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Image_1_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.tif
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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DataSheet_1_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.docx
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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Image_3_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.tif
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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Image_5_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.tif
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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Image_4_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.tif
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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Image_2_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.tif
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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Image_6_Differential Regulation of Microglial Activation in Response to Different Degree of Ischemia.tif
Published 2022“…However, it remains largely unclear how microglial activation is differentially regulated in response to a different degree of ischemia. …”
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Study group background characteristics.
Published 2024“…This relationship changed markedly with the development of <b><i>HAD</i></b> and the underlying direct neuropathic parenchymal CNS infection, i.e., <b><i>HIVE</i></b>, in which the CSF HIV-1 RNA concentrations reached high levels, and the differences between it and the blood viral load decreased. …”
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Image_1_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.jpeg
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
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DataSheet_1_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.docx
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
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DataSheet_1_Natal environmental conditions modulate senescence of antler length in roe deer.csv
Published 2023“…We found evidence of similar patterns of antler length senescence in both populations, with an onset of senescence around 7 years of age and a decrease of length by about 1–1.5 cm per additional year of life from 7 years of age onwards. …”
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DataSheet_2_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.xls
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
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Image_3_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.png
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
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Image_5_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.png
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
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Image_2_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.jpeg
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
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Image_4_Integrative analysis of different low-light-tolerant cucumber lines in response to low-light stress.png
Published 2023“…</p>Results<p>The results showed that there was a sharp decrease in the photosynthate accumulation in the leaves of the sensitive line, M14, resulting in a large decrease in the photosynthetic rate (Pn) (with 31.99%) of leaves compared to that of the control, which may have been caused by damage to chloroplast ultrastructure or a decrease in chlorophyll (Chl) content. …”
