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DNA Repair
Volumn 8, Issue 7, 2009, Pages 865-872
Human HMGB1 directly facilitates interactions between nucleotide excision repair proteins on triplex-directed psoralen interstrand crosslinks
Author keywords

HMGB1; Interstrand crosslink; Nucleotide excision repair; RPA; XPC RAD23B
Indexed keywords

HIGH MOBILITY GROUP B1 PROTEIN; PROTEIN; PSORALEN; RPA PROTEIN; UNCLASSIFIED DRUG; XERODERMA PIGMENTOSUM GROUP A PROTEIN;
EID: 67349117312     PISSN: 15687864     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.dnarep.2009.04.001     Document Type: Article
Times cited : (40)
References (52)
  • 2
    • 33644623520 scopus 로고    scopus 로고
    • Formation and repair of interstrand cross-links in DNA
    • Noll D.M., Mason T.M., and Miller P.S. Formation and repair of interstrand cross-links in DNA. Chem. Rev. 106 (2006) 277-301
    • (2006) Chem. Rev. , vol.106 , pp. 277-301
    • Noll, D.M.1    Mason, T.M.2    Miller, P.S.3
  • 3
    • 25444501238 scopus 로고    scopus 로고
    • Repair of genome destabilizing lesions
    • Reddy M.C., and Vasquez K.M. Repair of genome destabilizing lesions. Radiat. Res. 164 (2005) 345-356
    • (2005) Radiat. Res. , vol.164 , pp. 345-356
    • Reddy, M.C.1    Vasquez, K.M.2
  • 4
    • 0031949260 scopus 로고    scopus 로고
    • The benefits and risks of long-term PUVA photochemotherapy
    • Momtaz K., and Fitzpatrick T.B. The benefits and risks of long-term PUVA photochemotherapy. Dermatol. Clin. 16 (1998) 227-234
    • (1998) Dermatol. Clin. , vol.16 , pp. 227-234
    • Momtaz, K.1    Fitzpatrick, T.B.2
  • 5
    • 0037197844 scopus 로고    scopus 로고
    • Human XPA and RPA DNA repair proteins participate in specific recognition of triplex-induced helical distortions
    • Vasquez K.M., Christensen J., Li L., Finch R.A., and Glazer P.M. Human XPA and RPA DNA repair proteins participate in specific recognition of triplex-induced helical distortions. Proc. Natl. Acad. Sci. U.S.A. 99 (2002) 5848-5853
    • (2002) Proc. Natl. Acad. Sci. U.S.A. , vol.99 , pp. 5848-5853
    • Vasquez, K.M.1    Christensen, J.2    Li, L.3    Finch, R.A.4    Glazer, P.M.5
  • 6
    • 22144488799 scopus 로고    scopus 로고
    • Mismatch repair participates in error-free processing of DNA interstrand crosslinks in human cells
    • Wu Q., Christensen L.A., Legerski R.J., and Vasquez K.M. Mismatch repair participates in error-free processing of DNA interstrand crosslinks in human cells. EMBO Rep. 6 (2005) 551-557
    • (2005) EMBO Rep. , vol.6 , pp. 551-557
    • Wu, Q.1    Christensen, L.A.2    Legerski, R.J.3    Vasquez, K.M.4
  • 7
    • 52949152426 scopus 로고    scopus 로고
    • Human MLH1 protein participates in genomic damage checkpoint signaling in response to DNA interstrand crosslinks, while MSH2 functions in DNA repair
    • Wu Q., and Vasquez K.M. Human MLH1 protein participates in genomic damage checkpoint signaling in response to DNA interstrand crosslinks, while MSH2 functions in DNA repair. PLoS Genet. 4 (2008) e1000189
    • (2008) PLoS Genet. , vol.4
    • Wu, Q.1    Vasquez, K.M.2
  • 8
    • 46649113931 scopus 로고    scopus 로고
    • 3-Methyladenine DNA glycosylase is important for cellular resistance to psoralen interstrand cross-links
    • Maor-Shoshani A., Meira L.B., Yang X., and Samson L.D. 3-Methyladenine DNA glycosylase is important for cellular resistance to psoralen interstrand cross-links. DNA Repair (Amst.) (2008)
    • (2008) DNA Repair (Amst.)
