Your search keyword '"Young, Geneva"' showing total 13 results

1. Analytical Validation of a Hybrid Capture–Based Next-Generation Sequencing Clinical Assay for Genomic Profiling of Cell-Free Circulating Tumor DNA

Author

Clark, Travis A., Chung, Jon H., Kennedy, Mark, Hughes, Jason D., Chennagiri, Niru, Lieber, Daniel S., Fendler, Bernard, Young, Lauren, Zhao, Mandy, Coyne, Michael, Breese, Virginia, Young, Geneva, Donahue, Amy, Pavlick, Dean, Tsiros, Alyssa, Brennan, Timothy, Zhong, Shan, Mughal, Tariq, Bailey, Mark, He, Jie, Roels, Steven, Frampton, Garrett M., Spoerke, Jill M., Gendreau, Steven, Lackner, Mark, Schleifman, Erica, Peters, Eric, Ross, Jeffrey S., Ali, Siraj M., Miller, Vincent A., Gregg, Jeffrey P., Stephens, Philip J., Welsh, Allison, Otto, Geoff A., and Lipson, Doron

Abstract

Genomic profiling of circulating tumor DNA derived from cell-free DNA (cfDNA) in blood can provide a noninvasive method for detecting genomic biomarkers to guide clinical decision making for cancer patients. We developed a hybrid capture–based next-generation sequencing assay for genomic profiling of circulating tumor DNA from blood (FoundationACT). High-sequencing coverage and molecular barcode–based error detection enabled accurate detection of genomic alterations, including short variants (base substitutions, short insertions/deletions) and genomic re-arrangements at low allele frequencies (AFs), and copy number amplifications. Analytical validation was performed on 2666 reference alterations. The assay achieved >99% overall sensitivity (95% CI, 99.1%–99.4%) for short variants at AF >0.5%, >95% sensitivity (95% CI, 94.2%–95.7%) for AF 0.25% to 0.5%, and 70% sensitivity (95% CI, 68.2%–71.5%) for AF 0.125% to 0.25%. No false positives were detected in 62 samples from healthy volunteers. Genomic alterations detected by FoundationACT demonstrated high concordance with orthogonal assays run on the same clinical cfDNA samples. In 860 routine clinical FoundationACT cases, genomic alterations were detected in cfDNA at comparable frequencies to tissue; for the subset of cases with temporally matched tissue and blood samples, 75% of genomic alterations and 83% of short variant mutations detected in tissue were also detected in cfDNA. On the basis of analytical validation results, FoundationACT has been approved for use in our Clinical Laboratory Improvement Amendments–certified/College of American Pathologists–accredited/New York State–approved laboratory.

Published

2018

2. Integrated genomic DNA/RNA profiling of hematologic malignancies in the clinical setting

Author

He, Jie, Abdel-Wahab, Omar, Nahas, Michelle K., Wang, Kai, Rampal, Raajit K., Intlekofer, Andrew M., Patel, Jay, Krivstov, Andrei, Frampton, Garrett M., Young, Lauren E., Zhong, Shan, Bailey, Mark, White, Jared R., Roels, Steven, Deffenbaugh, Jason, Fichtenholtz, Alex, Brennan, Timothy, Rosenzweig, Mark, Pelak, Kimberly, Knapp, Kristina M., Brennan, Kristina W., Donahue, Amy L., Young, Geneva, Garcia, Lazaro, Beckstrom, Selmira T., Zhao, Mandy, White, Emily, Banning, Vera, Buell, Jamie, Iwanik, Kiel, Ross, Jeffrey S., Morosini, Deborah, Younes, Anas, Hanash, Alan M., Paietta, Elisabeth, Roberts, Kathryn, Mullighan, Charles, Dogan, Ahmet, Armstrong, Scott A., Mughal, Tariq, Vergilio, Jo-Anne, Labrecque, Elaine, Erlich, Rachel, Vietz, Christine, Yelensky, Roman, Stephens, Philip J., Miller, Vincent A., van den Brink, Marcel R. M., Otto, Geoff A., Lipson, Doron, and Levine, Ross L.

