ORLY ALTER portrait
  • USTAR Associate Professor of Bioengineering and Human Genetics, Scientific Computing and Imaging Institute and Huntsman Cancer Institute, University of Utah
  • Chief Scientific Officer and Co-Founder, Prism AI

Languages

  • English, fluent.
  • Hebrew, fluent.

Grants, Contracts & Research Gifts

  • NIH/National Cancer Institute (NCI) Physical Sciences in Oncology U01 Project, “Multi-Tensor Decompositions for Personalized Cancer Diagnostics and Prognostics”. PI: O. Alter. https://alterlab.org/physics_of_cancer/. 09/23/2015 - 08/31/2023. Total project budget to date: $3,395,986.00
  • Center for Disease Control and Prevention (CDC) Contract, “COVID-19 Genomics in the American Southwest/Utah Site: Multi-Tensor Decompositions for Personalized COVID-19 Diagnostics and Prognostics”. PI: O. Alter. 05/15/2021 - 05/15/2023. Total project budget to date: $149,612.00
  • Cancer Research UK (CR UK) Project, “Global Effects of DNA Replication and DNA Replication Origin Activity on Eukaryotic Gene Expression”. PI: O. Alter. 03/27/2007 - present. Total project budget to date: $7,500.00
  • NIH/National Center for Advancing Translational Sciences (NCATS) UL1 Center Subcontract, “Multi-Tensor Decompositions for Personalized Brain Cancer Therapeutics”. PI: O. Alter. Co-PI(s): Co-PIs D. A. McClain and C. L. Byington. 01/01/2015 - 12/31/2016. Total project budget to date: $25,000.00
  • NSF/Division of Mathematical Sciences (DMS) Faculty Early Career (CAREER) Award, “Integrative and Comparative Tensor Algebra Models of DNA Microarray Data from Different Studies of the Cell Cycle”. PI: O. Alter. https://app.dimensions.ai/details/grant/grant.3096... 08/01/2009 - 07/31/2015. Total project budget to date: $400,053.00
  • NIH/National Human Genome Research Institute (NHGRI) R01 Project, “Tensor Computations for Modeling Large-Scale Molecular Biological Data – from Discovery of Patterns to Discovery of Principles”. PI: O. Alter. https://app.dimensions.ai/details/grant/grant.2529... 08/23/2007 - 05/31/2015. Total project budget to date: $1,768,525.00
  • NIH/NHGRI K01 Individual Mentored Research Scientist Development Award in Genomic Research and Analysis, “Mathematical Tools for Gene Expression Data Analysis”. PI: O. Alter. https://app.dimensions.ai/details/grant/grant.2404... 04/01/2000 - 03/31/2005. Total project budget to date: $527,367.00
  • DOE/Alfred P. Sloan Foundation Postdoctoral Fellowship in Computational Molecular Biology, “Analytical and Computational Tools for Genome-Wide Gene Expression Data Analysis”. PI: O. Alter. https://app.dimensions.ai/details/grant/grant.8700... 09/01/1999 - 08/31/2003. Total project budget to date: $100,000.00
  • NIH/NCI K07 Mentored Cancer Prevention, Control, Behavioral and Population Sciences Career Development Award. PI: H. A. Hanson. 07/2018 - 06/2021. Total project budget to date: $747,520.00
  • NIH/NCI F99/K00 Predoctoral to Postdoctoral Fellow Transition Award. PI: R. G. Waller. 09/2018 - 08/2020. Total project budget to date: $68,894.00
  • NIH/National Institute of Child Health and Human Development (NICHD) K12 Mentored Clinical Scientist Development Award. PI: H. A. Hanson. 12/2015 - 06/2018. Total project budget to date: $250,000.00
  • NIH/National Institute of General Medical Sciences (NIGMS) K99/R00 Pathway to Independence (PI) Award. PI: J. M. Tennessen. 06/2012 - 12/2016. Total project budget to date: $924,470.00
  • NIH/NIGMS T32 Medical Scientist Training Program. PI: M. S. Kay. 07/2023 - 06/2028. Total project budget to date: $1,741,605.00
  • NIH/NHGRI T32 Training Program in Genomic Medicine. PI: L. B. Jorde. 06/2021 - 05/2026. Total project budget to date: $2,801,258.00
  • NIH/NHGRI R25 Genomics Summer Research for Minorities. PI: H. J. Yost. 09/2018 - 08/2023. Total project budget to date: $1,311,390.00

Publications

Orly Alter - Google Scholar
Orly Alter - ORCiD Works

Books

  1. O. Alter, Genomic Signal Processing: Discovery of Principles of Nature from Matrix and Tensor Modeling of Large-Scale Molecular Biological Data. New York, NY: Wiley (in preparation).

