Evolution and mutagenesis of the mammalian excision repair gene ERCC-1

M. van Duin; J. van Den Tol; P. Warmerdam; H. Odijk; D. Meijer; A. Westerveld; D. Bootsma; J. H.J. Hoeijmakers

doi:10.1093/nar/16.12.5305

Evolution and mutagenesis of the mammalian excision repair gene ERCC-1

M. van Duin
, J. van Den Tol
, P. Warmerdam
, H. Odijk
, D. Meijer
, A. Westerveld
, D. Bootsma
, J. H.J. Hoeijmakers

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

The human DNA excision repair protein ERCC-1 exhibits homology to the yeast RAD10 repair protein and its longer c-terminus displays similarity to parts of the E.coli repair proteins uvrA and uvrC. To study the evolution of this 'mosaic' ERCC-1 gene we have isolated the mouse homologue. Mouse ERCC-1 harbors the same pattern of homology with RAD10 and has a comparable C-terminal extension as its human equivalent. Mutation studies show that the strongly conserved C-terminus is essential in contrast to the less conserved N-terminus which is even dispensible. The mouse ERCC-1 amino acid sequence is compatible with a previously postulated nuclear location signal and DNA-binding domain. The ERCC-1 promoter harbors a region which is highly conserved in mouse and man. Since the ERCC-1 promoter is devoid of all classical promoter elements this region may be responsible for the low constitutive level of expression in all mouse tissues and stages of embryogenesis examined.

Original language	English
Pages (from-to)	5305-5322
Number of pages	18
Journal	Nucleic acids research
Volume	16
Issue number	12
DOIs	https://doi.org/10.1093/nar/16.12.5305
Publication status	Published - 24 Jun 1988
Externally published	Yes

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title = "Evolution and mutagenesis of the mammalian excision repair gene ERCC-1",

abstract = "The human DNA excision repair protein ERCC-1 exhibits homology to the yeast RAD10 repair protein and its longer c-terminus displays similarity to parts of the E.coli repair proteins uvrA and uvrC. To study the evolution of this 'mosaic' ERCC-1 gene we have isolated the mouse homologue. Mouse ERCC-1 harbors the same pattern of homology with RAD10 and has a comparable C-terminal extension as its human equivalent. Mutation studies show that the strongly conserved C-terminus is essential in contrast to the less conserved N-terminus which is even dispensible. The mouse ERCC-1 amino acid sequence is compatible with a previously postulated nuclear location signal and DNA-binding domain. The ERCC-1 promoter harbors a region which is highly conserved in mouse and man. Since the ERCC-1 promoter is devoid of all classical promoter elements this region may be responsible for the low constitutive level of expression in all mouse tissues and stages of embryogenesis examined.",

author = "\{van Duin\}, M. and \{van Den Tol\}, J. and P. Warmerdam and H. Odijk and D. Meijer and A. Westerveld and D. Bootsma and Hoeijmakers, \{J. H.J.\}",

note = "Funding Information: ACKNOWLEDGEMENTS We thank Dr. A. Yasui for making construct pcDEASt, Dr. G.C. Grosveld for generously providing the mouse genomic EMBL-library, Dr. F.J.Benham for the GAPDH probe, Dr. M.J.Vaessen for .in situ hybridization experiments, Drs. M. von Lindern and M. Schilhara for mouse organ RNAs and Dr. N.G.J. Jaspers for critically reading the manuscript. Mrs. R.J. Boucke and Mr. J. Fengler are acknowledged for preparing the manuscript. This work was financially supported by EURATOM (contract nr. BI6-141-NL) and MEDIGON, Foundation of Medical Scientific Research in The Netherlands.",

year = "1988",

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doi = "10.1093/nar/16.12.5305",

language = "English",

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T1 - Evolution and mutagenesis of the mammalian excision repair gene ERCC-1

AU - van Duin, M.

AU - van Den Tol, J.

AU - Warmerdam, P.

AU - Odijk, H.

AU - Meijer, D.

AU - Westerveld, A.

AU - Bootsma, D.

AU - Hoeijmakers, J. H.J.

N1 - Funding Information: ACKNOWLEDGEMENTS We thank Dr. A. Yasui for making construct pcDEASt, Dr. G.C. Grosveld for generously providing the mouse genomic EMBL-library, Dr. F.J.Benham for the GAPDH probe, Dr. M.J.Vaessen for .in situ hybridization experiments, Drs. M. von Lindern and M. Schilhara for mouse organ RNAs and Dr. N.G.J. Jaspers for critically reading the manuscript. Mrs. R.J. Boucke and Mr. J. Fengler are acknowledged for preparing the manuscript. This work was financially supported by EURATOM (contract nr. BI6-141-NL) and MEDIGON, Foundation of Medical Scientific Research in The Netherlands.

PY - 1988/6/24

Y1 - 1988/6/24

N2 - The human DNA excision repair protein ERCC-1 exhibits homology to the yeast RAD10 repair protein and its longer c-terminus displays similarity to parts of the E.coli repair proteins uvrA and uvrC. To study the evolution of this 'mosaic' ERCC-1 gene we have isolated the mouse homologue. Mouse ERCC-1 harbors the same pattern of homology with RAD10 and has a comparable C-terminal extension as its human equivalent. Mutation studies show that the strongly conserved C-terminus is essential in contrast to the less conserved N-terminus which is even dispensible. The mouse ERCC-1 amino acid sequence is compatible with a previously postulated nuclear location signal and DNA-binding domain. The ERCC-1 promoter harbors a region which is highly conserved in mouse and man. Since the ERCC-1 promoter is devoid of all classical promoter elements this region may be responsible for the low constitutive level of expression in all mouse tissues and stages of embryogenesis examined.

AB - The human DNA excision repair protein ERCC-1 exhibits homology to the yeast RAD10 repair protein and its longer c-terminus displays similarity to parts of the E.coli repair proteins uvrA and uvrC. To study the evolution of this 'mosaic' ERCC-1 gene we have isolated the mouse homologue. Mouse ERCC-1 harbors the same pattern of homology with RAD10 and has a comparable C-terminal extension as its human equivalent. Mutation studies show that the strongly conserved C-terminus is essential in contrast to the less conserved N-terminus which is even dispensible. The mouse ERCC-1 amino acid sequence is compatible with a previously postulated nuclear location signal and DNA-binding domain. The ERCC-1 promoter harbors a region which is highly conserved in mouse and man. Since the ERCC-1 promoter is devoid of all classical promoter elements this region may be responsible for the low constitutive level of expression in all mouse tissues and stages of embryogenesis examined.

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Evolution and mutagenesis of the mammalian excision repair gene ERCC-1

Abstract

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