Abstract

The spectrum of somatic alterations in hematologic malignancies includes substitutions, insertions/deletions (indels), copy number alterations (CNAs), and a wide range of gene fusions; no current clinically available single assay captures the different types of alterations. We developed a novel next-generation sequencing-based assay to identify all classes of genomic alterations using archived formalin-fixed paraffin-embedded blood and bone marrow samples with high accuracy in a clinically relevant time frame, which is performed in our Clinical Laboratory Improvement Amendments–certified College of American Pathologists–accredited laboratory. Targeted capture of DNA/RNA and next-generation sequencing reliably identifies substitutions, indels, CNAs, and gene fusions, with similar accuracy to lower-throughput assays that focus on specific genes and types of genomic alterations. Profiling of 3696 samples identified recurrent somatic alterations that impact diagnosis, prognosis, and therapy selection. This comprehensive genomic profiling approach has proved effective in detecting all types of genomic alterations, including fusion transcripts, which increases the ability to identify clinically relevant genomic alterations with therapeutic relevance.

Published

2016

3. Integrated genomic DNA/RNA profiling of hematologic malignancies in the clinical setting

Author

He, Jie, Abdel-Wahab, Omar, Nahas, Michelle K., Wang, Kai, Rampal, Raajit K., Intlekofer, Andrew M., Patel, Jay, Krivstov, Andrei, Frampton, Garrett M., Young, Lauren E., Zhong, Shan, Bailey, Mark, White, Jared R., Roels, Steven, Deffenbaugh, Jason, Fichtenholtz, Alex, Brennan, Timothy, Rosenzweig, Mark, Pelak, Kimberly, Knapp, Kristina M., Brennan, Kristina W., Donahue, Amy L., Young, Geneva, Garcia, Lazaro, Beckstrom, Selmira T., Zhao, Mandy, White, Emily, Banning, Vera, Buell, Jamie, Iwanik, Kiel, Ross, Jeffrey S., Morosini, Deborah, Younes, Anas, Hanash, Alan M., Paietta, Elisabeth, Roberts, Kathryn, Mullighan, Charles, Dogan, Ahmet, Armstrong, Scott A., Mughal, Tariq, Vergilio, Jo-Anne, Labrecque, Elaine, Erlich, Rachel, Vietz, Christine, Yelensky, Roman, Stephens, Philip J., Miller, Vincent A., van den Brink, Marcel R.M., Otto, Geoff A., Lipson, Doron, and Levine, Ross L.

Abstract

The spectrum of somatic alterations in hematologic malignancies includes substitutions, insertions/deletions (indels), copy number alterations (CNAs), and a wide range of gene fusions; no current clinically available single assay captures the different types of alterations. We developed a novel next-generation sequencing-based assay to identify all classes of genomic alterations using archived formalin-fixed paraffin-embedded blood and bone marrow samples with high accuracy in a clinically relevant time frame, which is performed in our Clinical Laboratory Improvement Amendments–certified College of American Pathologists–accredited laboratory. Targeted capture of DNA/RNA and next-generation sequencing reliably identifies substitutions, indels, CNAs, and gene fusions, with similar accuracy to lower-throughput assays that focus on specific genes and types of genomic alterations. Profiling of 3696 samples identified recurrent somatic alterations that impact diagnosis, prognosis, and therapy selection. This comprehensive genomic profiling approach has proved effective in detecting all types of genomic alterations, including fusion transcripts, which increases the ability to identify clinically relevant genomic alterations with therapeutic relevance.

