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ATCC mac infected thp 1 monocytes
Mac Infected Thp 1 Monocytes, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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InvivoGen mac positive ht1080 cell line
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Mac Positive Ht1080 Cell Line, supplied by InvivoGen, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Grammarly Inc mac version 1 2 258 1885
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Mac Version 1 2 258 1885, supplied by Grammarly Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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NSJ Bioreagents cd11b antibody / mac-1
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Cd11b Antibody / Mac 1, supplied by NSJ Bioreagents, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Bio-Rad image lab version 5 1 software
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Image Lab Version 5 1 Software, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Miltenyi Biotec positive selection macs separation kit
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Positive Selection Macs Separation Kit, supplied by Miltenyi Biotec, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Bio-Rad imagelab 5 2 1 software
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Imagelab 5 2 1 Software, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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fluidigm anti human cd11b icrf44 209bi
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Anti Human Cd11b Icrf44 209bi, supplied by fluidigm, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Bio-Rad image lab version 6 0 1 software
(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an <t>HT1080</t> MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.
Image Lab Version 6 0 1 Software, supplied by Bio-Rad, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


(A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an HT1080 MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.

Journal: bioRxiv

Article Title: High-throughput CRISPR live-cell imaging of low-frequency chromosomal events quantifies the latent efficiency of chromosome engineering

doi: 10.64898/2026.05.10.724155

Figure Lengend Snippet: (A) Schematic of the recombinant dCas9 used for chromosome labeling in live cells. Two green fluorophores (sfGFP and mNeonGreen) are fused at the N terminus, and three tandem 2× nuclear localization signal (NLS) modules are positioned at the N terminus, an internal site, and the C terminus to enhance nuclear import. (B) Representative labeling of a mouse artificial chromosome (MAC) in an HT1080 MAC-positive line imaged by confocal microscopy. Nuclei are stained with Hoechst 33342. The inset highlights a representative CRISPR spot (arrow). Scale bars, 50 µm (overview) and 5 µm (inset). (C) Per-cell signal-to-noise ratio (SNR) distribution for MAC-positive and MAC-negative HT1080 cell lines (n = 262 MAC-positive cells and n = 160 MAC-negative cells across three independent experiments). Per-cell SNR was defined as the maximum intranuclear spot SNR within each nucleus. For cells with no detectable spot, the SNR was set to 0. (D) Precision–recall (PR) performance for MAC detection obtained by sweeping the SNR threshold. The curve shows mean performance across three independent experiments; the shaded band indicates ± standard deviation (s.d.); mAP is mean average precision. (E) Two-color colocalization assay using dCas9–green (sfGFP–mNeonGreen) and dCas9– red (2×mScarlet) programmed with distinct guide sets targeting the MAC (sgMajSat_1 for green and sgMajSat_2 for red). Nuclei are stained using NucSpot Live 650. The inset highlights a representative CRISPR spot of MAC focus (arrow). Colocalization was assessed by intersection-over-union (IoU) between the green and red focus masks, defined as the area of overlap divided by the area of union; spots were classified as colocalized at IoU ≥ 0.5. Scale bars, 5 μm.

Article Snippet: For the MAC-positive HT1080 cell line (HT1080 MI-MAC27-2), G418 (InvivoGen, #ant-gn-1) was added to the medium at 600 μg/ml.

Techniques: Recombinant, Labeling, Confocal Microscopy, Staining, CRISPR, Standard Deviation

(A)Schematic of workflow modifications to reduce nonspecific puncta: protease treatment to remove membrane-associated RNP aggregates and transient glutamine deprivation to reduce intranuclear nonspecific accumulation. (B)Representative z-projection image of an OPM volume acquired from MAC-positive HT1080 cells (acquisition time, ~1.5 s per volume). Nuclei and CRISPR spots are shown in magenta and green, respectively. Scale bar, 100 μm. (C)Representative intranuclear CRISPR spots. Maximum-intensity z-projections of the GFP channel are shown; nuclear boundaries are outlined in yellow and arrows indicate discrete spots. Scale bar, 5 µm. (D)Cell-level SNR distributions without and with the workflow optimizations. Vertical lines denote the SNR threshold used for calling and the corresponding limit of detection (LoD) under the defined criteria. Blue, positive-control cells (n = 16,831 without optimization; n = 13,056 with optimization); orange, negative-control cells (n = 20,127 without optimization; n = 16,994 with optimization). (E)Precision–recall curves without and with the workflow optimizations by sweeping the SNR threshold on datasets from 30,723 MAC-positive cells and 37,577 MAC-negative cells across three independent experiments. mAP, mean average precision (without optimization, 0.941; with optimization, 0.971) and standard deviation (shadow).

