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standard gram negative strain  (ATCC)


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    ATCC standard gram negative strain
    Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect <t>on</t> <t>Gram-negative</t> E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .
    Standard Gram Negative Strain, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 40623 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/standard gram negative strain/product/ATCC
    Average 99 stars, based on 40623 article reviews
    standard gram negative strain - by Bioz Stars, 2026-03
    99/100 stars

    Images

    1) Product Images from "Green Synthesis of Silver Nanoparticles with Antibacterial, Anti-Inflammatory, and Antioxidant Activity Using Convolvulus arvensis"

    Article Title: Green Synthesis of Silver Nanoparticles with Antibacterial, Anti-Inflammatory, and Antioxidant Activity Using Convolvulus arvensis

    Journal: International Journal of Molecular Sciences

    doi: 10.3390/ijms27031210

    Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect on Gram-negative E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .
    Figure Legend Snippet: Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect on Gram-negative E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .

    Techniques Used: Electron Microscopy, Synthesized, Microscopy, Control, Membrane



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    standard gram negative strain  (ATCC)
    99
    ATCC standard gram negative strain
    Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect <t>on</t> <t>Gram-negative</t> E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .
    Standard Gram Negative Strain, 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
    https://www.bioz.com/result/standard gram negative strain/product/ATCC
    Average 99 stars, based on 1 article reviews
    standard gram negative strain - by Bioz Stars, 2026-03
    99/100 stars
    		  Buy from Supplier
    gram negative standard strains  (ATCC)
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    ATCC gram negative standard strains
    Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect <t>on</t> <t>Gram-negative</t> E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .
    Gram Negative Standard Strains, supplied by ATCC, used in various techniques. Bioz Stars score: 98/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/gram negative standard strains/product/ATCC
    Average 98 stars, based on 1 article reviews
    gram negative standard strains - by Bioz Stars, 2026-03
    98/100 stars
    		  Buy from Supplier

    Image Search Results


    Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect on Gram-negative E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .

    Journal: International Journal of Molecular Sciences

    Article Title: Green Synthesis of Silver Nanoparticles with Antibacterial, Anti-Inflammatory, and Antioxidant Activity Using Convolvulus arvensis

    doi: 10.3390/ijms27031210

    Figure Lengend Snippet: Scanning Electron Microscopy (SEM) images showing the morphological effects of silver nanoparticles synthesized from C. arvensis. ( A – C ) demonstrate the effect on Gram-positive S. aureus (MRSA and ST), E-H demonstrate the effect on Gram-negative E. coli ESBL and ST) bacterial strains. described above, and the cells exhibited a division-related septum, broadening, and cytoplasm leakage. Scanning electron microscope images showed that the untreated control groups ( A , C , E , G ), bacterial cells exhibited normal morphology with intact cell walls and smooth surfaces. In contrast, treated cells ( B , D , F , H ) showed significant morphological changes: S. aureus cells displayed shrinkage and deformations in their spherical shape, while E. coli cells exhibited marked structural disintegration and severe membrane damage. These observations confirm the destructive effects of silver nanoparticles on bacterial cell integrity. Most of the cells were damaged and perforated, which changed the cell structure and shape, and it was noted that some of them were empty. In addition, most cells appeared to stick together compared to untreated cells. As is clear in .

    Article Snippet: Four bacterial strains were used in this study: one standard Gram-positive strain ( Staphylococcus aureus ATCC 29213 ), one standard Gram-negative strain ( Escherichia coli ATCC 25922 ), and two clinical isolates (SP1 and SP2) obtained from patient samples.

    Techniques: Electron Microscopy, Synthesized, Microscopy, Control, Membrane