Published

2016

4. Genomic Profiling Combining DNA and RNA Analysis of 112 Formalin-Fixed Paraffin-Embedded Diffuse Large B Cell Lymphoma Specimens Identifies a High Frequency of Clinically Relevant Genomic Alterations

Author

Intlekofer, Andrew M., Hilden, Patrick, Seshan, Venkatraman E., Copeland, Amanda R., Levine, Ross L., Zelenetz, Andrew D., Teruya-Feldstein, Julie, Dogan, Ahmet, Palomba, Maria Lia, Moskowitz, Craig H., van den Brink, Marcel R. M., Knapp, Kristina M., Pichardo, Janine D., Brennan, Kristina W., Young, Geneva, He, Jie, Nahas, Michelle K., Yelensky, Roman, Otto, Geoff A., Lipson, Doron, Stephens, Philip J., Miller, Vincent A., and Younes, Anas

Abstract

Intlekofer: Foundation Medicine, Inc: Consultancy. Levine:Foundation Medicine, Inc: Consultancy. Zelenetz:Foundation Medicine, Inc: Consultancy. Dogan:Foundation Medicine, Inc: Consultancy. Palomba:Foundation Medicine, Inc: Consultancy. van den Brink:Foundation Medicine, Inc: Consultancy. Brennan:Foundation Medicine, Inc: Employment. Young:Foundation Medicine, Inc: Employment. He:Foundation Medicine: Employment. Nahas:Foundation Medicine, Inc: Employment. Yelensky:Foundation Medicine, Inc: Employment. Otto:Foundation Medicine, Inc: Employment. Lipson:Foundation Medicine, Inc: Employment. Stephens:Foundation Medicine, Inc: Employment. Miller:Foundation Medicine, Inc: Employment. Younes:Foundation Medicine, Inc: Consultancy.

Published

2014

5. Clinical Utility of Comprehensive Profiling of Genomic Alterations in Hematologic Malignancies

Author

He, Jie, Bufill, Jose A., Nahas, Michelle K., Wang, Kai, Young, Lauren E, Knapp, Kristina M., Brennan, Kristina W., Donahue, Amy L, Young, Geneva, Ross, Jeffrey S, Morosini, Deborah, van den Brink, Marcel R. M., Abdel-Wahab, Omar, Rampal, Raajit K., Intlekofer, Andrew M., Dogan, Ahmet, Armstrong, Scott, Yelensky, Roman, Otto, Geoff, Lipson, Doron, Stephens, Philip J., Miller, Vincent A., and Levine, Ross L.

Abstract

He: Foundation Medicine: Employment, Equity Ownership. Nahas:Foundation Medicine, Inc: Employment. Wang:Foundation Medicine, Inc.: Employment, Equity Ownership. Young:Foundation Medicine: Employment, Equity Ownership. Brennan:Foundation Medicine, Inc: Employment. Donahue:Foundation Medicine: Employment. Young:Foundation Medicine, Inc: Employment. Ross:Foundation Medicine, Inc.: Employment, Equity Ownership. Morosini:Foundation Medicine, Inc. : Employment, Equity Ownership. van den Brink:Foundation Medicine, Inc: Consultancy. Intlekofer:Foundation Medicine, Inc: Consultancy. Dogan:Foundation Medicine, Inc: Consultancy. Armstrong:Epizyme, Inc: Consultancy. Yelensky:Foundation Medicine, Inc.: Employment, Equity Ownership. Otto:Foundation Medicine, Inc.: Employment. Lipson:Foundation Medicine, Inc.: Employment, Equity Ownership. Stephens:Foundation Medicine, Inc.: Employment, Equity Ownership. Miller:Foundation Medicine, Inc: Employment. Levine:Foundation Medicine, Inc: Consultancy.

Published

2014

6. Clinical Utility of Comprehensive Profiling of Genomic Alterations in Hematologic Malignancies

Author

He, Jie, Bufill, Jose A., Nahas, Michelle K., Wang, Kai, Young, Lauren E, Knapp, Kristina M., Brennan, Kristina W., Donahue, Amy L, Young, Geneva, Ross, Jeffrey S, Morosini, Deborah, van den Brink, Marcel R.M., Abdel-Wahab, Omar, Rampal, Raajit K., Intlekofer, Andrew M., Dogan, Ahmet, Armstrong, Scott, Yelensky, Roman, Otto, Geoff, Lipson, Doron, Stephens, Philip J., Miller, Vincent A., and Levine, Ross L.