Journal: bioRxiv

Article Title: High-throughput CRISPR live-cell imaging of low-frequency chromosomal events quantifies the latent efficiency of chromosome engineering

doi: 10.64898/2026.05.10.724155

Figure Lengend Snippet: (A)Schematic of workflow modifications to reduce nonspecific puncta: protease treatment to remove membrane-associated RNP aggregates and transient glutamine deprivation to reduce intranuclear nonspecific accumulation. (B)Representative z-projection image of an OPM volume acquired from MAC-positive HT1080 cells (acquisition time, ~1.5 s per volume). Nuclei and CRISPR spots are shown in magenta and green, respectively. Scale bar, 100 μm. (C)Representative intranuclear CRISPR spots. Maximum-intensity z-projections of the GFP channel are shown; nuclear boundaries are outlined in yellow and arrows indicate discrete spots. Scale bar, 5 µm. (D)Cell-level SNR distributions without and with the workflow optimizations. Vertical lines denote the SNR threshold used for calling and the corresponding limit of detection (LoD) under the defined criteria. Blue, positive-control cells (n = 16,831 without optimization; n = 13,056 with optimization); orange, negative-control cells (n = 20,127 without optimization; n = 16,994 with optimization). (E)Precision–recall curves without and with the workflow optimizations by sweeping the SNR threshold on datasets from 30,723 MAC-positive cells and 37,577 MAC-negative cells across three independent experiments. mAP, mean average precision (without optimization, 0.941; with optimization, 0.971) and standard deviation (shadow).

Article Snippet: For the MAC-positive HT1080 cell line (HT1080 MI-MAC27-2), G418 (InvivoGen, #ant-gn-1) was added to the medium at 600 μg/ml.

Techniques: Membrane, CRISPR, Positive Control, Negative Control, Standard Deviation

(A) Experimental schematic. Following microcell fusion and expansion, recipient HT1080 cells were split into two arms: Hi-CRI imaging after 1 day of culture, or antibiotic selection followed by a clonogenic assay after 8 days. (B) Representative z-projection from an OPM volume in the post-MMCT population. Nuclei (magenta) and CRISPR spots (green) are shown. The inset shows a MAC-positive cell, in which the nuclear boundary is outlined in yellow and the arrow marks an intranuclear CRISPR spot. Scale bars, 75 µm (overview) and 3 µm (inset). (C) Estimated MAC-positive fraction measured by Hi-CRI imaging and by antibiotic-selection-based clonogenic assay across three independent MMCT experiments (Rep 1–3; y-axis, log scale). For Hi-CRI, the fraction is the number of cells called positive divided by the number of analyzed cells; for the clonogenic assay, the fraction is the number of surviving colonies divided by the number of input cells. Dots indicate technical replicates, ranging from 14,097 to 33,032 cells per replicate; error bars indicate ± s.d.

Journal: bioRxiv

Article Title: High-throughput CRISPR live-cell imaging of low-frequency chromosomal events quantifies the latent efficiency of chromosome engineering

doi: 10.64898/2026.05.10.724155

Figure Lengend Snippet: (A) Experimental schematic. Following microcell fusion and expansion, recipient HT1080 cells were split into two arms: Hi-CRI imaging after 1 day of culture, or antibiotic selection followed by a clonogenic assay after 8 days. (B) Representative z-projection from an OPM volume in the post-MMCT population. Nuclei (magenta) and CRISPR spots (green) are shown. The inset shows a MAC-positive cell, in which the nuclear boundary is outlined in yellow and the arrow marks an intranuclear CRISPR spot. Scale bars, 75 µm (overview) and 3 µm (inset). (C) Estimated MAC-positive fraction measured by Hi-CRI imaging and by antibiotic-selection-based clonogenic assay across three independent MMCT experiments (Rep 1–3; y-axis, log scale). For Hi-CRI, the fraction is the number of cells called positive divided by the number of analyzed cells; for the clonogenic assay, the fraction is the number of surviving colonies divided by the number of input cells. Dots indicate technical replicates, ranging from 14,097 to 33,032 cells per replicate; error bars indicate ± s.d.

Article Snippet: For the MAC-positive HT1080 cell line (HT1080 MI-MAC27-2), G418 (InvivoGen, #ant-gn-1) was added to the medium at 600 μg/ml.

Techniques: Imaging, Selection, Clonogenic Assay, CRISPR