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significant decrease » significant increase (Expand Search), significantly increased (Expand Search)
step decrease » sizes decrease (Expand Search), teer decrease (Expand Search), we decrease (Expand Search)
a decrease » _ decrease (Expand Search), _ decreased (Expand Search), _ decreases (Expand Search)
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19421
Table 1_ZKSCAN3 promotes ovarian cancer cell proliferation by increasing HSPB1 expression.docx
Published 2025“…Through RNA-Seq and chromatin immunoprecipitation (ChIP)-seq, HSPB1 is identified as a target gene of ZKSCAN3. HSPB1 expression is significantly decreased upon suppressing ZKSCAN3 expression. …”
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19422
Manuscript FAM22 for submission.docx
Published 2025“…</p><p><br></p><p dir="ltr">The findings reveal that the addition of FAM22 significantly enhanced combustion efficiency. Most notably, the thermal energy output of the system increased by 18.97%, indicating a substantial improvement in heat transfer and utilization. …”
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19423
Evaluation of heavy hydrocarbon liquid in the Eastern Dahomey Basin, Southwestern Nigeria (case study of Agbabu Bitumen in Ondo State)
Published 2025“…Agbabu bitumen was found to have a high content of saturates and aromatics. Viscosity decreases as pressure increases, while solubility reduces as temperature increases. …”
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19424
Image 3_ZKSCAN3 promotes ovarian cancer cell proliferation by increasing HSPB1 expression.pdf
Published 2025“…Through RNA-Seq and chromatin immunoprecipitation (ChIP)-seq, HSPB1 is identified as a target gene of ZKSCAN3. HSPB1 expression is significantly decreased upon suppressing ZKSCAN3 expression. …”
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19425
Image 1_ZKSCAN3 promotes ovarian cancer cell proliferation by increasing HSPB1 expression.pdf
Published 2025“…Through RNA-Seq and chromatin immunoprecipitation (ChIP)-seq, HSPB1 is identified as a target gene of ZKSCAN3. HSPB1 expression is significantly decreased upon suppressing ZKSCAN3 expression. …”
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19426
Image 2_ZKSCAN3 promotes ovarian cancer cell proliferation by increasing HSPB1 expression.pdf
Published 2025“…Through RNA-Seq and chromatin immunoprecipitation (ChIP)-seq, HSPB1 is identified as a target gene of ZKSCAN3. HSPB1 expression is significantly decreased upon suppressing ZKSCAN3 expression. …”
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19427
Supplementary file 1_ZKSCAN3 promotes ovarian cancer cell proliferation by increasing HSPB1 expression.docx
Published 2025“…Through RNA-Seq and chromatin immunoprecipitation (ChIP)-seq, HSPB1 is identified as a target gene of ZKSCAN3. HSPB1 expression is significantly decreased upon suppressing ZKSCAN3 expression. …”
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19428
Natural selection diagram.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19429
Improved optimization results.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19430
Gene comparison map before and after mutation.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19431
Recombinant gene map.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19432
model comparison (Idle/%).
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19433
Comparison chart of use of each node.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19434
Original optimization results.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19435
Selection of crossing point.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19436
Operator parameter setting of improved GA.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19437
Product supply sequence diagram.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19438
Crossed offspring chromosomes.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19439
GA iteration graph.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”
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19440
The state of each node after improvement.
Published 2025“…Additionally, the variation in node utilization rates significantly decreased from 30.1% to 12.25%, markedly enhancing resource scheduling efficiency and overall balance within the supply chain.…”