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Your search keyword '"Horns, Felix"' showing total 42 results
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42 results on '"Horns, Felix"'

1. Lineage tracing reveals the phylodynamics, plasticity, and paths of tumor evolution.

Author

Yang, Dian, Jones, Matthew G, Naranjo, Santiago, Rideout, William M, 3rd, Min, Kyung Hoi Joseph, Ho, Raymond, Wu, Wei, Replogle, Joseph M, Page, Jennifer L, Quinn, Jeffrey J, Horns, Felix, Qiu, Xiaojie, Chen, Michael Z, Freed-Pastor, William A, McGinnis, Christopher S, Patterson, David M, Gartner, Zev J, Chow, Eric D, Bivona, Trever G, Chan, Michelle M, Yosef, Nir, Jacks, Tyler, and Weissman, Jonathan S

Subjects
Animals, Genes, ras, Mice, Neoplasms: genetics, Phylogeny, Whole Exome Sequencing
Abstract

Tumor evolution is driven by the progressive acquisition of genetic and epigenetic alterations that enable uncontrolled growth and expansion to neighboring and distal tissues. The study of phylogenetic relationships between cancer cells provides key insights into these processes. Here, we introduced an evolving lineage-tracing system with a single-cell RNA-seq readout into a mouse model of Kras;Trp53(KP)-driven lung adenocarcinoma and tracked tumor evolution from single-transformed cells to metastatic tumors at unprecedented resolution. We found that the loss of the initial, stable alveolar-type2-like state was accompanied by a transient increase in plasticity. This was followed by the adoption of distinct transcriptional programs that enable rapid expansion and, ultimately, clonal sweep of stable subclones capable of metastasizing. Finally, tumors develop through stereotypical evolutionary trajectories, and perturbing additional tumor suppressors accelerates progression by creating novel trajectories. Our study elucidates the hierarchical nature of tumor evolution and, more broadly, enables in-depth studies of tumor progression.

Published
2022

2. Fly Cell Atlas: A single-nucleus transcriptomic atlas of the adult fruit fly.

Author

Li, Hongjie, Janssens, Jasper, De Waegeneer, Maxime, Kolluru, Sai Saroja, Davie, Kristofer, Gardeux, Vincent, Saelens, Wouter, David, Fabrice PA, Brbić, Maria, Spanier, Katina, Leskovec, Jure, McLaughlin, Colleen N, Xie, Qijing, Jones, Robert C, Brueckner, Katja, Shim, Jiwon, Tattikota, Sudhir Gopal, Schnorrer, Frank, Rust, Katja, Nystul, Todd G, Carvalho-Santos, Zita, Ribeiro, Carlos, Pal, Soumitra, Mahadevaraju, Sharvani, Przytycka, Teresa M, Allen, Aaron M, Goodwin, Stephen F, Berry, Cameron W, Fuller, Margaret T, White-Cooper, Helen, Matunis, Erika L, DiNardo, Stephen, Galenza, Anthony, O'Brien, Lucy Erin, Dow, Julian AT, FCA Consortium§, Jasper, Heinrich, Oliver, Brian, Perrimon, Norbert, Deplancke, Bart, Quake, Stephen R, Luo, Liqun, Aerts, Stein, Agarwal, Devika, Ahmed-Braimah, Yasir, Arbeitman, Michelle, Ariss, Majd M, Augsburger, Jordan, Ayush, Kumar, Baker, Catherine C, Banisch, Torsten, Birker, Katja, Bodmer, Rolf, Bolival, Benjamin, Brantley, Susanna E, Brill, Julie A, Brown, Nora C, Buehner, Norene A, Cai, Xiaoyu Tracy, Cardoso-Figueiredo, Rita, Casares, Fernando, Chang, Amy, Clandinin, Thomas R, Crasta, Sheela, Desplan, Claude, Detweiler, Angela M, Dhakan, Darshan B, Donà, Erika, Engert, Stefanie, Floc'hlay, Swann, George, Nancy, González-Segarra, Amanda J, Groves, Andrew K, Gumbin, Samantha, Guo, Yanmeng, Harris, Devon E, Heifetz, Yael, Holtz, Stephen L, Horns, Felix, Hudry, Bruno, Hung, Ruei-Jiun, Jan, Yuh Nung, Jaszczak, Jacob S, Jefferis, Gregory SXE, Karkanias, Jim, Karr, Timothy L, Katheder, Nadja Sandra, Kezos, James, Kim, Anna A, Kim, Seung K, Kockel, Lutz, Konstantinides, Nikolaos, Kornberg, Thomas B, Krause, Henry M, Labott, Andrew Thomas, Laturney, Meghan, Lehmann, Ruth, Leinwand, Sarah, Li, Jiefu, and Li, Joshua Shing Shun

