Carrie M. Garrett-Engele scite author profile

Summary Protein quality control (PQC) degradation systems protect the cell from the toxic accumulation of misfolded proteins. Because any protein can become misfolded, these systems must be able to distinguish abnormal proteins from normal ones, yet be capable of recognizing the wide variety of distinctly shaped misfolded proteins they are likely to encounter. How individual PQC degradation systems accomplish this remains an open question. Here we show that the yeast nuclear PQC ubiquitin ligase San1 directly recognizes its misfolded substrates via intrinsically disordered N- and C-terminal domains. These disordered domains are punctuated with small segments of order and high sequence conservation that serve as substrate-recognition sites San1 uses to target its different substrates. We propose that these substrate-recognition sites, interspersed among flexible, disordered regions, provide San1 an inherent plasticity that allows it to bind its many, differently shaped misfolded substrates.

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Two Putative Acetyltransferases, San and Deco, Are Required for Establishing Sister Chromatid Cohesion in Drosophila

Williams

et al. 2003

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Testing the importance of p27 degradation by the SCF ^skp2 pathway in murine models of lung and colon cancer

Timmerbeul¹,

Garrett-Engele

Kossatz-Boehlert³

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

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Decreased expression of the CDK inhibitor p27 kip1 in human tumors directly correlates with increased resistance to chemotherapies, increased rates of metastasis, and an overall increased rate of patient mortality. It is thought that decreased p27 expression in tumors is caused by increased proteasomal turnover, in particular activation of the pathway governed by the SCF skp2 E3 ubiquitin protein ligase. We have directly tested the importance of the SCF skp -mediated degradation of p27 in tumorigenesis by analyzing the tumor susceptibility of mice that express a form of p27 that cannot be ubiquitinated and degraded by this pathway (p27T187A). In mouse models of both lung and colon cancer down-regulation of p27 promotes tumorigenesis. However, we found that preventing p27 degradation by the SCF skp2 pathway had no impact on tumor incidence or overall survival in either tumor model. Our study unveiled a previously unrecognized role for the control of p27 mRNA abundance in the development of non-small cell lung cancers. In the colon cancer model, the frequency of intestinal adenomas was similarly unaffected by the p27T187A mutation, but, unexpectedly, we found that it inhibited progression of intestinal adenomas to carcinomas. These studies may guide the choice of clinical settings in which pharmacologic inhibitors of the Skp2 pathway might be of therapeutic value.cell cycle ͉ lung cancer ͉ ubiquitylation ͉ F-box protein

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intersex, a gene required for female sexual development inDrosophila, is expressed in both sexes and functions together withdoublesexto regulate terminal differentiation

et al. 2002

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Previous genetic studies indicated intersex (ix) functions only in females and that it acts near the end of the sex determination hierarchy to control somatic sexual differentiation in Drosophila melanogaster. We have cloned ix and characterized its function genetically, molecularly and biochemically. The ix pre-mRNA is not spliced, and ix mRNA is produced in both sexes. The ix gene encodes a 188 amino acid protein, which has a sequence similar to mammalian proteins thought to function as transcriptional activators, and a Caenorhabditis elegans protein that is thought to function as a transcription factor. Bringing together the facts that (1) the ix phenotype is female-specific and (2) functions at the end of the sex determination hierarchy, yet (3) is expressed sex non-specifically and appears likely to encode a transcription factor with no known DNA-binding domain, leads to the inference that ix may require the female-specific protein product of the doublesex (dsx) gene in order to function. Consistent with this inference, we find that for all sexually dimorphic cuticular structures examined, ix and dsx are dependent on each other to promote female differentiation. This dependent relationship also holds for the only known direct target of dsx, the Yolk protein (Yp) genes. Using yeast 2-hybrid assay, immunoprecipitation of recombinant tagged IX and DSX proteins from Drosophila S2 cell extracts, and gel shifts with the tagged IX and DSXF proteins, we demonstrate that IX interacts with DSXF, but not DSXM. Taken together, the above findings strongly suggest that IX and DSXF function in a complex, in which IX acts as a transcriptional co-factor for the DNA-binding DSXF.

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