Kellie E. Kolb scite author profile

To explore the distinct genotypic and phenotypic states of melanoma tumors we applied single-cell RNA-seq to 4,645 single cells isolated from 19 patients, profiling malignant, immune, stromal and endothelial cells. Malignant cells within the same tumor displayed transcriptional heterogeneity associated with the cell cycle, spatial context, and a drug resistance program. In particular, all tumors harbored malignant cells from two distinct transcriptional cell states, such that “MITF-high” tumors also contained “AXL-high” tumor cells. Single-cell analyses suggested distinct tumor micro-environmental patterns, including cell-to-cell interactions. Analysis of tumor-infiltrating T cells revealed exhaustion programs, their connection to T cell activation and to clonal expansion, and their variability across patients. Overall, we begin to unravel the cellular ecosystem of tumors and how single cell genomics offers insights with implications for both targeted and immune therapies.

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RNA polymerase pausing and nascent-RNA structure formation are linked through clamp-domain movement

Hein

Kolb

Windgassen

et al. 2014

Nat Struct Mol Biol

149

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The rates of RNA synthesis and nascent RNA folding into biologically active structures are linked via pausing by RNA polymerase (RNAP). Structures that form within the RNA exit channel can increase pausing by interacting with bacterial RNAP or decrease pausing by preventing backtracking. Conversely, pausing is required for proper folding of some RNAs. Opening of the RNAP clamp domain is proposed to mediate some effects of nascent RNA structures. However, the connections among RNA structure formation, clamp movement, and catalytic activity remain uncertain. We assayed exit-channel structure formation in Escherichia coli RNAP together with disulfide crosslinks that favor closed or open clamp conformations and found that clamp position directly influences RNA structure formation and catalytic activity. We report that exit-channel RNA structures slow pause escape by favoring clamp opening and through interactions with the flap that slow translocation.

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Antisense Oligonucleotide-stimulated Transcriptional Pausing Reveals RNA Exit Channel Specificity of RNA Polymerase and Mechanistic Contributions of NusA and RfaH

Kolb

Hein

Landick

2014

Journal of Biological Chemistry

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Background:In bacterial transcription complexes, nascent RNA structures increase pause duration. Results: Antisense RNA and to a lesser extent DNA oligonucleotides mimic effects of RNA structures synergistically with NusA and competitively with RfaH. Conclusion: Exit channel duplexes interact specifically with RNA polymerase and NusA and compete with RfaH to control clamp position. Significance: Insights into conformational dynamics of RNA polymerase improve mechanistic understanding of transcriptional regulation.

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Circulating CXCR5+CXCR3+PD-1lo Tfh-like cells in HIV-1 controllers with neutralizing antibody breadth

Martín‐Gayo

Cronin

Hickman

et al. 2017

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Kellie E. Kolb

Dissecting the multicellular ecosystem of metastatic melanoma by single-cell RNA-seq

RNA polymerase pausing and nascent-RNA structure formation are linked through clamp-domain movement

Antisense Oligonucleotide-stimulated Transcriptional Pausing Reveals RNA Exit Channel Specificity of RNA Polymerase and Mechanistic Contributions of NusA and RfaH

Circulating CXCR5+CXCR3+PD-1lo Tfh-like cells in HIV-1 controllers with neutralizing antibody breadth

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