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microscope control software zen  (Carl Zeiss)


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    Carl Zeiss microscope control software zen

    Microscope Control Software Zen, 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/microscope control software zen/product/Carl Zeiss
    Average 90 stars, based on 1 article reviews
    microscope control software zen - by Bioz Stars, 2026-06
    90/100 stars

    Images

    1) Product Images from "Segregated input to thalamic areas that project differently to core and shell auditory cortical fields"

    Article Title: Segregated input to thalamic areas that project differently to core and shell auditory cortical fields

    Journal: iScience

    doi: 10.1016/j.isci.2024.111721


    Figure Legend Snippet:

    Techniques Used: Virus, Plasmid Preparation, Recombinant, Software, Microscopy



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    Light-sheet microscopy for multi-sample live imaging of mouse embryos from gastrulation to organogenesis. (A) Imaging chamber and objective configuration of the Lightsheet Z.1 (Zeiss) with two illumination light-sheets (ill.) and one detection light path (det.). The sample-containing capillary (1) is suspended from the top into the imaging chamber (2) and orientated with respect to the illumination (3) and detection (4) objectives (degrees of freedom indicated by red arrows; XYZ, translation; R, rotation). (B) Vertical section view through the sample chamber with inserted embryo culture chamber (5). The embryo culture chamber consists of a chamber lid (dark blue) and the chamber body (light blue) with membrane-covered windows for the light paths. It is connected via tubes (6) to the closed-cycle perfusion system of the <t>microscope</t> ( Fig. S1 ). (C) For mounting, embryos were first agarose embedded in a capillary (left), then the agarose was peeled off around the embryo, leaving only the ectoplacental cone embedded to allow growth during culture (right). (D) Bright-field images of an embryo developing on the customized light-sheet microscope (anterior towards the left). The experiment starts at mid-streak stage at E6.5. Morphological features are the allantois (a), the head fold (hf), somites (s) and foregut pocket (fg). Scale bar: 500 μm. (E) Examples of embryos after culture on the microscope: (i) LuVeLu reporter imaging ( z -stacks with 7.5 μm spacing, 100 slices per sample, 300 ms exposure time with 2.0% 50 mW 514 nm laser and 10 min imaging interval. n =6); (ii) R26-H2BmCherry reporter imaging ( z -stacks with 7.5 μm spacing, 120 slices per sample, 200 ms exposure time with 1.2% 20 mW 561 nm laser and 10 min imaging interval. n =4); (iii) cultured on microscope without imaging ( n =9); (iv) roller culture ( n =29); and (v) in utero developed control embryos dissected at E8.5 ( n =12). For all embryos, a hybridization-chain reaction (HCR)-based in situ mRNA hybridization was performed for following genes: Msgn1 (cyan), a marker for presomitic mesoderm; Shh (yellow), expressed in notochord and the floorplate of the neural tube; and Uncx4.1 (magenta), marking the anterior-posterior subdivisions of the somites. Scale bar: 200 μm. Brightness and contrast were set identically for samples i, iii, iv and v, but adjusted separately for ii. (F) SPIM-for-4 multi-sample holder. Four sample capillaries are positioned in the sample holder (7), which is mounted on the Z.1 stage using the standard sample holder disc for syringes (8). A capillary cap is glued to the top of each capillary (9; in top view on the right). With a hex key, each capillary can be turned individually around its long axis (small R), while the rotation drive of the microscope stage allows for switching between samples (large R). (G) Horizontal section view through the imaging chamber in the plane of the light path. Sample capillaries (red circles) in the SPIM-for-4 multi-sample holder do not interfere with the light paths during imaging and the holder is compatible with the embryo culture chamber. CAD drawings of Z.1 microscope parts are courtesy of Carl Zeiss Microscopy.
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    Image Search Results


    Journal: iScience

    Article Title: Segregated input to thalamic areas that project differently to core and shell auditory cortical fields

    doi: 10.1016/j.isci.2024.111721

    Figure Lengend Snippet:

    Article Snippet: The montage of tiled images was created using the "Stitching" method in the microscope control software (Zen, Carl Zeiss).

    Techniques: Virus, Plasmid Preparation, Recombinant, Software, Microscopy

    KEY RESOURCES TABLE

    Journal: Cell reports

    Article Title: Gasdermin D pore-forming activity is redox-sensitive

    doi: 10.1016/j.celrep.2023.112008

    Figure Lengend Snippet: KEY RESOURCES TABLE

    Article Snippet: FRAP experiments were performed on a Zeiss 880 laser scanning confocal microscope using the in-built FRAP module within the microscope control software Zen Black.

    Techniques: Recombinant, Protease Inhibitor, Binding Assay, Plasmid Preparation, Transfection, CyQUANT Assay, LDH Cytotoxicity Assay, Bicinchoninic Acid Protein Assay, Mutagenesis, Software, Live Cell Imaging, Laser-Scanning Microscopy, Imaging, Mass Spectrometry