Journal Papers

  1. S. P. Ponnapalli, M. W. Bradley, K. Devine, J. Bowen, S. E. Coppens, K. M. Leraas, B. A. Milash, F. Li, H. Luo, S. Qiu, K. Wu, H. Yang, C. T. Wittwer, C. A. Palmer, R. L. Jensen, J. M. Gastier-Foster, H. A. Hanson, J. S. Barnholtz-Sloan and O. Alter, "Retrospective Clinical Trial Experimentally Validates Glioblastoma Genome-Wide Pattern of DNA Copy-Number Alterations Predictor of Survival," Applied Physics Letters (APL) Bioengineering 4 (2), article 026106 (May 2020); doi: 10.1063/1.5142559.
    Press Release: J. Kiefer, "Genome-Wide Pattern Found in Tumors from Brain Cancer Patients Predicts Life Expectancy," American Association for the Advancement of Science (AAAS) EurekAlert! (May 15, 2020).
    MentionAmong the most shared Applied Physics Letters (APL) Bioengineering research as of 2021, APL Bioengineering (October 30, 2021).
  2. M. W. Bradley, K. A. Aiello, S. P. Ponnapalli,* H. A. Hanson* and O. Alter, "GSVD- and Tensor GSVD-Uncovered Patterns of DNA Copy-Number Alterations Predict Adenocarcinomas Survival in General and in Response to Platinum," Applied Physics Letters (APL) Bioengineering 3 (3), article 036104 (August 2019); doi: 10.1063/1.5099268.
  3. K. A. Aiello, S. P. Ponnapalli and O. Alter, "Mathematically Universal and Biologically Consistent Astrocytoma Genotype Encodes for Transformation and Predicts Survival Phenotype," Applied Physics Letters (APL) Bioengineering 2 (3), Special Topic: Bioengineering of Cancer invited article 031909 (September 2018); doi: 10.1063/1.5037882.
    Feature: A. J. Engler and D. E. Discher, "Rationally Engineered Advances in Cancer Research," Applied Physics Letters (APL) Bioengineering 2 (3), Special Topic: Bioengineering of Cancer preface 031601 (September 2018).
    MentionAmong the top 10 most downloaded Applied Physics Letters (APL) Bioengineering articles as of 2019, APL Bioengineering (May 14, 2019).
  4. K. A. Aiello and O. Alter, "Platform-Independent Genome-Wide Pattern of DNA Copy-Number Alterations Predicting Astrocytoma Survival and Response to Treatment Revealed by the GSVD Formulated as a Comparative Spectral Decomposition," Public Library of Science (PLoS) One 11 (10), article e0164546 (October 2016); doi: 10.1371/journal.pone.0164546.
  5. P. Sankaranarayanan,* T. E. Schomay,* K. A. Aiello and O. Alter, "Tensor GSVD of Patient- and Platform-Matched Tumor and Normal DNA Copy-Number Profiles Uncovers Chromosome Arm-Wide Patterns of Tumor-Exclusive Platform-Consistent Alterations Encoding for Cell Transformation and Predicting Ovarian Cancer Survival," Public Library of Science (PLoS) One 10 (4), article e0121396 (April 2015); doi: 10.1371/journal.pone.0121396.
    Press Release: J. Kiefer, "New Method Increases Accuracy of Ovarian Cancer Prognosis and Diagnosis," American Association for the Advancement of Science (AAAS) EurekAlert! (April 15, 2015).
    Feature: R. Atkins, "Calculating Cancer Cures," National Academy of Engineering (NAE) Innovation Podcast and Radio Series (April 19, 2015).1
    Feature: F. Pavlou, "Big Data, Hidden Knowledge," The Pathologist (June 15, 2015).2
  6. N. M. Bertagnolli, J. A. Drake, J. M. Tennessen and O. Alter, "SVD Identifies Transcript Length Distribution Functions from DNA Microarray Data and Reveals Evolutionary Forces Globally Affecting GBM Metabolism," Public Library of Science (PLoS) One 8 (11), article e78913 (November 2013); doi: 10.1371/journal.pone.0078913.
    Highlight.
  7. C. H. Lee,* B. O. Alpert,* P. Sankaranarayanan and O. Alter, "GSVD Comparison of Patient-Matched Normal and Tumor aCGH Profiles Reveals Global Copy-Number Alterations Predicting Glioblastoma Multiforme Survival," Public Library of Science (PLoS) One 7 (1), article e30098 (January 2012); doi: 10.1371/journal.pone.0030098.
    Highlight.
  8. S. P. Ponnapalli, M. A. Saunders, C. F. Van Loan and O. Alter, "A Higher-Order Generalized Singular Value Decomposition for Comparison of Global mRNA Expression from Multiple Organisms," Public Library of Science (PLoS) One 6 (12), article e28072 (December 2011); doi: 10.1371/journal.pone.0028072.
    Mention: Among the top 10% most cited Public Library of Science (PLoS) One articles as of 2017, PLoS One (June 30, 2017).