Subjects
FCA Consortium§, Cell Nucleus, Animals, Drosophila melanogaster, Drosophila Proteins, Transcription Factors, Gene Expression Regulation, Sex Characteristics, Genes, Insect, Databases, Genetic, Female, Male, Gene Regulatory Networks, Single-Cell Analysis, Transcriptome, RNA-Seq, Biotechnology, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, General Science & Technology
Abstract

For more than 100 years, the fruit fly Drosophila melanogaster has been one of the most studied model organisms. Here, we present a single-cell atlas of the adult fly, Tabula Drosophilae, that includes 580,000 nuclei from 15 individually dissected sexed tissues as well as the entire head and body, annotated to >250 distinct cell types. We provide an in-depth analysis of cell type-related gene signatures and transcription factor markers, as well as sexual dimorphism, across the whole animal. Analysis of common cell types between tissues, such as blood and muscle cells, reveals rare cell types and tissue-specific subtypes. This atlas provides a valuable resource for the Drosophila community and serves as a reference to study genetic perturbations and disease models at single-cell resolution.

Published
2022

7. Lineage tracing of human B cells reveals the in vivo landscape of human antibody class switching.

Author

Horns, Felix, Vollmers, Christopher, Croote, Derek, Mackey, Sally F, Swan, Gary E, Dekker, Cornelia L, Davis, Mark M, and Quake, Stephen R

Subjects
B-Lymphocytes, Humans, Immunologic Factors, Immunoglobulin Isotypes, Sequence Analysis, DNA, Immunoglobulin Class Switching, Somatic Hypermutation, Immunoglobulin, Recombination, Genetic, antibody, cell decisions, class switching, computational biology, human, immunology, repertoire, systems biology, Recombination, Genetic, Sequence Analysis, DNA, Somatic Hypermutation, Immunoglobulin, Biochemistry and Cell Biology
Abstract

Antibody class switching is a feature of the adaptive immune system which enables diversification of the effector properties of antibodies. Even though class switching is essential for mounting a protective response to pathogens, the in vivo patterns and lineage characteristics of antibody class switching have remained uncharacterized in living humans. Here we comprehensively measured the landscape of antibody class switching in human adult twins using antibody repertoire sequencing. The map identifies how antibodies of every class are created and delineates a two-tiered hierarchy of class switch pathways. Using somatic hypermutations as a molecular clock, we discovered that closely related B cells often switch to the same class, but lose coherence as somatic mutations accumulate. Such correlations between closely related cells exist when purified B cells class switch in vitro, suggesting that class switch recombination is directed toward specific isotypes by a cell-autonomous imprinted state.

Published
2016

9. Germline-encoded amino acid–binding motifs drive immunodominant public antibody responses

Author

Shrock, Ellen L., primary, Timms, Richard T., additional, Kula, Tomasz, additional, Mena, Elijah L., additional, West, Anthony P., additional, Guo, Rui, additional, Lee, I-Hsiu, additional, Cohen, Alexander A., additional, McKay, Lindsay G. A., additional, Bi, Caihong, additional, Leng, Yumei, additional, Fujimura, Eric, additional, Horns, Felix, additional, Li, Mamie, additional, Wesemann, Duane R., additional, Griffiths, Anthony, additional, Gewurz, Benjamin E., additional, Bjorkman, Pamela J., additional, and Elledge, Stephen J., additional

Published
2023
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14. Fate Bias and Transcriptional Memory of human B cells

Author

Swift, Michael, Horns, Felix, Quake, Stephen R., Swift, Michael, Horns, Felix, and Quake, Stephen R.

