NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling

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Standard

NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling. / Sørensen, Claus Storgaard; Melixetian, Marina; Klein, Ditte Kjaersgaard; Helin, Kristian.

I: Cell Cycle, Bind 9, Nr. 3, 2010, s. 450-5.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Sørensen, CS, Melixetian, M, Klein, DK & Helin, K 2010, 'NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling', Cell Cycle, bind 9, nr. 3, s. 450-5.

APA

Sørensen, C. S., Melixetian, M., Klein, D. K., & Helin, K. (2010). NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling. Cell Cycle, 9(3), 450-5.

Vancouver

Sørensen CS, Melixetian M, Klein DK, Helin K. NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling. Cell Cycle. 2010;9(3):450-5.

Author

Sørensen, Claus Storgaard ; Melixetian, Marina ; Klein, Ditte Kjaersgaard ; Helin, Kristian. / NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling. I: Cell Cycle. 2010 ; Bind 9, Nr. 3. s. 450-5.

Bibtex

@article{53618b903cd011df928f000ea68e967b,

title = "NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling",

abstract = "The DNA damage induced G(2)/M checkpoint is an important guardian of the genome that prevents cell division when DNA lesions are present. The checkpoint prevents cells from entering mitosis by degrading CDC25A, a key CDK activator. CDC25A proteolysis is controlled by direct phosphorylation events that lead to its recognition by the ubiquitin ligase beta-TrCP. Recently we have identified NEK11, a member of NIMA-related kinase family, as the critical kinase triggering CDC25A degradation. NEK11 controls degradation of CDC25A by directly phosphorylating CDC25A on residues whose phosphorylation is required for beta-TrCP mediated CDC25A polyubiquitylation and degradation. The activity of NEK11 is in turn controlled by CHK1 that activates NEK11 via phosphorylation on serine 273. Since inhibition of NEK11 activity forces checkpoint-arrested cells into mitosis and cell death, NEK11 is, like CHK1, a strong candidate target for the development of novel anticancer drugs. Here we further support this notion by showing results suggesting that NEK11 expression increases during colon cancer development.",

author = "S{\o}rensen, {Claus Storgaard} and Marina Melixetian and Klein, {Ditte Kjaersgaard} and Kristian Helin",

year = "2010",

language = "English",

volume = "9",

pages = "450--5",

journal = "Cell Cycle",

issn = "1538-4101",

publisher = "Taylor & Francis",

number = "3",

}

RIS

TY - JOUR

T1 - NEK11: linking CHK1 and CDC25A in DNA damage checkpoint signaling

AU - Sørensen, Claus Storgaard

AU - Melixetian, Marina

AU - Klein, Ditte Kjaersgaard

AU - Helin, Kristian

PY - 2010

Y1 - 2010

N2 - The DNA damage induced G(2)/M checkpoint is an important guardian of the genome that prevents cell division when DNA lesions are present. The checkpoint prevents cells from entering mitosis by degrading CDC25A, a key CDK activator. CDC25A proteolysis is controlled by direct phosphorylation events that lead to its recognition by the ubiquitin ligase beta-TrCP. Recently we have identified NEK11, a member of NIMA-related kinase family, as the critical kinase triggering CDC25A degradation. NEK11 controls degradation of CDC25A by directly phosphorylating CDC25A on residues whose phosphorylation is required for beta-TrCP mediated CDC25A polyubiquitylation and degradation. The activity of NEK11 is in turn controlled by CHK1 that activates NEK11 via phosphorylation on serine 273. Since inhibition of NEK11 activity forces checkpoint-arrested cells into mitosis and cell death, NEK11 is, like CHK1, a strong candidate target for the development of novel anticancer drugs. Here we further support this notion by showing results suggesting that NEK11 expression increases during colon cancer development.

AB - The DNA damage induced G(2)/M checkpoint is an important guardian of the genome that prevents cell division when DNA lesions are present. The checkpoint prevents cells from entering mitosis by degrading CDC25A, a key CDK activator. CDC25A proteolysis is controlled by direct phosphorylation events that lead to its recognition by the ubiquitin ligase beta-TrCP. Recently we have identified NEK11, a member of NIMA-related kinase family, as the critical kinase triggering CDC25A degradation. NEK11 controls degradation of CDC25A by directly phosphorylating CDC25A on residues whose phosphorylation is required for beta-TrCP mediated CDC25A polyubiquitylation and degradation. The activity of NEK11 is in turn controlled by CHK1 that activates NEK11 via phosphorylation on serine 273. Since inhibition of NEK11 activity forces checkpoint-arrested cells into mitosis and cell death, NEK11 is, like CHK1, a strong candidate target for the development of novel anticancer drugs. Here we further support this notion by showing results suggesting that NEK11 expression increases during colon cancer development.

M3 - Journal article

C2 - 20090422

VL - 9

SP - 450

EP - 455

JO - Cell Cycle

JF - Cell Cycle

SN - 1538-4101

IS - 3

ER -

ID: 18947772