super resolution structured illumination microscopy (sim) Search Results


super-resolution spinning disc confocal-structured illumination microscopy (sdc-sim  (Gataca Inc)
90
Gataca Inc super-resolution spinning disc confocal-structured illumination microscopy (sdc-sim
Super Resolution Spinning Disc Confocal Structured Illumination Microscopy (Sdc Sim, supplied by Gataca Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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super-resolution spinning disc confocal-structured illumination microscopy (sdc-sim - by Bioz Stars, 2026-04
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live structured illumination microscopy  (Fenix GmbH)
90
Fenix GmbH live structured illumination microscopy
Live Structured Illumination Microscopy, supplied by Fenix GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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grazing incidence structured illumination microscopy (gi-sim) apparatus  (Evident Corporation)
90
Evident Corporation grazing incidence structured illumination microscopy (gi-sim) apparatus
Grazing Incidence Structured Illumination Microscopy (Gi Sim) Apparatus, supplied by Evident Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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grazing incidence structured illumination microscopy (gi-sim) apparatus - by Bioz Stars, 2026-04
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super-resolution structured illumination microscopy (sim)  (Optics and Photonics)
90
Optics and Photonics super-resolution structured illumination microscopy (sim)
Super Resolution Structured Illumination Microscopy (Sim), supplied by Optics and Photonics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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structured illumination microscopy (sim) imaging  (SAS institute)
90
SAS institute structured illumination microscopy (sim) imaging
Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using <t>structured</t> <t>illumination</t> <t>microscopy</t> <t>(SIM).</t> (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.
Structured Illumination Microscopy (Sim) Imaging, supplied by SAS institute, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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structured illumination microscopy (sim) imaging - by Bioz Stars, 2026-04
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super-resolution microscopy and structured illumination microscopy (sim)  (Illumina Inc)
90
Illumina Inc super-resolution microscopy and structured illumination microscopy (sim)
Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using <t>structured</t> <t>illumination</t> <t>microscopy</t> <t>(SIM).</t> (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.
Super Resolution Microscopy And Structured Illumination Microscopy (Sim), supplied by Illumina Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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structured illumination microscopy (sim)  (Verlag GmbH)
90
Verlag GmbH structured illumination microscopy (sim)
Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using <t>structured</t> <t>illumination</t> <t>microscopy</t> <t>(SIM).</t> (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.
Structured Illumination Microscopy (Sim), supplied by Verlag GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/structured illumination microscopy (sim)/product/Verlag GmbH
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structured illumination microscopy (sim) - by Bioz Stars, 2026-04
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superresolution structured illumination microscopy (sim)  (Applied Precision Inc)
90
Applied Precision Inc superresolution structured illumination microscopy (sim)
Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using <t>structured</t> <t>illumination</t> <t>microscopy</t> <t>(SIM).</t> (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.
Superresolution Structured Illumination Microscopy (Sim), supplied by Applied Precision Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/superresolution structured illumination microscopy (sim)/product/Applied Precision Inc
Average 90 stars, based on 1 article reviews
superresolution structured illumination microscopy (sim) - by Bioz Stars, 2026-04
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full-field structured-illumination super-resolution x-ray transmission microscopy  (Helmholtz Zentrum fur Infektionsforschung GmbH)
90
Helmholtz Zentrum fur Infektionsforschung GmbH full-field structured-illumination super-resolution x-ray transmission microscopy
Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using <t>structured</t> <t>illumination</t> <t>microscopy</t> <t>(SIM).</t> (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.
Full Field Structured Illumination Super Resolution X Ray Transmission Microscopy, supplied by Helmholtz Zentrum fur Infektionsforschung GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/full-field structured-illumination super-resolution x-ray transmission microscopy/product/Helmholtz Zentrum fur Infektionsforschung GmbH
Average 90 stars, based on 1 article reviews
full-field structured-illumination super-resolution x-ray transmission microscopy - by Bioz Stars, 2026-04
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doubling the lateral resolution of wide-field fluorescence microscopy using structured illumination  (Optics and Photonics)
90
Optics and Photonics doubling the lateral resolution of wide-field fluorescence microscopy using structured illumination
Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using <t>structured</t> <t>illumination</t> <t>microscopy</t> <t>(SIM).</t> (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.
Doubling The Lateral Resolution Of Wide Field Fluorescence Microscopy Using Structured Illumination, supplied by Optics and Photonics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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doubling the lateral resolution of wide-field fluorescence microscopy using structured illumination - by Bioz Stars, 2026-04
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Image Search Results


Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using structured illumination microscopy (SIM). (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.

Journal: Molecular Biology of the Cell

Article Title: CEP135 isoform dysregulation promotes centrosome amplification in breast cancer cells

doi: 10.1091/mbc.E18-10-0674

Figure Lengend Snippet: Centriole overduplication in breast cancer cells that have CA. (A) Nonamplified and amplified centrioles have a full complement of representative centriolar proteins. SAS-6 (left, grayscale), CPAP (middle, grayscale) and CEP135 (right, grayscale) are labeled relative to CEP192 (red) and centrin (green) and imaged using structured illumination microscopy (SIM). (B) New centriole assembly at nonamplified and amplified centrioles. Left panel, centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green). Right panel, schematic of G1-, early and late S phase, and amplified centrioles. Arrows denote multiple new, SAS-6–positive procentrioles. (C) Percentage of the total cell population that have more than two new (SAS-6–positive) daughter centrioles. (D) Number of new centrioles (SAS-6 positive) assembled in cells that have amplified centrosomes. (E) Multiple and single daughter centrioles form from mother centrioles. Top panel, schematic of multiple and single daughter centrioles forming from mother centrioles. Bottom panel, representative images of centrioles labeled for SAS-6 (grayscale), CEP192 (red), and centrin (green) in S-phase MDA-231 cells that have overduplicated centrioles. Arrows denote multiple daughter centriole assembly events at a single mother centriole. (F) Relative frequency of duplication of multiple daughter centrioles compared with a single daughter centriole from a single mother centriole. (C, D) Statistical tests compare to MCF10A cells. Mean ± SEM. Fisher’s exact test and Mann–Whitney U test. ***, p < 0.005 and ****, p < 0.0005. Scale bars, 1 μm.

Article Snippet: The number of SAS-6 foci at each mother centriole was quantified using structured illumination microscopy (SIM) imaging of MDA-231 cells that exhibit greater than two procentrioles (SAS-6 positive) per cell.

Techniques: Amplification, Labeling, Microscopy, MANN-WHITNEY