structured illumination superresolution microscope Search Results


superresolution fluorescence imaging stochastic optical reconstruction microscopy (storm)  (Cold Spring Harbor Laboratory Meetings)
90
Cold Spring Harbor Laboratory Meetings superresolution fluorescence imaging stochastic optical reconstruction microscopy (storm)
Superresolution Fluorescence Imaging Stochastic Optical Reconstruction Microscopy (Storm), supplied by Cold Spring Harbor Laboratory Meetings, 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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superresolution microscope system  (Evident Corporation)
90
Evident Corporation superresolution microscope system
Superresolution Microscope System, 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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n-sim superresolution microscope system  (Nikon)
90
Nikon n-sim superresolution microscope system
Localization of intracellular TRPA1 channels to lysosome-like organelles. (A and B) Representative images captured by an N-SIM <t>superresolution</t> <t>microscope</t> showing immunofluorescent staining for the subcellular localization of TRPA1 in WT DRG neurons. TRPA1-positive staining was prominently colocalized with labeling for the lysosome marker LAMP1 (A) but not that for the vesicle marker VAMP2 (B). For LAMP1, the curved boxes along the plasma membrane were straightened, enlarged, and are shown in the middle panels in A with arrows pointing to colocalized puncta. The rectangular boxes were enlarged and are shown in the bottom panels in A for intracellular puncta. (C) Representative immuno-electron micrographs of subcellular organelles in DRG neurons labeled with antibodies for LAMP1 (10 nm; large arrowheads) and TRPA1 (6 nm; small arrowheads). (D) Representative immuno-electron micrographs of plasma membrane localization of TRPA1 (left two panels). The TRPA1 label was absent from clear vesicles (arrow) and clathrin-coated pits (asterisk; right two panels). Images are representative of three independent cultures. Bars: (A [top] and B) 5 µm; (A, middle and bottom) 2 µm; (C and D) 200 nm.
N Sim Superresolution Microscope System, supplied by Nikon, 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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n storm superresolution microscope system  (Nikon)
97
Nikon n storm superresolution microscope system
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
N Storm Superresolution Microscope System, supplied by Nikon, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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elyra s.1 sr-sim structured illumination platform  (Carl Zeiss)
90
Carl Zeiss elyra s.1 sr-sim structured illumination platform
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Elyra S.1 Sr Sim Structured Illumination Platform, supplied by Carl Zeiss, 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/elyra s.1 sr-sim structured illumination platform/product/Carl Zeiss
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elyra ps1 structured illumination microscope  (Carl Zeiss)
90
Carl Zeiss elyra ps1 structured illumination microscope
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Elyra Ps1 Structured Illumination Microscope, supplied by Carl Zeiss, 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/elyra ps1 structured illumination microscope/product/Carl Zeiss
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elyra ps1 structured illumination microscope - by Bioz Stars, 2026-04
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airyscan superresolution confocal microscopy  (Carl Zeiss)
90
Carl Zeiss airyscan superresolution confocal microscopy
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Airyscan Superresolution Confocal Microscopy, supplied by Carl Zeiss, 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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880 lsm confocal  (Carl Zeiss)
90
Carl Zeiss 880 lsm confocal
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
880 Lsm Confocal, supplied by Carl Zeiss, 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/880 lsm confocal/product/Carl Zeiss
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lsm800 confocal microscope  (Carl Zeiss)
90
Carl Zeiss lsm800 confocal microscope
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Lsm800 Confocal Microscope, supplied by Carl Zeiss, 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/lsm800 confocal microscope/product/Carl Zeiss
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lsm800 confocal microscope - by Bioz Stars, 2026-04
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superresolution microscope  (Carl Zeiss)
90
Carl Zeiss superresolution microscope
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Superresolution Microscope, supplied by Carl Zeiss, 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 microscope/product/Carl Zeiss
Average 90 stars, based on 1 article reviews
superresolution microscope - by Bioz Stars, 2026-04
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airyscan superresolution  (Carl Zeiss)
90
Carl Zeiss airyscan superresolution
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Airyscan Superresolution, supplied by Carl Zeiss, 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/airyscan superresolution/product/Carl Zeiss
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prolong diamond antifade mountant  (Thermo Fisher)
90
Thermo Fisher prolong diamond antifade mountant
Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) <t>Superresolution,</t> 3D <t>STORM</t> reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)
Prolong Diamond Antifade Mountant, supplied by Thermo Fisher, 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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Image Search Results


