Systematic biochemical analysis of somatic missense mutations in DNA polymerase [beta] found in prostate cancer reveal alteration of enzymatic function
DNA polymerase [beta] is essential for short-patch base excision repair. We have previously identified 20 somatic pol [beta] mutations in prostate tumors, many of them missense. In the current article we describe the effect of all of these somatic missense pol [beta] mutations (p.K27N, p.E123K, p.E2...
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| Published in | Human mutation Vol. 32; no. 4; p. 415 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Hoboken
Hindawi Limited
01.04.2011
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| Online Access | Get full text |
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| Abstract | DNA polymerase [beta] is essential for short-patch base excision repair. We have previously identified 20 somatic pol [beta] mutations in prostate tumors, many of them missense. In the current article we describe the effect of all of these somatic missense pol [beta] mutations (p.K27N, p.E123K, p.E232K, p.P242R, p.E216K, p.M236L, and the triple mutant p.P261L/T292A/I298T) on the biochemical properties of the polymerase in vitro, following bacterial expression and purification of the respective enzymatic variants. We report that all missense somatic pol [beta] mutations significantly affect enzyme function. Two of the pol [beta] variants reduce catalytic efficiency, while the remaining five missense mutations alter the fidelity of DNA synthesis. Thus, we conclude that a significant proportion (9 out of 26; 35%) of prostate cancer patients have functionally important somatic mutations of pol [beta]. Many of these missense mutations are clonal in the tumors, and/or are associated with loss of heterozygosity and microsatellite instability. These results suggest that interfering with normal polymerase [beta] function may be a frequent mechanism of prostate tumor progression. Furthermore, the availability of detailed structural information for pol [beta] allows understanding of the potential mechanistic effects of these mutants on polymerase function. Hum Mutat 32:1-9, 2011. © 2011 Wiley-Liss, Inc. |
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| AbstractList | DNA polymerase [beta] is essential for short-patch base excision repair. We have previously identified 20 somatic pol [beta] mutations in prostate tumors, many of them missense. In the current article we describe the effect of all of these somatic missense pol [beta] mutations (p.K27N, p.E123K, p.E232K, p.P242R, p.E216K, p.M236L, and the triple mutant p.P261L/T292A/I298T) on the biochemical properties of the polymerase in vitro, following bacterial expression and purification of the respective enzymatic variants. We report that all missense somatic pol [beta] mutations significantly affect enzyme function. Two of the pol [beta] variants reduce catalytic efficiency, while the remaining five missense mutations alter the fidelity of DNA synthesis. Thus, we conclude that a significant proportion (9 out of 26; 35%) of prostate cancer patients have functionally important somatic mutations of pol [beta]. Many of these missense mutations are clonal in the tumors, and/or are associated with loss of heterozygosity and microsatellite instability. These results suggest that interfering with normal polymerase [beta] function may be a frequent mechanism of prostate tumor progression. Furthermore, the availability of detailed structural information for pol [beta] allows understanding of the potential mechanistic effects of these mutants on polymerase function. Hum Mutat 32:1-9, 2011. © 2011 Wiley-Liss, Inc. |
| Author | An, Chang Long Chen, Desheng Makridakis, Nick M |
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| Snippet | DNA polymerase [beta] is essential for short-patch base excision repair. We have previously identified 20 somatic pol [beta] mutations in prostate tumors, many... |
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| Title | Systematic biochemical analysis of somatic missense mutations in DNA polymerase [beta] found in prostate cancer reveal alteration of enzymatic function |
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