    • Maor-Shoshani, A.1    Meira, L.B.2    Yang, X.3    Samson, L.D.4
  • 9
    • 34948904826 scopus 로고    scopus 로고
    • Psoralen-induced DNA adducts are substrates for the base excision repair pathway in human cells
    • Couve-Privat S., Mace G., Rosselli F., and Saparbaev M.K. Psoralen-induced DNA adducts are substrates for the base excision repair pathway in human cells. Nucl. Acids Res. 35 (2007) 5672-5682
    • (2007) Nucl. Acids Res. , vol.35 , pp. 5672-5682
    • Couve-Privat, S.1    Mace, G.2    Rosselli, F.3    Saparbaev, M.K.4
  • 10
    • 33746811317 scopus 로고    scopus 로고
    • The role of BRCA2 in replication-coupled DNA interstrand cross-link repair in vitro
    • Cipak L., Watanabe N., and Bessho T. The role of BRCA2 in replication-coupled DNA interstrand cross-link repair in vitro. Nat. Struct. Mol. Biol. 13 (2006) 729-733
    • (2006) Nat. Struct. Mol. Biol. , vol.13 , pp. 729-733
    • Cipak, L.1    Watanabe, N.2    Bessho, T.3
  • 11
    • 0027393750 scopus 로고
    • Defective replication of psoralen adducts detected at the gene-specific level in xeroderma pigmentosum variant cells
    • Misra R.R., and Vos J.M. Defective replication of psoralen adducts detected at the gene-specific level in xeroderma pigmentosum variant cells. Mol. Cell. Biol. 13 (1993) 1002-1012
    • (1993) Mol. Cell. Biol. , vol.13 , pp. 1002-1012
    • Misra, R.R.1    Vos, J.M.2
  • 12
    • 38949168176 scopus 로고    scopus 로고
    • DNA polymerase eta reduces the gamma-H2AX response to psoralen interstrand crosslinks in human cells
    • Mogi S., Butcher C.E., and Oh D.H. DNA polymerase eta reduces the gamma-H2AX response to psoralen interstrand crosslinks in human cells. Exp. Cell Res. 314 (2008) 887-895
    • (2008) Exp. Cell Res. , vol.314 , pp. 887-895
    • Mogi, S.1    Butcher, C.E.2    Oh, D.H.3
  • 13
    • 0142025139 scopus 로고    scopus 로고
    • Induction of a caffeine-sensitive S-phase cell cycle checkpoint by psoralen plus ultraviolet A radiation
    • Joerges C., Kuntze I., and Herzinger T. Induction of a caffeine-sensitive S-phase cell cycle checkpoint by psoralen plus ultraviolet A radiation. Oncogene 22 (2003) 6119-6128
    • (2003) Oncogene , vol.22 , pp. 6119-6128
    • Joerges, C.1    Kuntze, I.2    Herzinger, T.3
  • 14
    • 33645312939 scopus 로고    scopus 로고
    • DNA interstrand crosslink repair during G1 involves nucleotide excision repair and DNA polymerase zeta
    • Sarkar S., Davies A.A., Ulrich H.D., and McHugh P.J. DNA interstrand crosslink repair during G1 involves nucleotide excision repair and DNA polymerase zeta. Embo J. 25 (2006) 1285-1294
    • (2006) Embo J. , vol.25 , pp. 1285-1294
    • Sarkar, S.1    Davies, A.A.2    Ulrich, H.D.3    McHugh, P.J.4
  • 15
    • 0038687698 scopus 로고    scopus 로고
    • Defining the function of XPC protein in psoralen and cisplatin-mediated DNA repair and mutagenesis
    • Chen Z., Xu X.S., Yang J., and Wang G. Defining the function of XPC protein in psoralen and cisplatin-mediated DNA repair and mutagenesis. Carcinogenesis 24 (2003) 1111-1121
    • (2003) Carcinogenesis , vol.24 , pp. 1111-1121
    • Chen, Z.1    Xu, X.S.2    Yang, J.3    Wang, G.4
  • 16
    • 0029866449 scopus 로고    scopus 로고
    • Mutagenesis by third-strand-directed psoralen adducts in repair-deficient human cells: high frequency and altered spectrum in a xeroderma pigmentosum variant
