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Showing 241 - 260 results of 9,090 for search '(( i ((values decrease) OR (largest decrease)) ) OR ( a ((mean decrease) OR (linear decrease)) ))', query time: 0.66s Refine Results
  1. 241
    TITAN increaser macroinvertebrate heatmap Heatmap of tolerant (i.e., <i>z</i>+) macroinvertebrate taxa (y-axis) to at least one of the five stressors, in decreasing order of number of stressor responses.

    TITAN increaser macroinvertebrate heatmap Heatmap of tolerant (i.e., <i>z</i>+) macroinvertebrate taxa (y-axis) to at least one of the five stressors, in decreasing order of number... by Brent J. Bellinger (21156150)

    Published 2025
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  2. 242
    Distribution of stable isotope values for consumers faceted by coastscape and feeding habit.

    Distribution of stable isotope values for consumers faceted by coastscape and feeding habit. by Nathan D. McTigue (10706460)

    Published 2025
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  3. 243
    Distribution of stable carbon and nitrogen values for pPOM and sPOM.

    Distribution of stable carbon and nitrogen values for pPOM and sPOM. by Nathan D. McTigue (10706460)

    Published 2025
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  4. 244
    A.) Pictorial representation of light-harvesting structures evolved for different values of the cost <i>χ.</i>

    A.) Pictorial representation of light-harvesting structures evolved for different values of the cost <i>χ.</i> by Callum Gray (2691769)

    Published 2025
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  5. 245
    Fig 4 -

    Fig 4 - by Leena Inkilä (20614460)

    Published 2025
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  6. 246
    Mean muscle activation patterns across the gait cycle during walking with anteroposterior (AP) forces for <i>A)</i> able-bodied individuals and <i>B)</i> individuals after stroke during Unsupported Walking (UW; black), anterior forces (green) and posterior forces (purple).

    Mean muscle activation patterns across the gait cycle during walking with anteroposterior (AP) forces for <i>A)</i> able-bodied individuals and <i>B)</i> individuals after stroke d... by Sanne Ettema (18786312)

    Published 2025
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  7. 247
    Craniocaudal impulses of fore- and hindlimbs at three bar heights during take-off.

    Craniocaudal impulses of fore- and hindlimbs at three bar heights during take-off. by Leena Inkilä (20614460)

    Published 2025
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  8. 248
    <i>SLC2A2</i> is essential for liver differentiation in developing vertebrates

    <i>SLC2A2</i> is essential for liver differentiation in developing vertebrates by Yejin Kim (740789)

    Published 2025
    “…A significant increase (p-value < 0.001, ***) in igf1r expression was observed in <i>SLC2A2</i> MO-injected embryos compared to the control group. …”
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  9. 249
    δ<sup>15</sup>N in <i>Fucus spp. vs. Bifurcaria bifurcata.</i>

    δ<sup>15</sup>N in <i>Fucus spp. vs. Bifurcaria bifurcata.</i> by Antonio Bode (1473376)

    Published 2025
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  10. 250
    Mathematical treatments applied to data to correct stable isotope values for lipid content.

    Mathematical treatments applied to data to correct stable isotope values for lipid content. by Nathan D. McTigue (10706460)

    Published 2025
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  11. 251
    Gene co-expression network analysis of the GSE263867 dataset.

    Gene co-expression network analysis of the GSE263867 dataset. by Yaping Yuan (2734228)

    Published 2024
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  12. 252
    The nsP4-Q192L and C483Y mutations decrease the 4′-FlU sensitivity of both replication and transcription.

    The nsP4-Q192L and C483Y mutations decrease the 4′-FlU sensitivity of both replication and transcription. by Peiqi Yin (6533747)

    Published 2025
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  13. 253
    Mean muscle activation patterns across the gait cycle during walking with Body Weight Support (BWS) for <i>A)</i> able-bodied individuals and <i>B)</i> individuals after stroke during Unsupported Walking (UW; black), 10% BWS (blue) and 30% BWS (red).

    Mean muscle activation patterns across the gait cycle during walking with Body Weight Support (BWS) for <i>A)</i> able-bodied individuals and <i>B)</i> individuals after stroke dur... by Sanne Ettema (18786312)

    Published 2025
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  14. 254
    Plots of FEV<sub>1</sub> (upper left), FVC (upper right), TLC (lower left) and TLCO (lower right) values expressed in % pred. (<i>y</i>-axis) against <i>z</i>-scores (<i>x</i>-axis) with subjects stratified by age group.

    Plots of FEV<sub>1</sub> (upper left), FVC (upper right), TLC (lower left) and TLCO (lower right) values expressed in % pred. (<i>y</i>-axis) against <i>z</i>-scores (<i>x</i>-axis... by Piotr W. Boros (21446186)

    Published 2025
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  15. 255
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  16. 256
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  17. 257
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  18. 258
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
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  19. 259
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
    Save to List
    Saved in:
  20. 260
    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of Non-Small Cell Lung Cancer Tissue by CZE-ESI-MS/MS

    Biocompatible and Antifouling Linear Poly(<i>N</i>‑(2-hydroxypropyl)methacrylamide)-Coated Capillaries via Aqueous RAFT Polymerization Method for Clinical Proteomics Analysis of No... by Mengqing Yang (13253917)

    Published 2025
    “…In this study, a linear poly(<i>N</i>-(2-hydroxypropyl)methacrylamide) (LP(HPMA))-coated capillary was prepared by using the surface-confined aqueous reversible addition–fragmentation chain transfer polymerization method. …”
    Save to List
    Saved in:

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