SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896446617> ?p ?o ?g. }

Showing items 1 to 100 of ±174 with 100 items per page.

W2896446617 abstract "Abstract Defining the transcriptomic identity of clonally related malignant cells is challenging in the absence of cell surface markers that distinguish cancer clones from one another or from admixed non-neoplastic cells. While single-cell methods have been devised to capture both the transcriptome and genotype, these methods are not compatible with droplet-based single-cell transcriptomics, limiting their throughput. To overcome this limitation, we present single-cell Genotyping of Transcriptomes (GoT), which integrates cDNA genotyping with high-throughput droplet-based single-cell RNA-seq. We further demonstrate that multiplexed GoT can interrogate multiple genotypes for distinguishing subclonal transcriptomic identity. We apply GoT to 26,039 CD34 + cells across six patients with myeloid neoplasms, in which the complex process of hematopoiesis is corrupted by CALR -mutated stem and progenitor cells. We define high-resolution maps of malignant versus normal hematopoietic progenitors, and show that while mutant cells are comingled with wildtype cells throughout the hematopoietic progenitor landscape, their frequency increases with differentiation. We identify the unfolded protein response as a predominant outcome of CALR mutations, with significant cell identity dependency. Furthermore, we identify that CALR mutations lead to NF-κB pathway upregulation specifically in uncommitted early stem cells. Collectively, GoT provides high-throughput linkage of single-cell genotypes with transcriptomes and reveals that the transcriptional output of somatic mutations is heavily dependent on the native cell identity." @default.
W2896446617 created "2018-10-26" @default.
W2896446617 creator A5000874374 @default.
W2896446617 creator A5006372952 @default.
W2896446617 creator A5014913208 @default.
W2896446617 creator A5017721741 @default.
W2896446617 creator A5025595346 @default.
W2896446617 creator A5038258515 @default.
W2896446617 creator A5039402589 @default.
W2896446617 creator A5052538574 @default.
W2896446617 creator A5054360386 @default.
W2896446617 creator A5056128255 @default.
W2896446617 creator A5060674255 @default.
W2896446617 creator A5065256751 @default.
W2896446617 creator A5067446870 @default.
W2896446617 creator A5069175547 @default.
W2896446617 creator A5075145540 @default.
W2896446617 creator A5082561080 @default.
W2896446617 creator A5083556887 @default.
W2896446617 creator A5086217179 @default.
W2896446617 creator A5089377441 @default.
W2896446617 date "2018-10-16" @default.
W2896446617 modified "2023-10-16" @default.
W2896446617 title "High throughput droplet single-cell Genotyping of Transcriptomes (GoT) reveals the cell identity dependency of the impact of somatic mutations" @default.
W2896446617 cites W1561349380 @default.
W2896446617 cites W165520502 @default.
W2896446617 cites W1873488658 @default.
W2896446617 cites W1970090817 @default.
W2896446617 cites W1984883254 @default.
W2896446617 cites W1991885817 @default.
W2896446617 cites W1992041375 @default.
W2896446617 cites W1992826811 @default.
W2896446617 cites W1998367819 @default.
W2896446617 cites W1999203943 @default.
W2896446617 cites W2000887760 @default.
W2896446617 cites W2019192392 @default.
W2896446617 cites W2020426144 @default.
W2896446617 cites W2026641296 @default.
W2896446617 cites W2030716854 @default.
W2896446617 cites W2036870885 @default.
W2896446617 cites W2044433401 @default.
W2896446617 cites W2045949302 @default.
W2896446617 cites W2059195550 @default.
W2896446617 cites W2063756127 @default.
W2896446617 cites W2069089843 @default.
W2896446617 cites W2073471219 @default.
W2896446617 cites W2088580309 @default.
W2896446617 cites W2100322136 @default.
W2896446617 cites W2102212449 @default.
W2896446617 cites W2108234281 @default.
W2896446617 cites W2109628770 @default.
W2896446617 cites W2127906377 @default.
W2896446617 cites W2135937351 @default.
W2896446617 cites W2136272158 @default.
W2896446617 cites W2138709799 @default.
W2896446617 cites W2146142395 @default.
W2896446617 cites W2149858388 @default.
W2896446617 cites W2150892663 @default.
W2896446617 cites W2154589633 @default.
W2896446617 cites W2157694607 @default.
W2896446617 cites W2177432730 @default.
W2896446617 cites W2184331293 @default.
W2896446617 cites W2230798701 @default.
W2896446617 cites W2250097150 @default.
W2896446617 cites W2278646061 @default.
W2896446617 cites W2306779733 @default.
W2896446617 cites W2332292689 @default.
W2896446617 cites W2344384041 @default.
W2896446617 cites W2408036343 @default.
W2896446617 cites W2465917013 @default.
W2896446617 cites W2517636946 @default.
W2896446617 cites W2520178460 @default.
W2896446617 cites W2531346627 @default.
W2896446617 cites W2543562370 @default.
W2896446617 cites W2551607099 @default.
W2896446617 cites W2558715006 @default.
W2896446617 cites W2567986926 @default.
W2896446617 cites W2602848567 @default.
W2896446617 cites W2605810679 @default.
W2896446617 cites W2610599119 @default.
W2896446617 cites W2614253029 @default.
W2896446617 cites W2617816639 @default.
W2896446617 cites W2739492614 @default.
W2896446617 cites W2766900039 @default.
W2896446617 cites W2770753164 @default.
W2896446617 cites W2773946416 @default.
W2896446617 cites W2774307122 @default.
W2896446617 cites W2794480084 @default.
W2896446617 cites W2800661116 @default.
W2896446617 cites W2801527818 @default.
W2896446617 cites W2803144214 @default.
W2896446617 cites W2808039892 @default.
W2896446617 cites W2918086501 @default.
W2896446617 cites W2951506174 @default.
W2896446617 cites W2951876652 @default.
W2896446617 cites W3084492169 @default.
W2896446617 doi "https://doi.org/10.1101/444687" @default.
W2896446617 hasPublicationYear "2018" @default.
W2896446617 type Work @default.
W2896446617 sameAs 2896446617 @default.