Mark A. LaBarge
Beckman Research Institute
106 Papers
360 Citations
Mark A. LaBarge is an academic researcher from Beckman Research Institute. The author has contributed to research in topics: Stem cell & Biology. The author has an hindex of 28, co-authored 85 publications. Previous affiliations of Mark A. LaBarge include Stanford University & University of Bergen.
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Papers
Extracellular Vesicle and Particle Biomarkers Define Multiple Human Cancers
Ayuko Hoshino,Ayuko Hoshino,Han Sang Kim,Han Sang Kim,Linda Bojmar,Linda Bojmar,Linda Bojmar,Kofi Ennu Gyan,Michele Cioffi,Jonathan M. Hernandez,Jonathan M. Hernandez,Jonathan M. Hernandez,Constantinos P. Zambirinis,Constantinos P. Zambirinis,Gonçalo Rodrigues,Gonçalo Rodrigues,Henrik Molina,Søren Heissel,Milica Tesic Mark,Loïc Steiner,Loïc Steiner,Alberto Benito-Martin,Serena Lucotti,Angela Di Giannatale,Katharine Offer,Miho Nakajima,Caitlin Williams,Laura Nogués,Laura Nogués,Fanny A. Pelissier Vatter,Ayako Hashimoto,Ayako Hashimoto,Ayako Hashimoto,Alexander E. Davies,Daniela Freitas,Daniela Freitas,Candia M. Kenific,Yonathan Ararso,Weston Buehring,Pernille Lauritzen,Yusuke Ogitani,Kei Sugiura,Kei Sugiura,Naoko Takahashi,Maša Alečković,Kayleen A. Bailey,Joshua S. Jolissant,Joshua S. Jolissant,Huajuan Wang,Ashton Harris,L. Miles Schaeffer,Guillermo García-Santos,Guillermo García-Santos,Zoe Posner,Vinod P. Balachandran,Yasmin Khakoo,G. Praveen Raju,Avigdor Scherz,Irit Sagi,Ruth Scherz-Shouval,Yosef Yarden,Moshe Oren,Mahathi Malladi,Mary Petriccione,Kevin C. De Braganca,Maria Donzelli,Cheryl Fischer,Stephanie Vitolano,Geraldine P. Wright,Lee Ganshaw,Mariel Marrano,Amina Ahmed,Joe DeStefano,Enrico Danzer,Michael H.A. Roehrl,Norman J. Lacayo,Theresa C. Vincent,Theresa C. Vincent,Martin R. Weiser,Mary S. Brady,Paul A. Meyers,Leonard H. Wexler,Srikanth R. Ambati,Alexander J. Chou,Emily K. Slotkin,Shakeel Modak,Stephen S. Roberts,Ellen M. Basu,Daniel Diolaiti,Benjamin A. Krantz,Benjamin A. Krantz,Fatima Cardoso,Amber L. Simpson,Michael F. Berger,Charles M. Rudin,Diane M. Simeone,Maneesh Jain,Cyrus M. Ghajar,Surinder K. Batra,Ben Z. Stanger,Jack D. Bui,Kristy A. Brown,Vinagolu K. Rajasekhar,John H. Healey,Maria de Sousa,Maria de Sousa,Kim Kramer,Sujit Sheth,Jeanine Baisch,Virginia Pascual,Todd E. Heaton,Michael P. La Quaglia,David J. Pisapia,Robert E. Schwartz,Haiying Zhang,Yuan Liu,Arti Shukla,Laurence Blavier,Yves A. DeClerck,Mark A. LaBarge,Mina J. Bissell,Thomas C. Caffrey,Paul M. Grandgenett,Michael A. Hollingsworth,Jacqueline Bromberg,Jacqueline Bromberg,Bruno Costa-Silva,Héctor Peinado,Yibin Kang,Benjamin A. Garcia,Eileen M. O'Reilly,David P. Kelsen,Tanya M. Trippett,David R. Jones,Irina Matei,William R. Jarnagin,David Lyden +136 more
TL;DR: EVP proteins can serve as reliable biomarkers for cancer detection and determining cancer type, and a panel of tumor-type-specific EVP proteins in TEs and plasma are defined, which can classify tumors of unknown primary origin.