Abstract

Background:The clinical utility of mutation profiling in hematologic malignancies requires robust detection of all classes of genomic alterations in a single analysis across different tumor types. We developed a novel, hybrid capture-based NGS assay (FoundationOne® Heme) designed to comprehensively assess the genomic landscape of hematologic malignancies from archived FFPE, blood and bone marrow aspirate samples, sequencing both DNA and RNA to improve sensitivity for driver fusion events. We have analyzed the genomic alterations including substitutions, indels, copy number alterations and genomic rearrangements of 795 samples with various hematolymphoid malignancies including lymphoma, leukemia and multiple myeloma to demonstrate the diagnostic, therapeutic and prognostic utility of this test in routine clinical practice.

Published

2014

7. Genomic Profiling Combining DNA and RNA Analysis of 112 Formalin-Fixed Paraffin-Embedded Diffuse Large B Cell Lymphoma Specimens Identifies a High Frequency of Clinically Relevant Genomic Alterations

Author

Intlekofer, Andrew M., Hilden, Patrick, Seshan, Venkatraman E., Copeland, Amanda R., Levine, Ross L., Zelenetz, Andrew D., Teruya-Feldstein, Julie, Dogan, Ahmet, Palomba, Maria Lia, Moskowitz, Craig H., van den Brink, Marcel R.M., Knapp, Kristina M., Pichardo, Janine D., Brennan, Kristina W., Young, Geneva, He, Jie, Nahas, Michelle K., Yelensky, Roman, Otto, Geoff A., Lipson, Doron, Stephens, Philip J., Miller, Vincent A., and Younes, Anas

Abstract

Background:A variety of next-generation sequencing methods have been used to investigate the genomic landscape of primary lymphoma patient samples, including whole-genome, whole-exome, and RNA sequencing. In diffuse large B cell lymphoma (DLBCL), sequencing studies identified numerous genomic alterations (GAs) of potential clinical relevance, but the distribution and frequency of GAs have not been precisely determined. Discrepancies in existing data likely arise from variability in types of specimens examined, sequencing technologies employed, and depth of coverage utilized to identify GAs. In this study, we performed comprehensive DNA/RNA sequencing of genes known to be important across the spectrum of hematologic malignancies in order to determine the nature and prevalence of GAs with potential diagnostic, prognostic, or therapeutic implications in a cohort of 112 well-annotated clinical DLBCL cases.

Published

2014

8. Identification Of Actionable Genomic Alterations In Hematologic Malignancies By a Clinical Next Generation Sequencing-Based Assay

Author

Lipson, Doron, Nahas, Michelle K, Otto, Geoff A., Yelensky, Roman, Abdel-Wahab, Omar, Wang, Kai, He, Jie, Intlekofer, Andrew M., Rampal, Raajit K., Brennan, Timothy A, Knapp, Kristina M., Brennan, Kristina W, Young, Geneva, Donahue, Amy L, Sanford, Eric M, Greenbowe, Joel R, Frampton, Garrett M, Fichtenholtz, Alex, Young, Lauren E, Erlich, Rachel L, Parker, Alex, Klimstra, David, Dogan, Ahmet, Ross, Jeffrey S, Armstrong, Scott A., Stephens, Philip J., van den Brink, Marcel R. M., Miller, Vincent A., and Levine, Ross L.