    Highlight.
  9. C. Muralidhara, A. M. Gross, R. R. Gutell and O. Alter, "Tensor Decomposition Reveals Concurrent Evolutionary Convergences and Divergences and Correlations with Structural Motifs in Ribosomal RNA," Public Library of Science (PLoS) One 6 (4), article e18768 (April 2011); doi: 10.1371/journal.pone.0018768.
    Highlight.
  10. L. Omberg, J. R. Meyerson, K. Kobayashi, L. S. Drury, J. F. X. Diffley and O. Alter, "Global Effects of DNA Replication and DNA Replication Origin Activity on Eukaryotic Gene Expression," Molecular Systems Biology (MSB) 5, article 312 (October 2009); doi: 10.1038/msb.2009.70.
    Press Release: B. Rische, "Mathematical Modeling Correctly Predicts Previously Unknown Biological Mechanism of Regulation," American Association for the Advancement of Science (AAAS) EurekAlert! (October 13, 2009).
    Recommendation: M. Méchali, Faculty Opinions recommendation 1728974 (February 2010).
    Highlight.
  11. L. Omberg, G. H. Golub and O. Alter, "A Tensor Higher-Order Singular Value Decomposition for Integrative Analysis of DNA Microarray Data from Different Studies," Proceedings of the National Academy of Sciences (PNAS) USA 104 (47), pp. 18371–18376 (November 2007); doi: 10.1073/pnas.0709146104.
  12. O. Alter and G. H. Golub, "Singular Value Decomposition of Genome-Scale mRNA Lengths Distribution Reveals Asymmetry in RNA Gel Electrophoresis Band Broadening," Proceedings of the National Academy of Sciences (PNAS) USA 103 (32), pp. 11828–11833 (August 2006); doi: 10.1073/pnas.0604756103.
  13. O. Alter and G. H. Golub, "Reconstructing the Pathways of a Cellular System from Genome-Scale Signals by Using Matrix and Tensor Computations," Proceedings of the National Academy of Sciences (PNAS) USA 102 (49), pp. 17559–17564 (November 2005); doi: 10.1073/pnas.0509033102.
  14. O. Alter and G. H. Golub, "Integrative Analysis of Genome-Scale Data by Using Pseudoinverse Projection Predicts Novel Correlation between DNA Replication and RNA Transcription," Proceedings of the National Academy of Sciences (PNAS) USA 101 (47), pp. 16577–16582 (November 2004); doi: 10.1073/pnas.0406767101.
  15. O. Alter, P. O. Brown and D. Botstein, "Generalized Singular Value Decomposition for Comparative Analysis of Genome-Scale Expression Datasets of Two Different Organisms," Proceedings of the National Academy of Sciences (PNAS) USA 100 (6), pp. 3351–3356 (March 2003); doi: 10.1073/pnas.0530258100.
    Feature: J. Wixon and J. Ashurst, "Genome Informatics," Comparative and Functional Genomics 4 (5), pp. 509–514 (October 2003).
    Feature: M. E. Kilmer and C. D. Moravitz Martin, "Decomposing a Tensor," Society for Industrial and Applied Mathematics (SIAM) News 37 (9), (November 2004).3
  16. S. P. Bohen, O. G. Troyanskaya, O. Alter, R. Warnke, D. Botstein, P. O. Brown and R. Levy, "Variation in Gene Expression Patterns in Follicular Lymphoma and the Response to Rituximab," Proceedings of the National Academy of Sciences (PNAS) USA 100 (4), pp. 1926–1930 (February 2003); doi: 10.1073/pnas.0437875100.
  17. T. Nielsen, R. B. West, S. C. Linn, O. Alter, M. A. Knowling, J. O'Connell, S. Zhu, M. Fero, G. Sherlock, J. R. Pollack, P. O. Brown, D. Botstein and M. van de Rijn, "Molecular Characterisation of Soft Tissue Tumours: a Gene Expression Study," Lancet 359 (9314), pp. 1301–1307 (April 2002); doi: 10.1016/S0140-6736(02)08270-3.
    Commentary: L. Y. Dirix and A. T. van Oosterom, "Gene-Expression Profiling to Classify Soft-Tissue Sarcomas," Lancet 359 (9314), pp. 1263–1264 (April 2002).
  18. O. Alter, P. O. Brown and D. Botstein, "Singular Value Decomposition for Genome-Wide Expression Data Processing and Modeling," Proceedings of the National Academy of Sciences (PNAS) USA 97 (18), pp. 10101–10106 (August 2000); doi: 10.1073/pnas.97.18.10101.
    Feature: National Research Council, Mathematics and 21st Century Biology. Washington, DC: National Academies Press (July 2005), 149 pp.
    Mention: 7th most cited Proceedings of the National Academy of Sciences (PNAS) USA paper of the year 2000 and 45th most cited PNAS paper of all time, Google Scholar (February 11, 2024).

