Replication Bypass Model of Sister Chromatid Exchanges and Implications for Bloom's Syndrome and Fanconi's Anemia

Overview

Journal Hum Genet

Specialty Genetics

Date 1977 Nov 10

PMID 598828

Citations 17

Authors

D A Shafer

Affiliations

Soon will be listed here.

Abstract

A model of the sister chromatid exchange (SCE) process is outlined as a replication mechanism to bypass DNA crosslinks. The model suggests that when normal bidirectional replication advances from both sides towards a crosslink along the two opposite parental strands, the complementary parental strand segments can be temporarily displaced at each contralateral 5' side from the crosslink. The free ends produced in this first step will be terminally aligned but will have opposite polarity. The second step of the bypass can, however, be completed by either of two rejoining processes--terminal ligation of the free ends via nascent Okazaki pieces or aberrant complementation by overlapping the free ends. This bypass mechanism (1) allows replication to continue past a crosslink leaving it intact but (2) results in the switching of parental strands and their attached incomplete nascent strands above and below the crosslink site producing an exchange between sister chromatids. This model is compatible with the findings of current SCE studies using the new BUDR/stain techniques as well as with previous autoradiographic studies. It also suggests that the chromatid breaks and deletions in Fanconi's Anemia represent a defect in step two of the replication bypass mechanism and that the high frequency of SCE's and quadriradials in Bloom's Syndrome represent the SCE overload effects of a defect in crosslink repair.

Citing Articles

X-irradiation of G1 CHO cells induces SCE which are both true and false in BrdU-substituted cells but only false in biotin-dUTP-substituted cells.

Bruckmann E, Wojcik A, Obe G Chromosome Res. 1999; 7(4):277-88.

PMID: 10461873 DOI: 10.1023/a:1009226930759.

Segregation of DNA polynucleotide strands into sister chromatids and the use of endoreduplicated cells to track sister chromatid exchanges induced by crosslinks, alkylations, or x-ray damage.

Wolff S, Afzal V Proc Natl Acad Sci U S A. 1996; 93(12):5765-9.

PMID: 8650167 PMC: 39135. DOI: 10.1073/pnas.93.12.5765.

Sister chromatid exchange-inducing DNA lesions and depression of activation markers on the surface of cultured peripheral blood mononuclear cells after the addition of streptococcal pyrogenic exotoxins A and C.

Bussing A, Klotz M, Suzart K, Efferth T, Gerlach D, Schnitzler N Med Microbiol Immunol. 1995; 184(2):87-96.

PMID: 7500916 DOI: 10.1007/BF00221392.

Reduced N-methyl-N'-nitro-N-nitrosoguanidine sister chromatid exchange induction in Chinese hamster V79 cells pre-exposed to 5-bromodeoxyuridine.

Popescu N, Amsbaugh S, DIPAOLO J Chromosoma. 1980; 76(3):329-38.

PMID: 7379643 DOI: 10.1007/BF00327270.

Sister chromatid exchange analysis.

LATT S, Schreck R Am J Hum Genet. 1980; 32(3):297-313.

PMID: 6992563 PMC: 1686078.

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