Abstract

Rapid advancements in cancer genomics and in the development of targeted therapies provide expanding opportunities to use genomic profiling to improve patient outcomes. However, most patients do not have access to clinical genomic profiling platforms, and currently available assays capture a small set of known mutations or translocations tailored to specific tumor types. The spectrum of somatic alterations in leukemia, lymphoma, and myeloma includes substitutions, insertions/deletions (indels), copy number alterations (CNAs) and gene fusions; no current assay captures the different types of alterations in a single clinical genomic test. We developed a novel, CLIA-certified next-generation sequencing-based assay designed to provide targeted assessment of the genomic landscape of hematologic malignancies, including identification of all classes of genomic alterations using archived FFPE, blood and bone marrow aspirate samples with high accuracy in a clinically relevant timeframe.DNA and RNA were successfully extracted from 350/362 (96%) specimens from 319 patients, including 57 FFPE samples, 150 blood samples and 142 bone marrow aspirates. The initial sample cohort included 20 ALL, 83 AML, 53 CLL, 57 DLBCL, 48 MDS, 32 MPN and 57 multiple myeloma samples. Adaptor ligated sequencing libraries were captured by solution hybridization using a custom bait-set targeting 374 cancer-related genes and 24 frequently rearranged genes by DNA-seq, and 258 frequently-rearranged genes by RNA-seq. All captured libraries were sequenced to high depth (Illumina HiSeq) in a CLIA-certified laboratory (Foundation Medicine), averaging 590x for DNA and >20M total pairs for RNA, to enable the sensitive and specific detection of substitutions, indels, CNAs and gene fusions.Sufficient tumor content (≥20%) was present in 317/350 (91%) of the samples (289/319 patients), and a total of 885 alterations were identified (3.1 alterations per sample), including 555 base substitutions, 213 indels, 36 splice mutations, 51 CNAs and 36 fusions/rearrangements. The most frequent alterations across all hematologic malignancies included mutations in TP53 (9%), ASXL1, KRAS, NRAS, IDH2, TET2, SF3B1, JAK2, MLL2, DNMT3A, RUNX1, and SRSF2 (2-5% each); FLT3 ITDs (2%); MLL PTDs (1%); homozygous loss of CDKN2A/B (3%); and focal amplification of REL (1%). Rearrangements in BCL2/6, MYC, MLL, MLL2, NOTCH2, ABL1 and ETV6 were identified using DNA and RNA targeted sequencing, demonstrating the ability of this platform to reliably identify gene fusions with immediate clinical relevance.Overall high accuracy of the assay for substitutions, indels and CNAs was previously demonstrated by extensive validation studies achieving 95-99% across alteration types with high specificity (PPV>99%) [Frampton et al, Nat Biotech, in press]. Comparison of detected alterations to previous molecular testing for JAK2, NPM1, IDH2, FLT3 and CEBPA in MPN/AML samples demonstrated 97% sensitivity (33/34) in our ability to identify known mutations in these clinical samples. We identified additional clinically relevant mutations that were not detected using standard clinical assays, including alterations in JAK2, FLT3 and IDH2, which can inform therapeutic decisions. The use of our content rich sequencing platform allowed us to identify clinically actionable mutations in hematologic malignancies, including IDH1/2 mutations in a spectrum of myeloid/lymphoid malignancies, recurrent BRAF mutations in refractory CLL and myeloma, and mutations in the JAK-STAT signaling pathway in diffuse-large B cell lymphoma. These results demonstrate that a targeted sequencing platform which includes a large set of known disease alleles/therapeutic targets can identify mutations with therapeutic relevance in disease contexts where gene-specific assays are not currently performed in the clinical setting.We have developed a sensitive, high throughput assay to detect somatic alterations in hundreds of genes known to be deregulated in hematologic malignancies, which can be used for clinical sequencing of frozen/paraffin samples. We demonstrate that targeted DNA and RNA sequencing can be used to identify all classes of genomic alterations in genes known to be therapeutic targets in a broad spectrum of hematologic malignancies.Lipson: Foundation Medicine, Inc: Employment, Equity Ownership. Nahas:Foundation Medicine, Inc: Employment, Equity Ownership. Otto:Foundation Medicine, Inc: Employment, Equity Ownership. Yelensky:Foundation Medicine, Inc: Employment, Equity Ownership. Wang:Foundation Medicine, Inc: Employment, Equity Ownership. He:Foundation Medicine, Inc: Employment, Equity Ownership. Rampal:Foundation Medicine: Consultancy. Brennan:Foundation Medicine, Inc: Employment, Equity Ownership. Brennan:Foundation Medicine, Inc: Employment, Equity Ownership. Young:Foundation Medicine, Inc: Employment, Equity Ownership. Donahue:Foundation Medicine, Inc: Employment, Equity Ownership. Sanford:Foundation Medicine, Inc: Employment, Equity Ownership. Greenbowe:Foundation Medicine, Inc: Employment, Equity Ownership. Frampton:Foundation Medicine, Inc: Employment, Equity Ownership. Fichtenholtz:Foundation Medicine, Inc: Employment, Equity Ownership. Young:Foundation Medicine, Inc: Employment, Equity Ownership. Erlich:Foundation Medicine, Inc: Employment, Equity Ownership. Parker:Foundation Medicine, Inc: Employment, Equity Ownership. Ross:Foundation Medicine, Inc: Employment, Equity Ownership. Stephens:Foundation Medicine, Inc: Employment, Equity Ownership. Miller:Foundation Medicine, Inc: Employment, Equity Ownership. Levine:Foundation Medicine, Inc: Consultancy.

