Abstract
BackgroundThe recent development of array based comparative genomic hybridization (CGH) technology provides improved resolution for detection of genomic DNA copy number alterations. In array CGH, generating spotting solution is a multi-step process where bacterial artificial chromosome (BAC) clones are converted to replenishable PCR amplified fragments pools (AFP) for use as spotting solution in a microarray format on glass substrate. With completion of the human and mouse genome sequencing, large BAC clone sets providing complete genome coverage are available for construction of whole genome BAC arrays. Currently, Southern hybridization, fluorescent in-situ hybridization (FISH), and BAC end sequencing methods are commonly used to identify the initial BAC clone but not the end product used for spotting arrays. The AFP sequencing technique described in this study is a novel method designed to verify the identity of array spotting solution in a high throughput manner.ResultsWe show here that Southern hybridization, FISH, and AFP sequencing can be used to verify the identity of final spotting solutions using less than 10% of the AFP product. Single pass AFP sequencing identified over half of the 960 AFPs analyzed. Moreover, using two vector primers approximately 90% of the AFP spotting solutions can be identified.ConclusionsIn this feasibility study we demonstrate that current methods for identifying initial BAC clones can be adapted to verify the identity of AFP spotting solutions used in printing arrays. Of these methods, AFP sequencing proves to be the most efficient for large scale identification of spotting solution in a high throughput manner.
Highlights
The recent development of array based comparative genomic hybridization (CGH) technology provides improved resolution for detection of genomic DNA copy number alterations
DNA restriction digest fingerprint analysis, fluorescent insitu hybridization (FISH) mapping, and bacterial artificial chromosome (BAC) end sequencing are commonly used to verify the identity and genomic location of BAC clones [7,8,9]. These clone verification procedures are applied to the BAC DNA prior to multi-step spotting solution synthesis. We demonstrate that these commonly used methods applicable for identification of the initial BAC clone DNA can be adapted for use in verifying amplified fragments pools (AFP) just prior to spotting the array
Since PCR amplification of large clone sets are typically processed in a 96 well format, a method for discovering any plate exchanges or mislabeling is essential for quality control of the final AFP set
Summary
The recent development of array based comparative genomic hybridization (CGH) technology provides improved resolution for detection of genomic DNA copy number alterations. Comparative genomic hybridization (CGH) is a technique used to determine regional DNA copy number changes across an entire genome [1]. This is accomplished by co-hybridizing differentially labeled genomic sample and reference DNA to a metaphase chromosome spread of cultured cells. The recent development of array based CGH technology has improved the resolution of genomic profiling [3] This involves the substitution of the target DNA from metaphase chromosomes to selected (page number not for citation purposes)
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call