Commentaries

  1. O. Alter, "Discovery of Principles of Nature from Mathematical Modeling of DNA Microarray Data," Proceedings of the National Academy of Sciences (PNAS) USA 103 (44), pp. 16063–16064 (October 2006); doi: 10.1073/pnas.0607650103.

Book Chapters

  1. O. Alter, "Genomic Signal Processing: From Matrix Algebra to Genetic Networks." In: M. J. Korenberg, editor, Microarray Data Analysis: Methods and Applications. Berlin, Germany: Springer Nature, Methods in Molecular Biology (MIMB), vol. 377, pp. 17–59 (May 2007); doi: 10.1007/978-1-59745-390-5_2.
  2. O. Alter, P. O. Brown and D. Botstein, "Processing and Modeling Genome-Wide Expression Data Using Singular Value Decomposition." In: M. L. Bittner, Y. Chen, A. N. Dorsel and E. R. Dougherty, editors, Microarrays: Optical Technologies and Informatics. Bellingham, WA: International Society for Optics and Photonics (SPIE), vol. 4266, pp. 171–186 (January 21, 2001); doi: 10.1117/12.427986.

Technical Reports

  1. S. P. Ponnapalli, P. Miron, K. L. S. Miskimen, K. A. Waite, N. Sosonkina, S. E. Coppens, A. C. Bryan, E. P. Kiernan, H. Yang, J. Bowen, G. A. Nakouzi, J. S. Barnholtz-Sloan, A. E. Sloan, T. R. Hodges and O. Alter, "AI/ML-Derived Whole-Genome Predictor Prospectively and Clinically Predicts Survival and Response to Treatment in Brain Cancer," Supercomputing 2023 (SC23) 9th National Cancer Institute (NCI) Computational Approaches for Cancer Workshop (CAFCW) (Denver, CO, November 12–17, 2023).4,5  New York, NY: Association for Computing Machinery (ACM) (November 2023); doi: 10.1145/3624062.3624078.
  2. S. P. Ponnapalli, P. Miron, K. L. S. Miskimen, K. A. Waite, N. Sosonkina, S. E. Coppens, A. C. Bryan, E. P. Kiernan, H. Yang, J. Bowen, G. A. Nakouzi, J. S. Barnholtz-Sloan, A. E. Sloan, T. R. Hodges and O. Alter, "Prospective and Clinical Prediction in a Retrospective Trial That Experimentally Validated an AI/ML-Derived Whole-Genome Predictor as the Most Accurate and Precise Predictor of Survival and Response to Treatment in Glioblastoma," American Association for Cancer Research (AACR) Special Conference in Cancer Research: Brain Cancer (Minneapolis, MN, October 1922, 2023).
  3. O. Alter and S. P. Ponnapalli, "Mathematical Discovery and Computational Validation of Two Orthogonal Mechanistically-Driven Whole-Genome Genotype–Survival Phenotype Relationships in Pediatric Neuroblastoma Nerve Cancer," Supercomputing 2022 (SC22) 8th National Cancer Institute (NCI) Computational Approaches for Cancer Workshop (CAFCW) (Dallas, TX, November 13–18, 2022).6,7
  4. K. A. Aiello, S. P. Ponnapalli and O. Alter, "Mathematically Universal and Biologically Consistent Astrocytoma Genotype Encodes for Transformation and Predicts Survival Phenotype," 2018 American Association for Cancer Research (AACR) Annual Meeting (Chicago, IL, April 14–18, 2018). Philadelphia, PA: AACR (July 2018); doi: 10.1158/1538-7445.AM2018-4262.
  5. K. A. Aiello, C. A. Maughan, T. E. Schomay, S. P. Ponnapalli, H. A. Hanson and O. Alter, "Patterns of DNA Copy-Number Alterations Revealed by the GSVD and Tensor GSVD Encode for Cell Transformation and Predict Survival and Response to Platinum in Adenocarcinomas," 2018 American Association for Cancer Research (AACR) Annual Meeting (Chicago, IL, April 14–18, 2018). Philadelphia, PA: AACR (July 2018); doi: 10.1158/1538-7445.AM2018-4267.
  6. O. Alter, "DNA Copy-Number Alterations in Primary Ovarian Serous Cystadenocarcinoma Encoding for Cell Transformation and Predicting Survival and Response to Platinum Therapy Throughout the Course of the Disease," American Association for Cancer Research (AACR) Special Conference on Advances in Ovarian Cancer Research: Exploiting Vulnerabilities (Orlando, FL, October 17–20, 2015). Philadelphia, PA: AACR (January 2016); doi: 10.1158/1557-3265.OVCA15-A60.
  7. C. H. Lee and O. Alter, "Known and Novel Copy-Number Alterations in GBM and Their Patterns of Co-Occurrence are Revealed by GSVD Comparison of Array CGH Data from Patient-Matched Normal and Tumor TCGA Samples," American Society of Human Genetics (ASHG) 60th Annual Meeting(Washington, DC, November 2–6, 2010).8,9
  8. J. A. Drake and O. Alter, "Singular Value Decomposition Uncovers Possible Modes for Evolution to Shape the Distributions of mRNA Lengths of Subsets of Genes," Rao Conference at the Interface between Statistics and the Sciences (Hyderabad, India, December 30, 2009 – January 2, 2010), Rao Best Poster Prize.10
  9. S. P. Ponnapalli, G. H. Golub and O. Alter, "A Novel Higher-Order Generalized Singular Value Decomposition for Comparative Analysis of Multiple Genome-Scale Datasets," Stanford University and Yahoo! Research Workshop on Algorithms for Modern Massive Datasets (MMDS) (Stanford, CA, June 21–24, 2006).11,12
  10. O. Alter, G. H. Golub, P. O. Brown and D. Botstein, "Novel Genome-Scale Correlation between DNA Replication and RNA Transcription During the Cell Cycle in Yeast is Predicted by Data-Driven Models." In: M. P. Deutscher, S. Black, P. E. Boehmer, G. D'Urso, T. Fletcher, F. Huijing, A. Marshall, B. Pulverer, B. Renault, J. D. Rosenblatt, J. M. Slingerland and W. J. Whelan, editors, Miami Nature Biotechnology Winter Symposium: Cell Cycle, Chromosomes and Cancer. Miami Beach, FL: University of Miami School of Medicine, vol. 15 (January 31 – February 4, 2004).13
  11. O. Alter, P. O. Brown and D. Botstein, "Singular Value Decomposition for Gene Expression Data Processing and Modeling," After the Genome V (Jackson Hole, WY, October 6–10, 1999). Washington, DC: U.S. Department of Energy (DOE) Office of Science (October 1999).14,15