Published

2013

9. Profiling Genomic Alterations Of Diffuse Large B-Cell Lymphoma (DLBCL) At Diagnosis, Relapse, and Transformation, Using a Novel Clinical Diagnostic Targeted Sequencing Platform

Author

Intlekofer, Andrew M., Sheshan, Venkatraman E., Levine, Ross L., Zelenetz, Andrew D., Teruya-Feldstein, Julie, Dogan, Ahmet, Palomba, Maria Lia, Moskowitz, Craig H., van den Brink, Marcel R. M., Knapp, Kristina M., Copeland, Amanda R. M., Pichardo, Janine D., Brennan, Kristina W., Young, Geneva, He, Jie, Nahas, Michelle K., Yelensky, Roman, Otto, Geoff A., Lipson, Doron, Stephens, Philip J., Miller, Vincent A., and Younes, Anas

Abstract

Intlekofer: Foundation Medicine, Inc: Consultancy. Levine:Foundation Medicine, Inc: Consultancy. Zelenetz:Foundation Medicine, Inc: Consultancy. Palomba:Foundation Medicine, Inc: Consultancy. van den Brink:Foundation Medicine, Inc: Consultancy. Brennan:Foundation Medicine, Inc: Employment. Young:Foundation Medicine, Inc: Employment. He:Foundation Medicine, Inc: Employment. Nahas:Foundation Medicine, Inc: Employment. Yelensky:Foundation Medicine, Inc: Employment. Otto:Foundation Medicine, Inc: Employment. Lipson:Foundation Medicine, Inc: Employment. Stephens:Foundation Medicine, Inc: Employment. Miller:Foundation Medicine, Inc: Employment. Younes:Foundation Medicine, Inc: Consultancy.

Published

2013

10. Profiling Genomic Alterations Of Diffuse Large B-Cell Lymphoma (DLBCL) At Diagnosis, Relapse, and Transformation, Using a Novel Clinical Diagnostic Targeted Sequencing Platform

Author

Intlekofer, Andrew M., Sheshan, Venkatraman E., Levine, Ross L., Zelenetz, Andrew D., Teruya-Feldstein, Julie, Dogan, Ahmet, Palomba, Maria Lia, Moskowitz, Craig H., van den Brink, Marcel R.M., Knapp, Kristina M., Copeland, Amanda R.M., Pichardo, Janine D., Brennan, Kristina W., Young, Geneva, He, Jie, Nahas, Michelle K., Yelensky, Roman, Otto, Geoff A., Lipson, Doron, Stephens, Philip J., Miller, Vincent A., and Younes, Anas

Abstract

Whole genome and exome sequencing studies have identified numerous genomic alterations in DLBCL, but these methods have limited applicability for the clinical care of lymphoma patients due to cost, specific tissue requirements, and laborious bioinformatic analysis. FoundationOne-Heme (FOH) is a novel next-generation sequencing platform designed to provide targeted assessment of the genomic landscape of hematologic malignancies, including identification of mutations within specific genes, copy number changes, and translocations. FOH can be performed on small quantities of formalin-fixed paraffin-embedded (FFPE) tissue, detect rare variants due to extensive depth of sequencing coverage, and rapidly provide results via streamlined bioinformatic interpretation. Here we report the first experience using this novel platform to evaluate the genetic landscape of DLBCL.

