Walter Vielmetter scite author profile

Extracts of Xenopus laevis eggs can efficiently join ends of duplex DNA that differ in structure and sequence. This was analysed by recircularisation of linear plasmid DNA molecules with dissimilar termini, generated by successive cuts with two different restriction enzymes within the pSP65 polylinker. Use of various enzymes provided blunt ended or 4 nucleotides long 3' and 5' protruding single strand (PSS) termini which were successfully joined in vitro in any tested combination. Sequence analysis of numerous junctions from cloned reaction products of 7 terminus combinations reveal: apart from very rare base exchanges and single nucleotide insertions less than 10% deletions (1 to 18 nucleotides long) were detected. Blunt/PSS or 3'PSS/5'PSS terminus pairs undergo simple "blunt end" joining which preserves PSS ends by fill-in. In contrast, equally polar 3'PSS/3'PSS or 5'PSS/5'PSS terminus pairs are joined by a complex mode: PSS ends overlap by a defined number of nucleotides, set by matching basepairs. Even one basematch suffices to define the setting. This then determines the final mismatch repair and fill-in pattern. We propose that yet unknown terminal DNA-binding proteins stabilize the energetically highly unfavorable configuration of single matching basepairs and help to support defined overlap structures.

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Mechanisms of overlap formation in nonhomologous DNA end joining.

Pfeiffer¹,

Thode²,

Hancke³

et al. 1994

Mol. Cell. Biol.

101

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Rejoining of nonhomologous DNA termini plays a central role in processes of illegitimate recombination. In Xenopus egg extracts, DNA ends with noncomplementary 4-nucleotide antiparallel single-strand protrusions are assumed to bejoined by formation of short mismatched overlap intermediates. The extents of these overlaps may be set by single fortuitously matching base pairs and determine the patterns of subsequent gap filling and nick ligation. Under conditions of alternative overlap settings, rules for the most probable joining pathway and the effects of mismatches on junction formation were analyzed. We show that in certain cases, fill-in and ligation converting overlap intermediates into covalently closed junctions may proceed in the presence of unrepaired mismatches, whereas in other cases, completion of junction formation is preceded by removal of mismatches. Results are discussed in relation with "alignment" proteins postulated to structurally support overlap heteroduplexes during junction formation.

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Activation of a system for the joining of nonhomologous DNA ends during Xenopus egg maturation.

1992

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Complete maps of IS1, IS2, IS3, IS4, IS5, IS30 and IS150 locations in Escherichia coli K12

Birkenbihl

Vielmetter

1989

Molec. Gen. Genet.

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In this paper complete distribution maps are presented of the seven IS elements 1, 2, 3, 4, 5, 30 and 150. These maps were obtained during the construction of an almost complete restriction map of the Escherichia coli genome of K12 strain BHB2600. The positions of IS elements were correlated to this map. The distribution of integration sites of all IS types is nonrandom. Besides a large gap from 79 min to 96 min, there is a pronounced IS cluster at 6 min and another at 97 min, map locations that have low gene incidences on the classical map. One cluster coincides with a region of IS induced rearrangements. The IS distribution pattern was compared to patterns of strains W3110 and HB101.

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