2kap

Solution structure of DLC1-SAMSolution structure of DLC1-SAM

Structural highlights

2kap is a 1 chain structure with sequence from Homo sapiens. Full experimental information is available from OCA. For a guided tour on the structure components use FirstGlance.
Method:	Solution NMR
Resources:	FirstGlance, OCA, PDBe, RCSB, PDBsum, ProSAT

Function

RHG07_HUMAN Functions as a GTPase-activating protein for the small GTPases RHOA, RHOB, RHOC and CDC42, terminating their downstream signaling. This induces morphological changes and detachment through cytoskeletal reorganization, playing a critical role in biological processes such as cell migration and proliferation. Also functions in vivo as an activator of the phospholipase PLCD1. Active DLC1 increases cell migration velocity but reduces directionality.^[1] ^[2] ^[3]

Evolutionary Conservation

Check, as determined by ConSurfDB. You may read the explanation of the method and the full data available from ConSurf.

Publication Abstract from PubMed

Sterile alpha motif (SAM) domains are found in many different proteins and shown to play important roles in various biological processes. The N-terminal domain of deleted in liver cancer 1 (DLC1) protein is a SAM domain which exists in a monomeric form in aqueous solution and facilitates the distribution of EF1A1 to the membrane periphery and ruffles upon growth factor stimulation. Here, we report the structure of an N-terminal truncated DLC1 SAM domain (DLC1-SAM) and its urea-induced equilibrium unfolding investigated with various biophysical methods such as CD, fluorescence emission spectroscopy, and NMR. CD and tryptophan intrinsic fluorescence emission data imply that the unfolding of DLC1-SAM follows a simple two-state mechanism, yet the NMR data suggest the presence of at least one intermediate state. The intermediate cannot be detected by NMR, but it does not exist in large aggregates as shown by analytical ultracentrifugation experiments. Analysis of the free energy values for different residues shows that in the transition from the native state to non-native states the C-terminal helix is somewhat more stable than the other parts of the protein, whereas in the transition from the native and intermediate states to the denatured state, the stabilities of different residues are similar except for that of the region surrounding residues D37-F40 which has lower stability and is more readily denatured at high urea concentrations. Analysis of the midpoints of the transitions shows that the unfolding of the native state and formation of the denatured state are not cooperative and the unfolding of only a few residues seems to follow a two-state mechanism.

Characterization of DLC1-SAM equilibrium unfolding at the amino acid residue level.,Yang S, Noble CG, Yang D Biochemistry. 2009 May 19;48(19):4040-9. PMID:19317456^[4]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

References

↑ Kim TY, Healy KD, Der CJ, Sciaky N, Bang YJ, Juliano RL. Effects of structure of Rho GTPase-activating protein DLC-1 on cell morphology and migration. J Biol Chem. 2008 Nov 21;283(47):32762-70. doi: 10.1074/jbc.M800617200. Epub 2008, Sep 11. PMID:18786931 doi:10.1074/jbc.M800617200
↑ Kawai K, Iwamae Y, Yamaga M, Kiyota M, Ishii H, Hirata H, Homma Y, Yagisawa H. Focal adhesion-localization of START-GAP1/DLC1 is essential for cell motility and morphology. Genes Cells. 2009 Feb;14(2):227-41. doi: 10.1111/j.1365-2443.2008.01265.x. Epub, 2008 Jan 15. PMID:19170769 doi:10.1111/j.1365-2443.2008.01265.x
↑ Erlmann P, Schmid S, Horenkamp FA, Geyer M, Pomorski TG, Olayioye MA. DLC1 activation requires lipid interaction through a polybasic region preceding the RhoGAP domain. Mol Biol Cell. 2009 Oct;20(20):4400-11. doi: 10.1091/mbc.E09-03-0247. Epub 2009, Aug 26. PMID:19710422 doi:10.1091/mbc.E09-03-0247
↑ Yang S, Noble CG, Yang D. Characterization of DLC1-SAM equilibrium unfolding at the amino acid residue level. Biochemistry. 2009 May 19;48(19):4040-9. PMID:19317456 doi:10.1021/bi9000936

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OCA

[1] Kim TY, Healy KD, Der CJ, Sciaky N, Bang YJ, Juliano RL. Effects of structure of Rho GTPase-activating protein DLC-1 on cell morphology and migration. J Biol Chem. 2008 Nov 21;283(47):32762-70. doi: 10.1074/jbc.M800617200. Epub 2008, Sep 11. PMID:18786931 doi:10.1074/jbc.M800617200

[2] Kawai K, Iwamae Y, Yamaga M, Kiyota M, Ishii H, Hirata H, Homma Y, Yagisawa H. Focal adhesion-localization of START-GAP1/DLC1 is essential for cell motility and morphology. Genes Cells. 2009 Feb;14(2):227-41. doi: 10.1111/j.1365-2443.2008.01265.x. Epub, 2008 Jan 15. PMID:19170769 doi:10.1111/j.1365-2443.2008.01265.x

[3] Erlmann P, Schmid S, Horenkamp FA, Geyer M, Pomorski TG, Olayioye MA. DLC1 activation requires lipid interaction through a polybasic region preceding the RhoGAP domain. Mol Biol Cell. 2009 Oct;20(20):4400-11. doi: 10.1091/mbc.E09-03-0247. Epub 2009, Aug 26. PMID:19710422 doi:10.1091/mbc.E09-03-0247

[4] Yang S, Noble CG, Yang D. Characterization of DLC1-SAM equilibrium unfolding at the amino acid residue level. Biochemistry. 2009 May 19;48(19):4040-9. PMID:19317456 doi:10.1021/bi9000936

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