    • Raha M., Wang G., Seidman M.M., and Glazer P.M. Mutagenesis by third-strand-directed psoralen adducts in repair-deficient human cells: high frequency and altered spectrum in a xeroderma pigmentosum variant. Proc. Natl. Acad. Sci. U.S.A. 93 (1996) 2941-2946
    • (1996) Proc. Natl. Acad. Sci. U.S.A. , vol.93 , pp. 2941-2946
    • Raha, M.1    Wang, G.2    Seidman, M.M.3    Glazer, P.M.4
  • 17
    • 33744927954 scopus 로고    scopus 로고
    • REV3 and REV1 play major roles in recombination-independent repair of DNA interstrand cross-links mediated by monoubiquitinated proliferating cell nuclear antigen (PCNA)
    • Shen X., Jun S., O'Neal L.E., Sonoda E., Bemark M., Sale J.E., and Li L. REV3 and REV1 play major roles in recombination-independent repair of DNA interstrand cross-links mediated by monoubiquitinated proliferating cell nuclear antigen (PCNA). J. Biol. Chem. 281 (2006) 13869-13872
    • (2006) J. Biol. Chem. , vol.281 , pp. 13869-13872
    • Shen, X.1    Jun, S.2    O'Neal, L.E.3    Sonoda, E.4    Bemark, M.5    Sale, J.E.6    Li, L.7
  • 19
    • 0034714401 scopus 로고    scopus 로고
    • Repair of an interstrand DNA cross-link initiated by ERCC1-XPF repair/recombination nuclease
    • Kuraoka I., Kobertz W.R., Ariza R.R., Biggerstaff M., Essigmann J.M., and Wood R.D. Repair of an interstrand DNA cross-link initiated by ERCC1-XPF repair/recombination nuclease. J. Biol. Chem. 275 (2000) 26632-26636
    • (2000) J. Biol. Chem. , vol.275 , pp. 26632-26636
    • Kuraoka, I.1    Kobertz, W.R.2    Ariza, R.R.3    Biggerstaff, M.4    Essigmann, J.M.5    Wood, R.D.6
  • 20
    • 0035436539 scopus 로고    scopus 로고
    • Repair of DNA interstrand crosslinks: molecular mechanisms and clinical relevance
    • McHugh P.J., Spanswick V.J., and Hartley J.A. Repair of DNA interstrand crosslinks: molecular mechanisms and clinical relevance. Lancet Oncol. 2 (2001) 483-490
    • (2001) Lancet Oncol. , vol.2 , pp. 483-490
    • McHugh, P.J.1    Spanswick, V.J.2    Hartley, J.A.3
  • 21
    • 20144366765 scopus 로고    scopus 로고
    • Human XPC-hHR23B interacts with XPA-RPA in the recognition of triplex-directed psoralen DNA interstrand crosslinks
    • Thoma B.S., Wakasugi M., Christensen J., Reddy M.C., and Vasquez K.M. Human XPC-hHR23B interacts with XPA-RPA in the recognition of triplex-directed psoralen DNA interstrand crosslinks. Nucl. Acids Res. 33 (2005) 2993-3001
    • (2005) Nucl. Acids Res. , vol.33 , pp. 2993-3001
    • Thoma, B.S.1    Wakasugi, M.2    Christensen, J.3    Reddy, M.C.4    Vasquez, K.M.5
  • 22
    • 15544366698 scopus 로고    scopus 로고
    • Interplay between human high mobility group protein 1 and replication protein A on psoralen-cross-linked DNA
    • Reddy M.C., Christensen J., and Vasquez K.M. Interplay between human high mobility group protein 1 and replication protein A on psoralen-cross-linked DNA. Biochemistry 44 (2005) 4188-4195
    • (2005) Biochemistry , vol.44 , pp. 4188-4195
    • Reddy, M.C.1    Christensen, J.2    Vasquez, K.M.3
  • 23
    • 0025297688 scopus 로고
    • High mobility group proteins 1 and 2 function as general class II transcription factors
    • Singh J., and Dixon G.H. High mobility group proteins 1 and 2 function as general class II transcription factors. Biochemistry 29 (1990) 6295-6302
    • (1990) Biochemistry , vol.29 , pp. 6295-6302
    • Singh, J.1    Dixon, G.H.2
  • 24
    • 0030994385 scopus 로고    scopus 로고
    • Stimulation of V(D)J cleavage by high mobility group proteins
