Faithful after break-up: Suppression of chromosomal translocations

Sang Eun Lee; Kyungjae Myung

doi:10.1007/s00018-009-0068-5

Faithful after break-up: Suppression of chromosomal translocations

Sang Eun Lee, Kyungjae Myung

Department of Molecular Medicine

Resultado de la investigación: Review article › revisión exhaustiva

10 Citas (Scopus)

Resumen

Chromosome integrity in response to chemically or radiation-induced chromosome breaks and the perturbation of ongoing replication forks relies on multiple DNA repair mechanisms. However, repair of these lesions may lead to unwanted chromosome rearrangement if not properly executed or regulated. As these types of chromosomal alterations threaten the cell's and the organism's very own survival, multiple systems are developed to avoid or at least limit break-induced chromosomal rearrangements. In this review, we highlight cellular strategies for repressing DNA break-induced chromosomal translocations in multiple model systems including yeast, mouse, and human. These pathways select proper homologous templates or broken DNA ends for the faithful repair of DNA breaks to avoid undesirable chromosomal translocations.

Idioma original	English (US)
Páginas (desde-hasta)	3149-3160
Número de páginas	12
Publicación	Cellular and Molecular Life Sciences
Volumen	66
N.º	19
DOI	https://doi.org/10.1007/s00018-009-0068-5
Estado	Published - oct 2009

ASJC Scopus subject areas

Molecular Medicine
Molecular Biology
Pharmacology
Cellular and Molecular Neuroscience
Cell Biology

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10.1007/s00018-009-0068-5

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abstract = "Chromosome integrity in response to chemically or radiation-induced chromosome breaks and the perturbation of ongoing replication forks relies on multiple DNA repair mechanisms. However, repair of these lesions may lead to unwanted chromosome rearrangement if not properly executed or regulated. As these types of chromosomal alterations threaten the cell's and the organism's very own survival, multiple systems are developed to avoid or at least limit break-induced chromosomal rearrangements. In this review, we highlight cellular strategies for repressing DNA break-induced chromosomal translocations in multiple model systems including yeast, mouse, and human. These pathways select proper homologous templates or broken DNA ends for the faithful repair of DNA breaks to avoid undesirable chromosomal translocations.",

keywords = "Chromosomal translocation, DNA repair, Double strand break, End joining, Homologous recombination",

author = "Lee, {Sang Eun} and Kyungjae Myung",

note = "Funding Information: We are grateful to members of the S. Lee and K. Myung{\textquoteright}s laboratories for helpful discussions. We also thank to D. Walther and D. Daee for editorial help and J. Fekecs (NHGRI) for figure preparation. This work was supported by grants in the National Institutes of Health GM 083010 and the CTRC CDP pilot grants to S.E.L. and the intramural research program of the National Human Genome Research Institute, NIH to K.M. S.E.L. is a Leukemia and Lymphoma Society Scholar.",

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doi = "10.1007/s00018-009-0068-5",

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T2 - Suppression of chromosomal translocations

AU - Lee, Sang Eun

AU - Myung, Kyungjae

N1 - Funding Information: We are grateful to members of the S. Lee and K. Myung’s laboratories for helpful discussions. We also thank to D. Walther and D. Daee for editorial help and J. Fekecs (NHGRI) for figure preparation. This work was supported by grants in the National Institutes of Health GM 083010 and the CTRC CDP pilot grants to S.E.L. and the intramural research program of the National Human Genome Research Institute, NIH to K.M. S.E.L. is a Leukemia and Lymphoma Society Scholar.

PY - 2009/10

Y1 - 2009/10

N2 - Chromosome integrity in response to chemically or radiation-induced chromosome breaks and the perturbation of ongoing replication forks relies on multiple DNA repair mechanisms. However, repair of these lesions may lead to unwanted chromosome rearrangement if not properly executed or regulated. As these types of chromosomal alterations threaten the cell's and the organism's very own survival, multiple systems are developed to avoid or at least limit break-induced chromosomal rearrangements. In this review, we highlight cellular strategies for repressing DNA break-induced chromosomal translocations in multiple model systems including yeast, mouse, and human. These pathways select proper homologous templates or broken DNA ends for the faithful repair of DNA breaks to avoid undesirable chromosomal translocations.

AB - Chromosome integrity in response to chemically or radiation-induced chromosome breaks and the perturbation of ongoing replication forks relies on multiple DNA repair mechanisms. However, repair of these lesions may lead to unwanted chromosome rearrangement if not properly executed or regulated. As these types of chromosomal alterations threaten the cell's and the organism's very own survival, multiple systems are developed to avoid or at least limit break-induced chromosomal rearrangements. In this review, we highlight cellular strategies for repressing DNA break-induced chromosomal translocations in multiple model systems including yeast, mouse, and human. These pathways select proper homologous templates or broken DNA ends for the faithful repair of DNA breaks to avoid undesirable chromosomal translocations.

KW - Chromosomal translocation

KW - DNA repair

KW - Double strand break

KW - End joining

KW - Homologous recombination

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U2 - 10.1007/s00018-009-0068-5

DO - 10.1007/s00018-009-0068-5

M3 - Review article

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AN - SCOPUS:70349319253

SN - 1420-682X

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EP - 3160

JO - Cellular and Molecular Life Sciences

JF - Cellular and Molecular Life Sciences

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Faithful after break-up: Suppression of chromosomal translocations

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ASJC Scopus subject areas

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