Patents

  1. O. Alter, "Genetic Alterations in Glioblastoma," European Patent EP 2773777 A4 (Issued May 2020).
  2. O. Alter, "Genetic Alterations in Glioma," United States Patent US 10202643 B2 (Issued February 2019).
  3. O. Alter, "Advanced Tensor Decompositions for Computational Assessment and Prediction from Data," United States Nationalized Patent Cooperation Treaty (PCT) US 20180301223 A1 (Filed April 2016).
  4. O. Alter, "Genetic Alterations in Ovarian Cancer," United States Nationalized PCT US 20180122507 A1(Filed April 2016).
  5. O. Alter, "Genomic Tensor Analysis for Medical Assessment and Prediction," United States Nationalized PCT US 20140249762 A1 (Priority filed September 2012).
  6. O. Alter, "Genomic Tensor Analysis for Medical Assessment and Prediction," European Nationalized PCT EP 2754077 A4 (Filed September 2012).

Copyrighted Software

  1. © S. P. Ponnapalli and O. Alter 2020, "Retrospective Clinical Trial Experimentally Validates Glioblastoma Genome-Wide Pattern of DNA Copy-Number Alterations Predictor of Survival;" https://alterlab.org/GBM_retrospective_clinical_trial/.
  2. © M. W. Bradley, S. P. Ponnapalli, H. A. Hanson and O. Alter 2019, "GSVD- and Tensor GSVD-Uncovered Patterns of DNA Copy-Number Alterations Predict Adenocarcinomas Survival in General and in Response to Platinum;" https://alterlab.org/adenocarcinomas_genotype-phenotype/.
  3. © K. A. Aiello, S. P. Ponnapalli and O. Alter 2018, "Mathematically Universal and Biologically Consistent Astrocytoma Genotype Encodes for Transformation and Predicts Survival Phenotype;" https://alterlab.org/astrocytoma_genotype-phenotype/.
  4. © K. A. Aiello and O. Alter 2016, "Platform-Independent Genome-Wide Pattern of DNA Copy-Number Alterations Predicting Astrocytoma Survival and Response to Treatment Revealed by the GSVD Formulated as a Comparative Spectral Decomposition;" https://alterlab.org/astrocytoma_prognosis/.
  5. © P. Sankaranarayanan, T. E. Schomay, K. A. Aiello and O. Alter 2015, "Tensor GSVD of Patient- and Platform-Matched Tumor and Normal DNA Copy-Number Profiles Uncovers Chromosome Arm-Wide Patterns of Tumor-Exclusive Platform-Consistent Alterations Encoding for Cell Transformation and Predicting Ovarian Cancer Survival;" https://alterlab.org/OV_prognosis/.
  6. © N. M. Bertagnolli, J. A. Drake and O. Alter 2013, "SVD Identifies Transcript Length Distribution Functions from DNA Microarray Data and Reveals Evolutionary Forces Globally Affecting GBM Metabolism;" https://alterlab.org/GBM_metabolism/.
  7. © B. O. Alpert and O. Alter 2012, "GSVD Comparison of Patient-Matched Normal and Tumor aCGH Profiles Reveals Global Copy-Number Alterations Predicting Glioblastoma Multiforme Survival;" https://alterlab.org/GBM_prognosis/.
  8. © S. P. Ponnapalli and O. Alter 2011, "A Higher-Order Generalized Singular Value Decomposition for Comparison of Global mRNA Expression from Multiple Organisms;" https://alterlab.org/HO_GSVD/.
  9. © A. M. Gross and O. Alter 2011, "Tensor Decomposition Reveals Concurrent Evolutionary Convergences and Divergences and Correlations with Structural Motifs in Ribosomal RNA;" https://alterlab.org/rRNA/.
  10. ©  O. Alter 2009, "Global Effects of DNA Replication and DNA Replication Origin Activity on Eukaryotic Gene Expression;" https://alterlab.org/verification_of_prediction/.
  11. © O. Alter 2007, "A Tensor Higher-Order Singular Value Decomposition for Integrative Analysis of DNA Microarray Data from Different Studies;" https://alterlab.org/HOSVD/.
  12. © O. Alter 2006, "Singular Value Decomposition of Genome-Scale mRNA Lengths Distribution Reveals Asymmetry in RNA Gel Electrophoresis Band Broadening;" https://alterlab.org/harmonic_oscillator/.
  13. © O. Alter 2005, "Reconstructing the Pathways of a Cellular System from Genome-Scale Signals by Using Matrix and Tensor Computations;" https://alterlab.org/network_decomposition/.
  14. © O. Alter 2004, "Integrative Analysis of Genome-Scale Data by Using Pseudoinverse Projection Predicts Novel Correlation between DNA Replication and RNA Transcription;" https://alterlab.org/pseudoinverse/.
  15. © O. Alter 2003, "Generalized Singular Value Decomposition for Comparative Analysis of Genome-Scale Expression Datasets of Two Different Organisms;" https://alterlab.org/GSVD/.
  16. © O. Alter 2001, "Processing and Modeling Genome-Wide Expression Data Using Singular Value Decomposition;" https://alterlab.org/SVD/.
  17. © O. Alter 2000, "Singular Value Decomposition for Genome-Wide Expression Data Processing and Modeling;" https://alterlab.org/singular_value_decomposition/.

