Table 3_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.csv by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Image 1_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.jpeg by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Image 2_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.tif by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Table 2_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.csv by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Image 3_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.tif by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Table 5_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.csv by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Table 4_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.xlsx by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Image 4_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.tif by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Table 6_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.csv by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Table 1_Integrated analysis of single-cell and bulk transcriptomics reveals the prognostic value and underlying mechanisms of crotonylation in ovarian cancer.xlsx by Xiaofeng Li (342614)

“…</p>Conclusion<p>We elucidated the significant impact of crotonylation on the ovarian cancer microenvironment and prognosis. …”

Image 4_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 5_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 6_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 2_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 8_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Photon budgets and the effects of relative CDOM and pigment absorptions on primary production along a coastal salinity gradient by Aleksandr Berezovski (20459366)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Table 1_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.docx by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 1_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 9_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”

Image 3_Photon budgets and the relative effects of CDOM and pigment absorptions on primary production along a coastal salinity gradient.jpeg by Aleksandr Berezovski (20548583)

“…The findings suggest that increased terrestrial CDOM inputs, driven by climate, changed atmospheric deposition and land-use changes, could significantly affect coastal ecosystems by altering light attenuation and consequently PP and potentially leading to other ecological pressures. …”