DNA sequence specificity of mitomycin cross-linking

Teng, Sally P.; Woodson, Sarah A.; Crothers, Donald M.

doi:10.1021/bi00435a041

Cited by 100 publications

(99 citation statements)

References 28 publications

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“…We assume the following (extremely simplified) scheme, which is analogous to the one that we used for analysis of DNA crosslinking by mitomycin (19):…”

Section: Resultsmentioning

confidence: 99%

The carbohydrate domain of calicheamicin gamma I1 determines its sequence specificity for DNA cleavage.

Drak

Iwasawa

Danishefsky

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

118

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We have investigated the DNA cleaving properties of calicheamicinone, the synthetic core aglycone of calicheamicin y', a natural product with extremely potent antitumor activity. Our experiments have shown that the synthetic analog binds and cleaves DNA, albeit without any sequence selectivity and with less efficiency than the natural compound. We propose that a key element in the sequence recognition process is the thiobenzoate ring present in the natural compound. We have demonstrated by one-dimensional NMR that there is direct hydrogen abstraction from DNA by calicheamicinone, with enhanced binding affinity contributed by the carbohydrate domain. The reduced efficiency of hydrogen abstraction from DNA by bound calicheamicinone, compared with the natural compound, implicates the carbohydrate moiety in positioning the drug for hydrogen abstraction.

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“…We assume the following (extremely simplified) scheme, which is analogous to the one that we used for analysis of DNA crosslinking by mitomycin (19):…”

Section: Resultsmentioning

confidence: 99%

The carbohydrate domain of calicheamicin gamma I1 determines its sequence specificity for DNA cleavage.

Drak

Iwasawa

Danishefsky

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

118

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“…These large C-bands might be particularly prone for crosslinking by MMC. Sequence-specific induction of DNA lesions by MMC is related to a particular order of repeated CpG sequences (Teng et al, 1989;Borowy-Borowski et al, 1990) and is enhanced (two-to fourfold) when the cytosines of these MMC-susceptible sequences are 5-methylated (Johnson et al, 1995;Li et al, 2000;Li et al, 2001). Paracentromeric heterochromatic bands have been reported to contain GC-rich repeats and harbor highly methylated DNA (Miller et al, 1974;Gosden et al, 1975;Meneveri et al, 1993).…”

Section: Discussionmentioning

confidence: 99%

Mitomycin C-induced pairing of heterochromatin reflects initiation of DNA repair and chromatid exchange formation

Abdel-Halim

Natarajan

Mullenders

et al. 2005

Journal of Cell Science

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Chromatid interchanges induced by the DNA cross-linking agent mitomycin C (MMC) are over-represented in human chromosomes containing large heterochromatic regions. We found that nearly all exchange breakpoints of chromosome 9 are located within the paracentromeric heterochromatin and over 70% of exchanges involving chromosome 9 are between its homologues. We provide evidence that the required pairing of chromosome 9 heterochromatic regions occurs in G0/G1 and S-phase cells as a result of an active cellular process initiated upon MMC treatment. By contrast, no pairing was observed for a euchromatic paracentromeric region of the equal-sized chromosome 8. The MMC-induced pairing of chromosome 9 heterochromatin is observed in a subset of cells; its percentage closely mimics the frequency of homologous interchanges found at metaphase. Moreover, the absence of pairing in cells derived from XPF patients correlates with an altered spectrum of MMC-induced exchanges. Together, the data suggest that the heterochromatin-specific pairing following MMC treatment reflects the initiation of DNA cross-link repair and the formation of exchanges.

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“…Its unique structural properties and biological activity have motivated numerous studies to determine its cellular target sites and mechanism of action. Complete characterization of MMC (29,30) has been followed by studies examining the basis of its selectivity against mammalian tumor cells and the mechanisms that render mammalian tumor cells MMC resistant (5,14,18,22,26,27). However, the molecular basis for MMC resistance in the producing organism, S. lavendulae, has not been established.…”

mentioning

confidence: 99%

“…the hydroquinone (2,12). The second electron transfer is presumed to occur with rapid kinetics (12) and is followed by DNA alkylation and cell death (26,27).…”

mentioning

confidence: 99%

Cloning and analysis of a locus (mcr) involved in mitomycin C resistance in Streptomyces lavendulae

1994

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DNA sequence specificity of mitomycin cross-linking

Cited by 100 publications

References 28 publications

The carbohydrate domain of calicheamicin gamma I1 determines its sequence specificity for DNA cleavage.

The carbohydrate domain of calicheamicin gamma I1 determines its sequence specificity for DNA cleavage.

Mitomycin C-induced pairing of heterochromatin reflects initiation of DNA repair and chromatid exchange formation

Cloning and analysis of a locus (mcr) involved in mitomycin C resistance in Streptomyces lavendulae

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