Published

2013

11. Identification Of Actionable Genomic Alterations In Hematologic Malignancies By a Clinical Next Generation Sequencing-Based Assay

Author

Lipson, Doron, Nahas, Michelle K, Otto, Geoff A., Yelensky, Roman, Abdel-Wahab, Omar, Wang, Kai, He, Jie, Intlekofer, Andrew M., Rampal, Raajit K., Brennan, Timothy A, Knapp, Kristina M., Brennan, Kristina W, Young, Geneva, Donahue, Amy L, Sanford, Eric M, Greenbowe, Joel R, Frampton, Garrett M, Fichtenholtz, Alex, Young, Lauren E, Erlich, Rachel L, Parker, Alex, Klimstra, David, Dogan, Ahmet, Ross, Jeffrey S, Armstrong, Scott A., Stephens, Philip J., van den Brink, Marcel R.M., Miller, Vincent A., and Levine, Ross L.

Abstract

Rapid advancements in cancer genomics and in the development of targeted therapies provide expanding opportunities to use genomic profiling to improve patient outcomes. However, most patients do not have access to clinical genomic profiling platforms, and currently available assays capture a small set of known mutations or translocations tailored to specific tumor types. The spectrum of somatic alterations in leukemia, lymphoma, and myeloma includes substitutions, insertions/deletions (indels), copy number alterations (CNAs) and gene fusions; no current assay captures the different types of alterations in a single clinical genomic test. We developed a novel, CLIA-certified next-generation sequencing-based assay designed to provide targeted assessment of the genomic landscape of hematologic malignancies, including identification of all classes of genomic alterations using archived FFPE, blood and bone marrow aspirate samples with high accuracy in a clinically relevant timeframe.

Published

2013

12. A scalable, fully automated process for construction of sequence-ready human exome targeted capture libraries

Author

Fisher, Sheila, Barry, Andrew, Abreu, Justin, Minie, Brian, Nolan, Jillian, Delorey, Toni, Young, Geneva, Fennell, Timothy, Allen, Alexander, Ambrogio, Lauren, Berlin, Aaron, Blumenstiel, Brendan, Cibulskis, Kristian, Friedrich, Dennis, Johnson, Ryan, Juhn, Frank, Reilly, Brian, Shammas, Ramy, Stalker, John, Sykes, Sean, Thompson, Jon, Walsh, John, Zimmer, Andrew, Zwirko, Zac, Gabriel, Stacey, Nicol, Robert, and Nusbaum, Chad

Abstract

Genome targeting methods enable cost-effective capture of specific subsets of the genome for sequencing. We present here an automated, highly scalable method for carrying out the Solution Hybrid Selection capture approach that provides a dramatic increase in scale and throughput of sequence-ready libraries produced. Significant process improvements and a series of in-process quality control checkpoints are also added. These process improvements can also be used in a manual version of the protocol.

Published

2011

13. Targeted Exon Sequencing by In‐Solution Hybrid Selection

Author

Blumenstiel, Brendan, Cibulskis, Kristian, Fisher, Sheila, DeFelice, Matthew, Barry, Andrew, Fennell, Tim, Abreu, Justin, Minie, Brian, Costello, Maura, Young, Geneva, Maquire, Jared, Kernytsky, Andrew, Melnikov, Alexandre, Rogov, Peter, Gnirke, Andreas, and Gabriel, Stacey

Abstract

This unit describes a protocol for the targeted enrichment of exons from randomly sheared genomic DNA libraries using an in‐solution hybrid selection approach for sequencing on an Illumina Genome Analyzer II. The steps for designing and ordering a hybrid selection oligo pool are reviewed, as are critical steps for performing the preparation and hybrid selection of an Illumina paired‐end library. Critical parameters, performance metrics, and analysis workflow are discussed. Curr. Protoc. Hum. Genet. 66:18.4.1‐18.4.24 © 2010 by John Wiley & Sons, Inc.

Published

2010