Abstract

Lineage tracking offers a direct approach to study cell fate determination. In this work we combined single cell transcriptomics and lineage tracing to better understand fate-choice in human B cells. Using antibody sequences to trace cell lineage during in vitro differentiation, we identified intrinsic proliferative and cell fate biases of B cell subtypes. Clonal analysis revealed that IgM memory B cells were more proliferative than any other B cell subtype, and that cells from the same clone had highly concordant fates. We found that transcriptional memory within clones varies across genes, with strongest persistence in genes related to cell fate determination. Similar persistent transcriptional programs were observed in human plasma cells from bone marrow, suggesting that these programs maintain long-term cell fate in vivo. These results show that cell-intrinsic fate bias influences human B cell differentiation and reveal molecular programs underpinning cell fate determination in B cells.

Published
2022

15. Lineage tracing reveals the phylodynamics, plasticity, and paths of tumor evolution

Author

Massachusetts Institute of Technology. Department of Biology, Yang, Dian, Jones, Matthew G, Naranjo, Santiago, Rideout, William M, Min, Kyung Hoi Joseph, Ho, Raymond, Wu, Wei, Replogle, Joseph M, Page, Jennifer L, Quinn, Jeffrey J, Horns, Felix, Qiu, Xiaojie, Chen, Michael Z, Freed-Pastor, William A, McGinnis, Christopher S, Patterson, David M, Gartner, Zev J, Chow, Eric D, Bivona, Trever G, Chan, Michelle M, Yosef, Nir, Jacks, Tyler, Weissman, Jonathan S, Massachusetts Institute of Technology. Department of Biology, Yang, Dian, Jones, Matthew G, Naranjo, Santiago, Rideout, William M, Min, Kyung Hoi Joseph, Ho, Raymond, Wu, Wei, Replogle, Joseph M, Page, Jennifer L, Quinn, Jeffrey J, Horns, Felix, Qiu, Xiaojie, Chen, Michael Z, Freed-Pastor, William A, McGinnis, Christopher S, Patterson, David M, Gartner, Zev J, Chow, Eric D, Bivona, Trever G, Chan, Michelle M, Yosef, Nir, Jacks, Tyler, and Weissman, Jonathan S

Abstract

Tumor evolution is driven by the progressive acquisition of genetic and epigenetic alterations that enable uncontrolled growth and expansion to neighboring and distal tissues. The study of phylogenetic relationships between cancer cells provides key insights into these processes. Here, we introduced an evolving lineage-tracing system with a single-cell RNA-seq readout into a mouse model of Kras;Trp53(KP)-driven lung adenocarcinoma and tracked tumor evolution from single-transformed cells to metastatic tumors at unprecedented resolution. We found that the loss of the initial, stable alveolar-type2-like state was accompanied by a transient increase in plasticity. This was followed by the adoption of distinct transcriptional programs that enable rapid expansion and, ultimately, clonal sweep of stable subclones capable of metastasizing. Finally, tumors develop through stereotypical evolutionary trajectories, and perturbing additional tumor suppressors accelerates progression by creating novel trajectories. Our study elucidates the hierarchical nature of tumor evolution and, more broadly, enables in-depth studies of tumor progression.

