Discovery of Structural Alterations in Solid Tumor Oligodendroglioma by Single Molecule Analysis

Overview

Journal BMC Genomics

Publisher Biomed Central

Specialty Genetics

Date 2013 Jul 27

PMID 23885787

Citations 17

Authors

Mohana Ray

Steve Goldstein

Shiguo Zhou

Konstantinos Potamousis

Deepayan Sarkar

Michael A Newton

Elizabeth Esterberg

Christina Kendziorski

Oliver Bogler

David C Schwartz

Affiliations

Soon will be listed here.

Abstract

Background: Solid tumors present a panoply of genomic alterations, from single base changes to the gain or loss of entire chromosomes. Although aberrations at the two extremes of this spectrum are readily defined, comprehensive discernment of the complex and disperse mutational spectrum of cancer genomes remains a significant challenge for current genome analysis platforms. In this context, high throughput, single molecule platforms like Optical Mapping offer a unique perspective.

Results: Using measurements from large ensembles of individual DNA molecules, we have discovered genomic structural alterations in the solid tumor oligodendroglioma. Over a thousand structural variants were identified in each tumor sample, without any prior hypotheses, and often in genomic regions deemed intractable by other technologies. These findings were then validated by comprehensive comparisons to variants reported in external and internal databases, and by selected experimental corroborations. Alterations range in size from under 5 kb to hundreds of kilobases, and comprise insertions, deletions, inversions and compound events. Candidate mutations were scored at sub-genic resolution and unambiguously reveal structural details at aberrant loci.

Conclusions: The Optical Mapping system provides a rich description of the complex genomes of solid tumors, including sequence level aberrations, structural alterations and copy number variants that power generation of functional hypotheses for oligodendroglioma genetics.

Citing Articles

Combination of trio-based whole exome sequencing and optical genome mapping reveals a cryptic balanced translocation that causes unbalanced chromosomal rearrangements in a family with multiple anomalies.

Xie M, Xue J, Zhang Y, Zhou Y, Yu Q, Li H Front Genet. 2023; 14:1248544.

PMID: 37745854 PMC: 10512417. DOI: 10.3389/fgene.2023.1248544.

Concentration of lambda concatemers using a 3D printed device.

Rau S, Huynh T, Larsen A, Kounovsky-Shafer K Electrophoresis. 2023; 44(7-8):744-751.

PMID: 36799437 PMC: 10121831. DOI: 10.1002/elps.202200200.

Chromosomal defects track tumor subpopulations and change in progression in oligodendroglioma.

Nauen D, Guajardo A, Haley L, Powell K, Burger P, Gocke C Converg Sci Phys Oncol. 2019; 1(1).

PMID: 31602317 PMC: 6786500. DOI: 10.1088/2057-1739/1/1/015001.

Enzyme-free optical DNA mapping of the human genome using competitive binding.

Muller V, Dvirnas A, Andersson J, Singh V, Kk S, Johansson P Nucleic Acids Res. 2019; 47(15):e89.

PMID: 31165870 PMC: 6735870. DOI: 10.1093/nar/gkz489.

Determining if DNA Stained with a Cyanine Dye Can Be Digested with Restriction Enzymes.

Maschmann A, Masters C, Davison M, Lallman J, Thompson D, Kounovsky-Shafer K J Vis Exp. 2018; (132).

PMID: 29443093 PMC: 5912327. DOI: 10.3791/57141.

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