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nis elements advanced research software  (Nikon)


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    Nikon nis elements advanced research software
    Nis Elements Advanced Research Software, supplied by Nikon, used in various techniques. Bioz Stars score: 99/100, based on 37545 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/nis elements advanced research software/product/Nikon
    Average 99 stars, based on 37545 article reviews
    nis elements advanced research software - by Bioz Stars, 2026-05
    99/100 stars

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    Nis Elements Advanced Research Software, supplied by Nikon, 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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    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon <t>NIS</t> <t>Elements</t> <t>software.</t> All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
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    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon <t>NIS</t> <t>Elements</t> <t>software.</t> All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
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    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon <t>NIS</t> <t>Elements</t> <t>software.</t> All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
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    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon <t>NIS</t> <t>Elements</t> <t>software.</t> All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
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    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon <t>NIS</t> <t>Elements</t> <t>software.</t> All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
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    Image Search Results


    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon NIS Elements software. All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Journal: Biofilm

    Article Title: Inactivation of Cysteine Synthase CysK-A enhances flocculation, biofilm formation, and sensitivity to oxidative stress in Azospirillum brasilense Sp7

    doi: 10.1016/j.bioflm.2025.100335

    Figure Lengend Snippet: A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon NIS Elements software. All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Article Snippet: Obtained images were processed and analyzed using Nikon NIS Elements software.

    Techniques: Mutagenesis, Expressing, Concentration Assay, Fluorescence, Microscopy, Software

    A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon NIS Elements software. All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Journal: Biofilm

    Article Title: Inactivation of Cysteine Synthase CysK-A enhances flocculation, biofilm formation, and sensitivity to oxidative stress in Azospirillum brasilense Sp7

    doi: 10.1016/j.bioflm.2025.100335

    Figure Lengend Snippet: A. brasilense AR mutant exhibits elevated levels of intracellular c-di-GMP. Colony morphology of wild-type A. brasilense Sp7 ( A ) and the AR mutant ( B ) expressing a c-di-GMP biosensor (pFY4535). Cultures were grown for five days at 30 °C on Nfb∗ agar supplemented with KNO 3 . The intracellular c-di-GMP concentration is proportional to the expression of TurboRFP (red), resulting in a red colony color. The AR mutant's more intense coloration indicates higher c-di-GMP accumulation than in the WT. Representative fluorescence microscopy of individual WT and AR mutant cells. Images were captured on a Nikon Eclipse TE2000-U microscope using the following excitation/emission wavelengths: 489/519 nm for AmCyan (green) and 553/574 nm for TurboRFP (red). Gray images are intensity surface plots corresponding to the fluorescence emitted by TurboRFP. Images were processed using Nikon NIS Elements software. All images shown are representative of three independent experiments. Scale bars, 10 mm (colonies); 10 μm (individual cells). (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Article Snippet: Three-dimensional structures were reconstructed using NIS Elements imaging software for Nikon microscopy (Nikon, Japan).

    Techniques: Mutagenesis, Expressing, Concentration Assay, Fluorescence, Microscopy, Software