Published
2022

16. Lineage Recording Reveals the Phylodynamics, Plasticity and Paths of Tumor Evolution

Author

Yang, Dian, primary, Jones, Matthew G., additional, Naranjo, Santiago, additional, Rideout, William M., additional, Min, Kyung Hoi (Joseph), additional, Ho, Raymond, additional, Wu, Wei, additional, Replogle, Joseph M., additional, Page, Jennifer L., additional, Quinn, Jeffrey J., additional, Horns, Felix, additional, Qiu, Xiaojie, additional, Chen, Michael Z., additional, Freed-Pastor, William A., additional, McGinnis, Christopher S., additional, Patterson, David M., additional, Gartner, Zev J., additional, Chow, Eric D., additional, Bivona, Trever G., additional, Chan, Michelle M., additional, Yosef, Nir, additional, Jacks, Tyler, additional, and Weissman, Jonathan S., additional

Published
2021
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17. Lineage Recording Reveals the Phylodynamics, Plasticity and Paths of Tumor Evolution

Author

Yang, Dian, Jones, Matthew G., Naranjo, Santiago, Rideout, William M., III, Min, Kyung Hoi Joseph, Ho, Raymond, Wu, Wei, Replogle, Joseph M., Page, Jennifer L., Quinn, Jeffrey J., Horns, Felix, Qiu, Xiaojie, Chen, Michael Z., Freed-Pastor, William A., McGinnis, Christopher S., Patterson, David M., Gartner, Zev J., Chow, Eric D., Bivona, Trever G., Chan, Michelle M., Yosef, Nir, Jacks, Tyler, Weissman, Jonathan S., Yang, Dian, Jones, Matthew G., Naranjo, Santiago, Rideout, William M., III, Min, Kyung Hoi Joseph, Ho, Raymond, Wu, Wei, Replogle, Joseph M., Page, Jennifer L., Quinn, Jeffrey J., Horns, Felix, Qiu, Xiaojie, Chen, Michael Z., Freed-Pastor, William A., McGinnis, Christopher S., Patterson, David M., Gartner, Zev J., Chow, Eric D., Bivona, Trever G., Chan, Michelle M., Yosef, Nir, Jacks, Tyler, and Weissman, Jonathan S.

Abstract

Tumor evolution is driven by the progressive acquisition of genetic and epigenetic alterations that enable uncontrolled growth, expansion to neighboring and distal tissues, and therapeutic resistance. The study of phylogenetic relationships between cancer cells provides key insights into these processes. Here, we introduced an evolving lineage-tracing system with a single-cell RNA-seq readout into a mouse model of Kras;Trp53(KP)-driven lung adenocarcinoma which enabled us to track tumor evolution from single transformed cells to metastatic tumors at unprecedented resolution. We found that loss of the initial, stable alveolar-type2-like state was accompanied by transient increase in plasticity. This was followed by adoption of distinct fitness associated transcriptional programs which enable rapid expansion and ultimately clonal sweep of rare, stable subclones capable of metastasizing to distant sites. Finally, we showed that tumors develop through stereotypical evolutionary trajectories, and perturbing additional tumor suppressors accelerates tumor progression by creating novel evolutionary paths. Overall, our study elucidates the hierarchical nature of tumor evolution, and more broadly enables the in-depth study of tumor progression.

Published
2021

18. Single-cell transcriptomes of developing and adult olfactory receptor neurons in Drosophila

Author

McLaughlin, Colleen N, primary, Brbić, Maria, additional, Xie, Qijing, additional, Li, Tongchao, additional, Horns, Felix, additional, Kolluru, Sai Saroja, additional, Kebschull, Justus M, additional, Vacek, David, additional, Xie, Anthony, additional, Li, Jiefu, additional, Jones, Robert C, additional, Leskovec, Jure, additional, Quake, Stephen R, additional, Luo, Liqun, additional, and Li, Hongjie, additional

Published
2021
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19. Temporal evolution of single-cell transcriptomes of Drosophila olfactory projection neurons

Author

Xie, Qijing, primary, Brbic, Maria, additional, Horns, Felix, additional, Kolluru, Sai Saroja, additional, Jones, Robert C, additional, Li, Jiefu, additional, Reddy, Anay R, additional, Xie, Anthony, additional, Kohani, Sayeh, additional, Li, Zhuoran, additional, McLaughlin, Colleen N, additional, Li, Tongchao, additional, Xu, Chuanyun, additional, Vacek, David, additional, Luginbuhl, David J, additional, Leskovec, Jure, additional, Quake, Stephen R, additional, Luo, Liqun, additional, and Li, Hongjie, additional

