Somatic microindels in human cancer: the insertions are highly error-prone and derive from nearby but not adjacent sense and antisense templates

Somatic microindels in human cancer: the insertions are highly error-prone and derive from nearby but not adjacent sense and antisense templates

Somatic microindels (microdeletions with microinsertions) have been studied in normal mouse tissues using the Big Blue lacI transgenic mutation detection system. Here we analyze microindels in human cancers using an endogenous and transcribed gene, the TP53 gene. Microindel frequency, the enhancemen...

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Bibliographic Details
Published in:Human molecular genetics Vol. 17; no. 18; pp. 2910 - 2918
Main Authors: Scaringe, William A., Li, Kai, Gu, Dongqing, Gonzalez, Kelly D., Chen, Zhenbin, Hill, Kathleen A., Sommer, Steve S.
Format: Journal Article
Language:English
Published: Oxford Oxford University Press 15-09-2008
Oxford Publishing Limited (England)
Subjects:
Animals
Bacterial Proteins - genetics
Base Sequence
Biological and medical sciences
DNA Mutational Analysis
DNA, Antisense - genetics
Fundamental and applied biological sciences. Psychology
Genetics of eukaryotes. Biological and molecular evolution
Humans
INDEL Mutation
Lac Repressors
Mice
Molecular and cellular biology
Molecular Sequence Data
Mutagenesis, Insertional
Neoplasms - genetics
Repressor Proteins - genetics
Templates, Genetic
Tumor Suppressor Protein p53 - genetics
Human
Insertion
Genetics
Mutation
Malignant tumor
Cancer
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Summary:Somatic microindels (microdeletions with microinsertions) have been studied in normal mouse tissues using the Big Blue lacI transgenic mutation detection system. Here we analyze microindels in human cancers using an endogenous and transcribed gene, the TP53 gene. Microindel frequency, the enhancement of 1–2 microindels and other features are generally similar to that observed in the non-transcribed lacI gene in normal mouse tissues. The current larger sample of somatic microindels reveals recurroids: mutations in which deletions are identical and the co-localized insertion is similar. The data reveal that the inserted sequences derive from nearby but not adjacent sequences in contrast to the slippage that characterizes the great majority of pure microinsertions. The microindel inserted sequences derive from a template on the sense or antisense strand with similar frequency. The estimated error rate of the insertion process of 13% per bp is by far the largest reported in vivo, with the possible exception of somatic hypermutation in the immunoglobulin gene. The data constrain possible mechanisms of microindels and raise the question of whether microindels are ‘scars’ from the bypass of large DNA adducts by a translesional polymerase, e.g. the ‘Tarzan model’ presented herein.
Bibliography:istex:B8F0CCD5DEFBF06ABE02016FCBC9F30CD66DA939
ark:/67375/HXZ-DGPMD3RS-G
ArticleID:ddn190
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0964-6906
1460-2083
DOI:10.1093/hmg/ddn190