    • van Gent D.C., Hiom K., Paull T.T., and Gellert M. Stimulation of V(D)J cleavage by high mobility group proteins. Embo J. 16 (1997) 2665-2670
    • (1997) Embo J. , vol.16 , pp. 2665-2670
    • van Gent, D.C.1    Hiom, K.2    Paull, T.T.3    Gellert, M.4
  • 25
    • 4243824006 scopus 로고    scopus 로고
    • The DNA chaperone HMGB1 facilitates ACF/CHRAC-dependent nucleosome sliding
    • Bonaldi T., Langst G., Strohner R., Becker P.B., and Bianchi M.E. The DNA chaperone HMGB1 facilitates ACF/CHRAC-dependent nucleosome sliding. Embo J. 21 (2002) 6865-6873
    • (2002) Embo J. , vol.21 , pp. 6865-6873
    • Bonaldi, T.1    Langst, G.2    Strohner, R.3    Becker, P.B.4    Bianchi, M.E.5
  • 27
    • 0026751181 scopus 로고
    • Purification of nuclear proteins that bind to cisplatin-damaged DNA. Identity with high mobility group proteins 1 and 2
    • Hughes E.N., Engelsberg B.N., and Billings P.C. Purification of nuclear proteins that bind to cisplatin-damaged DNA. Identity with high mobility group proteins 1 and 2. J. Biol. Chem. 267 (1992) 13520-13527
    • (1992) J. Biol. Chem. , vol.267 , pp. 13520-13527
    • Hughes, E.N.1    Engelsberg, B.N.2    Billings, P.C.3
  • 28
    • 0033578010 scopus 로고    scopus 로고
    • Basis for recognition of cisplatin-modified DNA by high-mobility-group proteins
    • Ohndorf U.M., Rould M.A., He Q., Pabo C.O., and Lippard S.J. Basis for recognition of cisplatin-modified DNA by high-mobility-group proteins. Nature 399 (1999) 708-712
    • (1999) Nature , vol.399 , pp. 708-712
    • Ohndorf, U.M.1    Rould, M.A.2    He, Q.3    Pabo, C.O.4    Lippard, S.J.5
  • 29
    • 0032544398 scopus 로고    scopus 로고
    • Preferential binding of high mobility group 1 protein to UV-damaged DNA. Role of the COOH-terminal domain
    • Pasheva E.A., Pashev I.G., and Favre A. Preferential binding of high mobility group 1 protein to UV-damaged DNA. Role of the COOH-terminal domain. J. Biol. Chem. 273 (1998) 24730-24736
    • (1998) J. Biol. Chem. , vol.273 , pp. 24730-24736
    • Pasheva, E.A.1    Pashev, I.G.2    Favre, A.3
  • 30
    • 0034730950 scopus 로고    scopus 로고
    • High mobility group 1 and 2 proteins bind preferentially to DNA that contains bulky adducts induced by benzo[a]pyrene diol epoxide and N-acetoxy-acetylaminofluorene
    • Lanuszewska J., and Widlak P. High mobility group 1 and 2 proteins bind preferentially to DNA that contains bulky adducts induced by benzo[a]pyrene diol epoxide and N-acetoxy-acetylaminofluorene. Cancer Lett. 158 (2000) 17-25
    • (2000) Cancer Lett. , vol.158 , pp. 17-25
    • Lanuszewska, J.1    Widlak, P.2
  • 31
    • 48749124996 scopus 로고    scopus 로고
    • High mobility group protein B1 enhances DNA repair and chromatin modification after DNA damage
    • Lange S.S., Mitchell D.L., and Vasquez K.M. High mobility group protein B1 enhances DNA repair and chromatin modification after DNA damage. Proc. Natl. Acad. Sci. U.S.A. 105 (2008) 10320-10325
    • (2008) Proc. Natl. Acad. Sci. U.S.A. , vol.105 , pp. 10320-10325
    • Lange, S.S.1    Mitchell, D.L.2    Vasquez, K.M.3
  • 32
    • 47649084520 scopus 로고    scopus 로고
    • DNA triple helices: biological consequences and therapeutic potential
    • Jain A., Wang G., and Vasquez K.M. DNA triple helices: biological consequences and therapeutic potential. Biochimie (2008)
    • (2008) Biochimie
    • Jain, A.1    Wang, G.2    Vasquez, K.M.3
  • 33
    • 33646536553 scopus 로고    scopus 로고