Invited International Webinars since 2013

O. Alter, "Multi-Tensor Decompositions for Personalized Cancer Diagnostics, Prognostics, and Therapeutics"

  1. Amazon Web Services (AWS) Education Research Webinar (January 30, 2020), hosted by M. L. Collinson;
    Slides.

Plenary and Keynote Lectures and Invited Talks and Tutorials at International Meetings mostly since 2013

O. Alter, "Solving Cancer with Data: Mathematical Discovery and Computational and Experimental Validation of Whole-Genome Predictors of Survival and Response to Treatment in Cancer"

  1. National Cancer Institute (NCI) Joint Meeting of the Cancer Systems Biology Consortium (CSBC) and the Physical Sciences in Oncology Network (PS-ON) (Bethesda, MD, November 6–9, 2023).
  2. International High-Performance Computing (HPC) Summer School 2023 on HPC Challenges in Computational Sciences (Atlanta, GA, July 9–14, 2023).
  3. 3rd Gordon Research Conference on the Physics of Cancer (Galveston, TX, February 5–10, 2023).

O. Alter, "Multi-Tensor Decompositions for Personalized Cancer Medicine"

  1. 2022 Society for Industrial and Applied Mathematics (SIAM) Conference on Mathematics of Data Science (MDS22) (San Diego, CA, September 26–30, 2022).
  2. HPC Summer School 2022 on HPC Challenges in Computational Sciences (Athens, Greece, June 19–24, 2022).
  3. 24th International Linear Algebra Society (ILAS) Meeting (Galway, Ireland, June 19–24, 2022).

O. Alter, "Comparative Spectral Decompositions for Personalized Cancer Diagnostics, Prognostics, and Therapeutics"

  1. 26th Society for Neuro-Oncology (SNO) Annual Meeting (Boston, MA, November 18–21, 2021);
    Slides.

  1. 2021 SIAM Virtual Conference on Applied Algebraic Geometry (August 16–20, 2021).
  2. International HPC Virtual Summer School 2021 on HPC Challenges in Computational Sciences (July 18–30, 2021).
  3. Decade of the PS-ON at the NCI Virtual Symposium (September 21–23, 2020);
    Slides.

  1. 2020 American Association for Cancer Research (AACR) Virtual Annual Meeting II (June 22–24, 2020);
    Slides.

  1. NCI Physical Sciences in Oncology Symposium (Minneapolis, MN, September 18–20, 2019).

  1. Los Alamos National Laboratory, Sandia National Laboratories, NSF, and University of California San Diego Workshop on Artificial Intelligence and Tensor Factorizations for Physical, Chemical, and Biological Systems (Santa Fe, NM, September 17–20, 2019).
  2. International Congress on Industrial and Applied Mathematics (ICIAM) 2019 (Valencia, Spain, July 15–19, 2019).
  3. 2018 Biomedical Engineering Society (BMES) Annual Meeting (Atlanta, GA, October 27–20, 2018).
  4. NCI Joint Meeting of the CSBC and the PS-ON (Bethesda, MD, September 25–28, 2018).
  5. European Association for Signal Processing (EURASIP) Summer School on Tensors in Medicine (Leuven, Belgium, August 27–31, 2018).
  6. 2018 SIAM Annual Meeting (Portland, OR, July 9–13, 2018).
  7. 14th International Conference on Latent Variable Analysis and Signal Separation (LVA ICA 2018) (Guildford, United Kingdom, July 2–6, 2018).
  8. 9th Multidisciplinary Conference on Three-Way Methods in Chemistry and Psychology (TRICAP) (Angel Fire, NM, June 10–15, 2018).
  9. 3rd Nordic Institute for Theoretical Physics (NORDITA) Meeting on Quantitative Perspectives on Cancer (Stockholm, Sweden, May 28 – June 1, 2018).
  10. 2018 SIAM Conference on Applied Linear Algebra (SIAM-ALA18) (Hong Kong, China, May 4–8, 2018).
  11. 2017 SIAM Conference on Applied Algebraic Geometry (Atlanta, GA, July 31 – August 4, 2017).
  12. International HPC Summer School 2017 on HPC Challenges in Computational Sciences (Boulder, CO, June 25–30, 2017).
  13. 1st Gordon Research Conference on the Physics of Cancer (Galveston, TX, February 5–10, 2017).
  14. Australian Mathematical Sciences Institute (AMSI) BioInfoSummer 2016 (Adelaide, SA, Australia, November 28 – December 2, 2016).
  15. NCI Joint Meeting of the CSBC and the PS-ON (Rockville, MD, August 29–31, 2016).
  16. 20th ILAS Meeting (Leuven, Belgium, July 11–15, 2016).
  17. 2016 SIAM Annual Meeting (Boston, MA, July 11–14, 2016).
  18. International HPC Summer School 2016 on HPC Challenges in Computational Sciences (Ljubljana, Slovenia, June 26 – July 1, 2016).
  19. NCI Physical Sciences in Oncology Symposium (Rockville, MD, February 2–3, 2016).
  20. 2016 Tensor Decompositions and Applications (TDA) Workshop (Leuven, Belgium, January 18–22, 2016).
  21. 2015 Joint Statistical Meetings (JSM) (Seattle, WA, August 8–13, 2015).
  22. International HPC Summer School 2015 on HPC Challenges in Computational Sciences (Toronto, Canada, June 21–26, 2015).
  23. Joint Applied Mathematics, Modeling and Computational Science and Canadian Applied and Industrial Mathematics Society (AMMCS-CAIMS) Congress (Waterloo, Canada, June 7–12, 2015).
  24. 8th Multidisciplinary Conference on Three-Way Methods in Chemistry and Psychology (TRICAP) (Zoldo Alto, Italy, May 31 – June 5, 2015).

