , Issue 3 , 323 - 334
2. Lee, et al. ?Crystal Structure of the PTEN Tumor Suppressor: Implications for Its Phosphoinositide Phosphatase Activity and Membrane Association.? Acta Crystallogr.,Sect.D, www.rcsb.org/structure/1D5R.
3. Lumb, Craig N., and Mark S.P. Sansom. ?PTEN.? Advances in Pediatrics., U.S. National Library of Medicine, 5 Feb. 2013, www.ncbi.nlm.nih.gov/pmc/articles/PMC3566463/.
4. Mehenni, et al. ?LKB1 Interacts with and Phosphorylates PTEN: a Functional Link between Two Proteins Involved in Cancer Predisposing Syndromes | Human Molecular Genetics | Oxford Academic.? OUP Academic, Oxford University Press, 29 June 2005, academic.oup.com/hmg/article/14/15/2209/551725.
5. ?PTEN Gene - Genetics Home Reference.? U.S. National Library of Medicine, National Institutes of Health, ghr.nlm.nih.gov/gene/PTEN.
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Tanner Young, Michal Harel, Karsten Theis, Alexander Berchansky