Localization of intracellular TRPA1 channels to lysosome-like organelles. (A and B) Representative images captured by an N-SIM superresolution microscope showing immunofluorescent staining for the subcellular localization of TRPA1 in WT DRG neurons. TRPA1-positive staining was prominently colocalized with labeling for the lysosome marker LAMP1 (A) but not that for the vesicle marker VAMP2 (B). For LAMP1, the curved boxes along the plasma membrane were straightened, enlarged, and are shown in the middle panels in A with arrows pointing to colocalized puncta. The rectangular boxes were enlarged and are shown in the bottom panels in A for intracellular puncta. (C) Representative immuno-electron micrographs of subcellular organelles in DRG neurons labeled with antibodies for LAMP1 (10 nm; large arrowheads) and TRPA1 (6 nm; small arrowheads). (D) Representative immuno-electron micrographs of plasma membrane localization of TRPA1 (left two panels). The TRPA1 label was absent from clear vesicles (arrow) and clathrin-coated pits (asterisk; right two panels). Images are representative of three independent cultures. Bars: (A [top] and B) 5 µm; (A, middle and bottom) 2 µm; (C and D) 200 nm.

Journal: The Journal of Cell Biology

Article Title: Intracellular TRPA1 mediates Ca 2+ release from lysosomes in dorsal root ganglion neurons

doi: 10.1083/jcb.201603081

Figure Lengend Snippet: Localization of intracellular TRPA1 channels to lysosome-like organelles. (A and B) Representative images captured by an N-SIM superresolution microscope showing immunofluorescent staining for the subcellular localization of TRPA1 in WT DRG neurons. TRPA1-positive staining was prominently colocalized with labeling for the lysosome marker LAMP1 (A) but not that for the vesicle marker VAMP2 (B). For LAMP1, the curved boxes along the plasma membrane were straightened, enlarged, and are shown in the middle panels in A with arrows pointing to colocalized puncta. The rectangular boxes were enlarged and are shown in the bottom panels in A for intracellular puncta. (C) Representative immuno-electron micrographs of subcellular organelles in DRG neurons labeled with antibodies for LAMP1 (10 nm; large arrowheads) and TRPA1 (6 nm; small arrowheads). (D) Representative immuno-electron micrographs of plasma membrane localization of TRPA1 (left two panels). The TRPA1 label was absent from clear vesicles (arrow) and clathrin-coated pits (asterisk; right two panels). Images are representative of three independent cultures. Bars: (A [top] and B) 5 µm; (A, middle and bottom) 2 µm; (C and D) 200 nm.

Article Snippet: Images were captured using an N-SIM superresolution microscope system with 78-nm resolution in the x and y axes and 300 nm in the z axis (Nikon).

Techniques: Microscopy, Staining, Labeling, Marker, Clinical Proteomics, Membrane

Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) Superresolution, 3D STORM reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)

Journal: Proceedings of the National Academy of Sciences of the United States of America

Article Title: Myosin Va transport of liposomes in three-dimensional actin networks is modulated by actin filament density, position, and polarity

doi: 10.1073/pnas.1901176116

Figure Lengend Snippet: Myosin Va teams transport intracellular cargo through networks of actin. (A) Lipid-bound cargo is produced and packaged at the interior of the cell within the Golgi. These cargos are first transported along microtubule tracks, followed by handoff to MyoVa for distribution and final delivery to sites of secretion at the cell membrane. (B) Superresolution, 3D STORM reconstruction of an in vitro actin network. Actin filaments are strung between silica beads of varying diameters, which support the network and maintain a 3D organization. Color represents z position. (Scale bar: 2 µm.) (C) Overlay of 350-nm vesicle trajectory (magenta) by teams of MyoVa within a 3D actin filament network (colored by z position). (Scale bar: 1 µm.)

Article Snippet: 3D STORM images were acquired using a Nikon N-STORM superresolution microscope system with excitation of Alexa-647 phalloidin-labeled actin by 647- and 405-nm lasers.

Techniques: Produced, In Vitro