O. Alter, "Discovery of Principles of Nature from Matrix and Tensor Modeling of Large-Scale Molecular Biological Data"

  1. 48th Annual Asilomar Conference on Signals, Systems, and Computers (Pacific Grove, CA, November 2–5, 2014).
  2. 5th Association for Computing Machinery (ACM) Conference on Bioinformatics, Computational Biology and Health Informatics (ACM-BCB) (Newport Beach, CA, September 20–23, 2014).
  3. American Association of Physicists in Medicine (AAPM) Science Council Session Winner (SCSW) Lecture Award (Austin, TX, July 20–24, 2014).
  4. 2014 SIAM Annual Meeting (Chicago, IL, July 7–11, 2014).
  5. International HPC Summer School 2014 on HPC Challenges in Computational Sciences (Budapest, Hungary, June 1–6, 2014).
  6. 2013 BMES Annual Meeting (Seattle, WA, September 25–28, 2013).

O. Alter, "Uncovering the Molecular Biological Principles That Govern Cellular Systems with Blind Source Separation Models"

  1. 6th International Conference on Independent Component Analysis and Blind Source Separation (ICA 2006) (Charleston, SC, March 5–8, 2006).

Invited Presentations at Other Institutions since 2013

O. Alter, "Multi-Tensor Decompositions for Personalized Cancer Medicine"

  1. Tel Aviv University Department of Mathematics Seminar (Tel Aviv, Israel, April 5, 2022), hosted by H. Avron and D. Batenkov.
  2. University of Southern California Ellison Institute for Transformative Medicine (EITM) Seminar (Santa Monica, CA, March 10, 2022), hosted by D. B. Agus and A. D. Barker.

O. Alter, "Multi-Tensor Decompositions for Personalized Cancer Diagnostics, Prognostics, and Therapeutics"

  1. Moffitt Cancer Center Integrated Mathematical Oncology Virtual Seminar (June 24, 2021), hosted by A. R. A. Anderson and D. G. Basanta.
  2. University of Chicago Computational and Applied Mathematics Virtual Colloquium (February 11, 2021), hosted by L.-H. Lim and D. Sanz-Alonso.
  3. Linear Algebra and Optimization Seminar, Stanford University Institute for Computational and Mathematical Engineering (ICME) (Stanford, CA, January 16, 2020), hosted by M. A. Saunders;
    Slides.

  1. Northwestern University Chemistry of Life Processes Institute Seminar (Evanston, IL, June 5, 2019), hosted by T. V. O'Halloran.
  2. Beijing Genomics Institute (BGI) and China National GeneBank Seminar (Shenzhen, China, May 9, 2018), hosted by K. Wu.
  3. Georgia Institute of Technology Computational Science and Engineering Seminar (Atlanta, GA, March 29, 2018), hosted by S. Aluru.
  4. Michigan State University Science at the Edge Seminar (East Lansing, MI, October 13, 2017), hosted by C. Piermarocchi.
  5. University of Oxford Mathematical Institute Seminar on the Mathematics of Data Science (Oxford, United Kingdom, July 3, 2017), hosted by U. L. Tillmann.
  6. Boston University Systems Biology Seminar (Boston, MA, March 16, 2017), hosted by S. Kasif and E. D. Kolaczyk.
  7. University of Pennsylvania Physical Sciences in Oncology Center Seminar (Philadelphia, PA, March 13, 2017), hosted by D. E. Discher.
  8. Jošef Stefan Institute Colloquium (Ljubljana, Slovenia, June 29, 2016), hosted by P. Ziherl and A. Studen.