    Light-sheet microscopy for multi-sample live imaging of mouse embryos from gastrulation to organogenesis. (A) Imaging chamber and objective configuration of the Lightsheet Z.1 (Zeiss) with two illumination light-sheets (ill.) and one detection light path (det.). The sample-containing capillary (1) is suspended from the top into the imaging chamber (2) and orientated with respect to the illumination (3) and detection (4) objectives (degrees of freedom indicated by red arrows; XYZ, translation; R, rotation). (B) Vertical section view through the sample chamber with inserted embryo culture chamber (5). The embryo culture chamber consists of a chamber lid (dark blue) and the chamber body (light blue) with membrane-covered windows for the light paths. It is connected via tubes (6) to the closed-cycle perfusion system of the microscope ( Fig. S1 ). (C) For mounting, embryos were first agarose embedded in a capillary (left), then the agarose was peeled off around the embryo, leaving only the ectoplacental cone embedded to allow growth during culture (right). (D) Bright-field images of an embryo developing on the customized light-sheet microscope (anterior towards the left). The experiment starts at mid-streak stage at E6.5. Morphological features are the allantois (a), the head fold (hf), somites (s) and foregut pocket (fg). Scale bar: 500 μm. (E) Examples of embryos after culture on the microscope: (i) LuVeLu reporter imaging ( z -stacks with 7.5 μm spacing, 100 slices per sample, 300 ms exposure time with 2.0% 50 mW 514 nm laser and 10 min imaging interval. n =6); (ii) R26-H2BmCherry reporter imaging ( z -stacks with 7.5 μm spacing, 120 slices per sample, 200 ms exposure time with 1.2% 20 mW 561 nm laser and 10 min imaging interval. n =4); (iii) cultured on microscope without imaging ( n =9); (iv) roller culture ( n =29); and (v) in utero developed control embryos dissected at E8.5 ( n =12). For all embryos, a hybridization-chain reaction (HCR)-based in situ mRNA hybridization was performed for following genes: Msgn1 (cyan), a marker for presomitic mesoderm; Shh (yellow), expressed in notochord and the floorplate of the neural tube; and Uncx4.1 (magenta), marking the anterior-posterior subdivisions of the somites. Scale bar: 200 μm. Brightness and contrast were set identically for samples i, iii, iv and v, but adjusted separately for ii. (F) SPIM-for-4 multi-sample holder. Four sample capillaries are positioned in the sample holder (7), which is mounted on the Z.1 stage using the standard sample holder disc for syringes (8). A capillary cap is glued to the top of each capillary (9; in top view on the right). With a hex key, each capillary can be turned individually around its long axis (small R), while the rotation drive of the microscope stage allows for switching between samples (large R). (G) Horizontal section view through the imaging chamber in the plane of the light path. Sample capillaries (red circles) in the SPIM-for-4 multi-sample holder do not interfere with the light paths during imaging and the holder is compatible with the embryo culture chamber. CAD drawings of Z.1 microscope parts are courtesy of Carl Zeiss Microscopy.

    Journal: Development (Cambridge, England)

    Article Title: Imaging the onset of oscillatory signaling dynamics during mouse embryo gastrulation

    doi: 10.1242/dev.200083

    Figure Lengend Snippet: Light-sheet microscopy for multi-sample live imaging of mouse embryos from gastrulation to organogenesis. (A) Imaging chamber and objective configuration of the Lightsheet Z.1 (Zeiss) with two illumination light-sheets (ill.) and one detection light path (det.). The sample-containing capillary (1) is suspended from the top into the imaging chamber (2) and orientated with respect to the illumination (3) and detection (4) objectives (degrees of freedom indicated by red arrows; XYZ, translation; R, rotation). (B) Vertical section view through the sample chamber with inserted embryo culture chamber (5). The embryo culture chamber consists of a chamber lid (dark blue) and the chamber body (light blue) with membrane-covered windows for the light paths. It is connected via tubes (6) to the closed-cycle perfusion system of the microscope ( Fig. S1 ). (C) For mounting, embryos were first agarose embedded in a capillary (left), then the agarose was peeled off around the embryo, leaving only the ectoplacental cone embedded to allow growth during culture (right). (D) Bright-field images of an embryo developing on the customized light-sheet microscope (anterior towards the left). The experiment starts at mid-streak stage at E6.5. Morphological features are the allantois (a), the head fold (hf), somites (s) and foregut pocket (fg). Scale bar: 500 μm. (E) Examples of embryos after culture on the microscope: (i) LuVeLu reporter imaging ( z -stacks with 7.5 μm spacing, 100 slices per sample, 300 ms exposure time with 2.0% 50 mW 514 nm laser and 10 min imaging interval. n =6); (ii) R26-H2BmCherry reporter imaging ( z -stacks with 7.5 μm spacing, 120 slices per sample, 200 ms exposure time with 1.2% 20 mW 561 nm laser and 10 min imaging interval. n =4); (iii) cultured on microscope without imaging ( n =9); (iv) roller culture ( n =29); and (v) in utero developed control embryos dissected at E8.5 ( n =12). For all embryos, a hybridization-chain reaction (HCR)-based in situ mRNA hybridization was performed for following genes: Msgn1 (cyan), a marker for presomitic mesoderm; Shh (yellow), expressed in notochord and the floorplate of the neural tube; and Uncx4.1 (magenta), marking the anterior-posterior subdivisions of the somites. Scale bar: 200 μm. Brightness and contrast were set identically for samples i, iii, iv and v, but adjusted separately for ii. (F) SPIM-for-4 multi-sample holder. Four sample capillaries are positioned in the sample holder (7), which is mounted on the Z.1 stage using the standard sample holder disc for syringes (8). A capillary cap is glued to the top of each capillary (9; in top view on the right). With a hex key, each capillary can be turned individually around its long axis (small R), while the rotation drive of the microscope stage allows for switching between samples (large R). (G) Horizontal section view through the imaging chamber in the plane of the light path. Sample capillaries (red circles) in the SPIM-for-4 multi-sample holder do not interfere with the light paths during imaging and the holder is compatible with the embryo culture chamber. CAD drawings of Z.1 microscope parts are courtesy of Carl Zeiss Microscopy.

    Article Snippet: During acquisition, both images were combined using a mean fusion algorithm provided with the microscope control and image processing software ZEN (Carl Zeiss).

    Techniques: Microscopy, Imaging, Embryo Culture, Membrane, Cell Culture, In Utero, Control, Hybridization, In Situ, Marker