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Showing 1,021 - 1,040 results of 15,659 for search '(( significant decrease decrease ) OR ( significant i decrease ))~', query time: 0.33s Refine Results
  1. 1021
    NTM infection induces mitochondrial damage and reduces mitochondria number.

    NTM infection induces mitochondrial damage and reduces mitochondria number. by Joel R. Frandsen (20685133)

    Published 2025
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  2. 1022
    Gene inactivation by RNAi of the synMuv suppressor genes encoding the chromatin remodeling and histone methylation factors <i>isw-1</i> and <i>mes-4</i> significantly suppresses the activation of <i>pals-5p</i>::<i>GFP</i> in the <i>lin-35(n745)</i> mutant under non-infection conditions but does not suppress <i>pals-5p</i>::<i>GFP</i> response to Orsay virus infection.

    Gene inactivation by RNAi of the synMuv suppressor genes encoding the chromatin remodeling and histone methylation factors <i>isw-1</i> and <i>mes-4</i> significantly suppresses th... by Ashwin Seetharaman (615458)

    Published 2025
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  3. 1023
    RipE1 phosphorylation and NbUCH-mediated deubiquitination are independent mechanisms leading to RipE1 stability.

    RipE1 phosphorylation and NbUCH-mediated deubiquitination are independent mechanisms leading to RipE1 stability. by Wenjia Yu (9422059)

    Published 2025
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  4. 1024
    Co-infected cells express both KSHV and EBV genes <i>in vitro</i> necessary for their survival and growth.

    Co-infected cells express both KSHV and EBV genes <i>in vitro</i> necessary for their survival and growth. by Mitchell Hayes (5334887)

    Published 2025
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  5. 1025
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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  6. 1026
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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  7. 1027
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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  8. 1028
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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  9. 1029
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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  10. 1030
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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    Saved in:
  11. 1031
    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices

    An <i>In Situ</i> TEM Study of the Diffusivity of Gold Atoms in Nanocomposite Thin Films by Zirconia Co-Deposition: Implication for Neuromorphic Devices by Alberto Casu (1285227)

    Published 2025
    “…The behavior of gold nanostructured thin films under thermal stimuli, with and without zirconia inclusions, was examined utilizing both <i>in situ</i> heating transmission electron microscopy, upon low electron dose conditions, and molecular dynamics simulations. …”
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  12. 1032
    Signal intensity and fitting curves at porosity 1.

    Signal intensity and fitting curves at porosity 1. by Qingsong Zhang (3353270)

    Published 2024
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  13. 1033
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  14. 1034
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  15. 1035
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  16. 1036
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  17. 1037
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  18. 1038
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  19. 1039
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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  20. 1040
    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures

    Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

    Published 2025
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