O. Alter, "Discovery of Principles of Nature from Matrix and Tensor Modeling of Large-Scale Molecular Biological Data"

  1. Genentech, Inc. Research Seminar (South San Francisco, CA, November 6, 2014), hosted by M. J. Brauer.
  2. Bloomberg L.P. Distinguished Speaker Lectures (New York, NY, May 5, 2014), hosted by S. P. Ponnapalli;
    Slides.
  3. University of Washington eScience Seminar (Seattle, WA, October 1, 2013), hosted by C. R. Aragon.


Books

  1. O. Alter and Y. Yamamoto, Quantum Measurement of a Single System. New York, NY: Wiley (May 2001), 136 pp.; doi: 10.1002/9783527617128.1
    Citation: K. S. Thorne et al., "Noise in Gravitational-Wave Detectors and Other Classical-Force Measurements is Not Influenced by Test-Mass Quantization," Physical Review D 67 (8), article 082001 (April 2003).



    Ph.D. Dissertation Slides.2,3,4

Journal Papers

  1. O. Alter and Y. Yamamoto, "Fundamental Quantum Limit to External Force Detection via Monitoring a Single Harmonic Oscillator or Free Mass," Physics Letters A 263 (4–6), pp. 226–231 (December 1999); doi: 10.1016/S0375-9601(99)00743-4.5
    Citation: K. S. Thorne et al., "Noise in Gravitational-Wave Detectors and Other Classical-Force Measurements is Not Influenced by Test-Mass Quantization," Physical Review D 67 (8), article 082001 (April 2003).
  2. O. Alter and Y. Yamamoto, "Impossibility of Determining the Unknown Wavefunction of a Single Quantum System: Quantum Non-Demolition Measurements, Measurements without Entanglement and Adiabatic Measurements," Fortschritte der Physik 46 (6–8), pp. 817–827 (November 1998); doi: 10.1002/(SICI)1521-3978(199811)46:6/8<817::AID-PROP817>3.0.CO;2-Y.6
  3. O. Alter and Y. Yamamoto, "Reply to the Comment on 'Protective Measurement of the Wave Function of a Single Squeezed Harmonic-Oscillator State,' " Physical Review A 56 (1), pp. 1057–1059 (July 1997); doi: 10.1103/PhysRevA.56.1057.7
  4. O. Alter and Y. Yamamoto, "Quantum Zeno Effect and the Impossibility of Determining the Quantum State of a Single System," Physical Review A Rapid Communications 55 (4), pp. R2499–R2502 (April 1997); doi: 10.1103/PhysRevA.55.R2499.8
  5. O. Alter and Y. Yamamoto, "Protective Measurement of the Wave Function of a Single Squeezed Harmonic-Oscillator State," Physical Review A Rapid Communications 53 (5), R2911–R2914 (May 1996); doi: 10.1103/PhysRevA.53.R2911.9
  6. O. Alter and Y. Yamamoto, "Inhibition of the Measurement of the Wave Function of a Single Quantum System in Repeated Weak Quantum Nondemolition Measurements," Physical Review Letters 74 (21), pp. 4106–4109 (May 1995); doi: 10.1103/PhysRevLett.74.4106.10

Book Chapters

  1. O. Alter and Y. Yamamoto, "Inhibition of the Measurement of the Wavefunction of a Single Quantum System and the Projection Postulate." In: M. Namiki, I. Ohba, K. Maeda and Y. Aizawa, editors, Quantum Physics, Chaos Theory and Cosmology. New York, NY: American Institute of Physics, pp. 151–172 (October 1996).11
  2. O. Alter and Y. Yamamoto, "The Quantum Zeno Effect of a Single System is Equivalent to the Indetermination of the Quantum State of a Single System." In: F. De Martini, G. Denardo and Y. Shih, editors, Quantum Interferometry. New York, NY: Wiley, pp. 539–544 (October 1996).12
  3. O. Alter and Y. Yamamoto, "The Unknown Wavefunction of a Single System Cannot Be Inferred Using a Series of Quantum Measurements." In: K. Fujikawa and Y. A. Ono, editors, Quantum Coherence and Decoherence. Amsterdam, Netherlands: Elsevier Science, pp. 31–34 (May 1996).13
  4. O. Alter and Y. Yamamoto, "Can We Measure the Wave Function of a Single Wave Packet of Light?: Brownian Motion and Continuous Wave Packet Collapse in Repeated Weak Quantum Non-Demolition Measurements." In: D. M. Greenberger and A. Zeilinger, editors, Fundamental Problems in Quantum Theory. New York, NY: New York Academy of Sciences, vol. 755, pp. 103–109 (January 1995); doi: 10.1111/j.1749-6632.1995.tb38960.x.14

Plenary and Keynote Lectures and Invited Talks and Tutorials at International Meetings mostly since 2013

O. Alter, "Impossibility of Determining the Quantum Wavefunction of a Single System and Fundamental Limit to External Force Detection"

  1. 5th International Conference on Squeezed States and Uncertainty Relations (FICSSUR 1997) (Balatonfüred, Hungary, May 27–31, 1997).