    • XPA protein as a limiting factor for nucleotide excision repair and UV sensitivity in human cells
    • Koberle B., Roginskaya V., and Wood R.D. XPA protein as a limiting factor for nucleotide excision repair and UV sensitivity in human cells. DNA Repair (Amst.) 5 (2006) 641-648
    • (2006) DNA Repair (Amst.) , vol.5 , pp. 641-648
    • Koberle, B.1    Roginskaya, V.2    Wood, R.D.3
  • 34
    • 0033977269 scopus 로고    scopus 로고
    • Two widely spaced initiator binding sites create an HMG1-dependent parvovirus rolling-hairpin replication origin
    • Cotmore S.F., Christensen J., and Tattersall P. Two widely spaced initiator binding sites create an HMG1-dependent parvovirus rolling-hairpin replication origin. J. Virol. 74 (2000) 1332-1341
    • (2000) J. Virol. , vol.74 , pp. 1332-1341
    • Cotmore, S.F.1    Christensen, J.2    Tattersall, P.3
  • 35
    • 0031706629 scopus 로고    scopus 로고
    • High-mobility group 1/2 proteins are essential for initiating rolling-circle-type DNA replication at a parvovirus hairpin origin
    • Cotmore S.F., and Tattersall P. High-mobility group 1/2 proteins are essential for initiating rolling-circle-type DNA replication at a parvovirus hairpin origin. J. Virol. 72 (1998) 8477-8484
    • (1998) J. Virol. , vol.72 , pp. 8477-8484
    • Cotmore, S.F.1    Tattersall, P.2
  • 37
    • 0029143369 scopus 로고
    • Minute virus of mice transcriptional activator protein NS1 binds directly to the transactivation region of the viral P38 promoter in a strictly ATP-dependent manner
    • Christensen J., Cotmore S.F., and Tattersall P. Minute virus of mice transcriptional activator protein NS1 binds directly to the transactivation region of the viral P38 promoter in a strictly ATP-dependent manner. J. Virol. 69 (1995) 5422-5430
    • (1995) J. Virol. , vol.69 , pp. 5422-5430
    • Christensen, J.1    Cotmore, S.F.2    Tattersall, P.3
  • 38
    • 0036284381 scopus 로고    scopus 로고
    • Parvovirus initiator protein NS1 and RPA coordinate replication fork progression in a reconstituted DNA replication system
    • Christensen J., and Tattersall P. Parvovirus initiator protein NS1 and RPA coordinate replication fork progression in a reconstituted DNA replication system. J. Virol. 76 (2002) 6518-6531
    • (2002) J. Virol. , vol.76 , pp. 6518-6531
    • Christensen, J.1    Tattersall, P.2
  • 39
    • 0029741027 scopus 로고    scopus 로고
    • Overproduction, purification, and characterization of the XPC subunit of the human DNA repair excision nuclease
    • Reardon J.T., Mu D., and Sancar A. Overproduction, purification, and characterization of the XPC subunit of the human DNA repair excision nuclease. J. Biol. Chem. 271 (1996) 19451-19456
    • (1996) J. Biol. Chem. , vol.271 , pp. 19451-19456
    • Reardon, J.T.1    Mu, D.2    Sancar, A.3
  • 40
    • 0033603338 scopus 로고    scopus 로고
    • Order of assembly of human DNA repair excision nuclease
    • Wakasugi M., and Sancar A. Order of assembly of human DNA repair excision nuclease. J. Biol. Chem. 274 (1999) 18759-18768
    • (1999) J. Biol. Chem. , vol.274 , pp. 18759-18768
    • Wakasugi, M.1    Sancar, A.2
  • 41
    • 0028934368 scopus 로고
    • Mutations in XPA that prevent association with ERCC1 are defective in nucleotide excision repair
    • Li L., Peterson C.A., Lu X., and Legerski R.J. Mutations in XPA that prevent association with ERCC1 are defective in nucleotide excision repair. Mol. Cell. Biol. 15 (1995) 1993-1998