Published
2021
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20. Author response: Single-cell transcriptomes of developing and adult olfactory receptor neurons in Drosophila

Author

McLaughlin, Colleen N, primary, Brbić, Maria, additional, Xie, Qijing, additional, Li, Tongchao, additional, Horns, Felix, additional, Kolluru, Sai Saroja, additional, Kebschull, Justus M, additional, Vacek, David, additional, Xie, Anthony, additional, Li, Jiefu, additional, Jones, Robert C, additional, Leskovec, Jure, additional, Quake, Stephen R, additional, Luo, Liqun, additional, and Li, Hongjie, additional

Published
2020
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21. Author response: Temporal evolution of single-cell transcriptomes of Drosophila olfactory projection neurons

Author

Xie, Qijing, primary, Brbic, Maria, additional, Horns, Felix, additional, Kolluru, Sai Saroja, additional, Jones, Robert C, additional, Li, Jiefu, additional, Reddy, Anay R, additional, Xie, Anthony, additional, Kohani, Sayeh, additional, Li, Zhuoran, additional, McLaughlin, Colleen N, additional, Li, Tongchao, additional, Xu, Chuanyun, additional, Vacek, David, additional, Luginbuhl, David J, additional, Leskovec, Jure, additional, Quake, Stephen R, additional, Luo, Liqun, additional, and Li, Hongjie, additional

Published
2020
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23. Single-cell transcriptomes of developing and adult olfactory receptor neurons inDrosophila

Author

McLaughlin, Colleen N., primary, Brbić, Maria, additional, Xie, Qijing, additional, Li, Tongchao, additional, Horns, Felix, additional, Kolluru, Sai Saroja, additional, Kebschull, Justus M., additional, Vacek, David, additional, Xie, Anthony, additional, Li, Jiefu, additional, Jones, Robert C., additional, Leskovec, Jure, additional, Quake, Steven R., additional, Luo, Liqun, additional, and Li, Hongjie, additional

Published
2020
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24. Temporal evolution of single-cell transcriptomes ofDrosophilaolfactory projection neurons

Author

Xie, Qijing, primary, Brbic, Maria, additional, Horns, Felix, additional, Kolluru, Sai Saroja, additional, Jones, Bob, additional, Li, Jiefu, additional, Reddy, Anay, additional, Xie, Anthony, additional, Kohani, Sayeh, additional, Li, Zhuoran, additional, McLaughlin, Colleen, additional, Li, Tongchao, additional, Xu, Chuanyun, additional, Vacek, David, additional, Luginbuhl, David J., additional, Leskovec, Jure, additional, Quake, Stephen R., additional, Luo, Liqun, additional, and Li, Hongjie, additional

Published
2020
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26. Single-Cell Transcriptomes Reveal Diverse Regulatory Strategies for Olfactory Receptor Expression and Axon Targeting

Author

Li, Hongjie, primary, Li, Tongchao, additional, Horns, Felix, additional, Li, Jiefu, additional, Xie, Qijing, additional, Xu, Chuanyun, additional, Wu, Bing, additional, Kebschull, Justus M., additional, McLaughlin, Colleen N., additional, Kolluru, Sai Saroja, additional, Jones, Robert C., additional, Vacek, David, additional, Xie, Anthony, additional, Luginbuhl, David J., additional, Quake, Stephen R., additional, and Luo, Liqun, additional

Published
2020
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30. Single-Cell Transcriptomes Reveal Diverse Regulatory Strategies for Olfactory Receptor Expression and Axon Targeting

Author

Li, Hongjie, primary, Li, Tongchao, additional, Horns, Felix, additional, Li, Jiefu, additional, Xie, Qijing, additional, Xu, Chuanyun, additional, Wu, Bing, additional, Kebschull, Justus, additional, Mclaughlin, Colleen, additional, Kolluru, Sai Saroja, additional, Jones, Robert C., additional, Vacek, David, additional, Xie, Anthony, additional, Luginbuhl, David, additional, Quake, Stephen, additional, and Luo, Liqun, additional

Published
2019
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