936
Biological Progression from Adult Bone Marrow to Mononucleate Muscle Stem Cell to Multinucleate Muscle Fiber in Response to Injury
Mark A. LaBarge,Helen M. Blau +1 more
TL;DR: The results suggest that two temporally distinct injury-related signals first induce BMDC to occupy the muscle stem cell niche and then to help regenerate mature muscle fibers, due to developmental plasticity in response to environmental cues.
862
The Library of Integrated Network-Based Cellular Signatures NIH Program: System-Level Cataloging of Human Cells Response to Perturbations
Alexandra B Keenan,Sherry L. Jenkins,Kathleen M. Jagodnik,Simon Koplev,Edward He,Denis Torre,Zichen Wang,Anders B. Dohlman,Moshe C. Silverstein,Alexander Lachmann,Maxim V. Kuleshov,Avi Ma'ayan,Vasileios Stathias,Raymond Terryn,Daniel J. Cooper,Michele Forlin,Amar Koleti,Dusica Vidovic,Caty Chung,Stephan C. Schürer,Jouzas Vasiliauskas,Marcin Pilarczyk,Behrouz Shamsaei,Mehdi Fazel,Yan Ren,Wen Niu,Nicholas A. Clark,Shana White,Naim Al Mahi,Lixia Zhang,Michal Kouril,John F. Reichard,Siva Sivaganesan,Mario Medvedovic,Jaroslaw Meller,Rick J. Koch,Marc R. Birtwistle,Ravi Iyengar,Eric A. Sobie,Evren U. Azeloglu,Julia A. Kaye,Jeannette Osterloh,Kelly Haston,Jaslin Kalra,Steve Finkbiener,Jonathan Z. Li,Pamela Milani,Miriam Adam,Renan Escalante-Chong,Karen Sachs,Alexander LeNail,Divya Ramamoorthy,Ernest Fraenkel,Gavin Daigle,Uzma Hussain,Alyssa Coye,Jeffrey D. Rothstein,Dhruv Sareen,Loren Ornelas,Maria G. Banuelos,Berhan Mandefro,Ritchie Ho,Clive N. Svendsen,Ryan G. Lim,Jennifer Stocksdale,Malcolm Casale,Terri G. Thompson,Jie Wu,Leslie M. Thompson,Victoria Dardov,Vidya Venkatraman,Andrea Matlock,Jennifer E. Van Eyk,Jacob D. Jaffe,Malvina Papanastasiou,Aravind Subramanian,Todd R. Golub,Sean D. Erickson,Mohammad Fallahi-Sichani,Marc Hafner,Nathanael S. Gray,Jia-Ren Lin,Caitlin E. Mills,Jeremy L. Muhlich,Mario Niepel,Caroline E. Shamu,Elizabeth H. Williams,David Wrobel,Peter K. Sorger,Laura M. Heiser,Joe W. Gray,James E. Korkola,Gordon B. Mills,Mark A. LaBarge,Mark A. LaBarge,Heidi S. Feiler,Mark A. Dane,Elmar Bucher,Michel Nederlof,Damir Sudar,Sean M. Gross,David Kilburn,Rebecca Smith,Kaylyn Devlin,Ron Margolis,Leslie Derr,Albert Lee,Ajay Pillai +107 more
TL;DR: The LINCS program focuses on cellular physiology shared among tissues and cell types relevant to an array of diseases, including cancer, heart disease, and neurodegenerative disorders.
400
Toso, a cell surface, specific regulator of Fas-induced apoptosis in T cells.
Yasumichi Hitoshi,James Lorens,Shinichi Kitada,Joan M. Fisher,Mark A. LaBarge,Huijun Z. Ring,Uta Francke,John C. Reed,Shigemi Kinoshita,Garry P. Nolan +9 more
TL;DR: Toso serves as a novel regulator of Fas-mediated apoptosis and may act as a regulator of cell fate in T cells and other hematopoietic lineages.
240
Programmed synthesis of three-dimensional tissues
Michael E. Todhunter,Noel Y. Jee,Alex J. Hughes,Maxwell C. Coyle,Alec E. Cerchiari,Justin Farlow,James C. Garbe,James C. Garbe,Mark A. LaBarge,Tejal A. Desai,Zev J. Gartner +10 more
TL;DR: DNA-programmed assembly of cells (DPAC), a method to reconstitute the multicellular organization of organoid-like tissues having programmed size, shape, composition and spatial heterogeneity, is described and used to explore the impact of ECM composition, heterotypic cell-cell interactions and patterns of signaling heterogeneity on collective cell behaviors.