    • (1995) Mol. Cell. Biol. , vol.15 , pp. 1993-1998
    • Li, L.1    Peterson, C.A.2    Lu, X.3    Legerski, R.J.4
  • 45
    • 0036318818 scopus 로고    scopus 로고
    • Molecular anatomy of the human excision nuclease assembled at sites of DNA damage
    • Reardon J.T., and Sancar A. Molecular anatomy of the human excision nuclease assembled at sites of DNA damage. Mol. Cell. Biol. 22 (2002) 5938-5945
    • (2002) Mol. Cell. Biol. , vol.22 , pp. 5938-5945
    • Reardon, J.T.1    Sancar, A.2
  • 46
    • 0030732132 scopus 로고    scopus 로고
    • Mechanism of open complex and dual incision formation by human nucleotide excision repair factors
    • Evans E., Moggs J.G., Hwang J.R., Egly J.M., and Wood R.D. Mechanism of open complex and dual incision formation by human nucleotide excision repair factors. Embo J. 16 (1997) 6559-6573
    • (1997) Embo J. , vol.16 , pp. 6559-6573
    • Evans, E.1    Moggs, J.G.2    Hwang, J.R.3    Egly, J.M.4    Wood, R.D.5
  • 47
    • 0035796455 scopus 로고    scopus 로고
    • Double-check probing of DNA bending and unwinding by XPA-RPA: an architectural function in DNA repair
    • Missura M., Buterin T., Hindges R., Hubscher U., Kasparkova J., Brabec V., and Naegeli H. Double-check probing of DNA bending and unwinding by XPA-RPA: an architectural function in DNA repair. Embo J. 20 (2001) 3554-3564
    • (2001) Embo J. , vol.20 , pp. 3554-3564
    • Missura, M.1    Buterin, T.2    Hindges, R.3    Hubscher, U.4    Kasparkova, J.5    Brabec, V.6    Naegeli, H.7
  • 48
    • 0037470239 scopus 로고    scopus 로고
    • Biochemical analysis of the damage recognition process in nucleotide excision repair
    • You J.S., Wang M., and Lee S.H. Biochemical analysis of the damage recognition process in nucleotide excision repair. J. Biol. Chem. 278 (2003) 7476-7485
    • (2003) J. Biol. Chem. , vol.278 , pp. 7476-7485
    • You, J.S.1    Wang, M.2    Lee, S.H.3
  • 49
    • 0035102950 scopus 로고    scopus 로고
    • Strong functional interactions of TFIIH with XPC and XPG in human DNA nucleotide excision repair, without a preassembled repair some
    • Araujo S.J., Nigg E.A., and Wood R.D. Strong functional interactions of TFIIH with XPC and XPG in human DNA nucleotide excision repair, without a preassembled repair some. Mol. Cell. Biol. 21 (2001) 2281-2291
    • (2001) Mol. Cell. Biol. , vol.21 , pp. 2281-2291
    • Araujo, S.J.1    Nigg, E.A.2    Wood, R.D.3
  • 50
    • 0029840823 scopus 로고    scopus 로고
    • Recognition of DNA adducts by human nucleotide excision repair. Evidence for a thermodynamic probing mechanism
    • Gunz D., Hess M.T., and Naegeli H. Recognition of DNA adducts by human nucleotide excision repair. Evidence for a thermodynamic probing mechanism. J. Biol. Chem. 271 (1996) 25089-25098
    • (1996) J. Biol. Chem. , vol.271 , pp. 25089-25098
    • Gunz, D.1    Hess, M.T.2    Naegeli, H.3
  • 51
    • 0030751955 scopus 로고    scopus 로고
    • Differential human nucleotide excision repair of paired and mispaired cisplatin-DNA adducts
    • Moggs J.G., Szymkowski D.E., Yamada M., Karran P., and Wood R.D. Differential human nucleotide excision repair of paired and mispaired cisplatin-DNA adducts. Nucl. Acids Res. 25 (1997) 480-491
    • (1997) Nucl. Acids Res. , vol.25 , pp. 480-491
    • Moggs, J.G.1    Szymkowski, D.E.2    Yamada, M.3    Karran, P.4    Wood, R.D.5

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