Fractal dimension fitted curves for different sandstones. by Dong Feng (5375471)

Pore size distribution of different sandstone. by Dong Feng (5375471)

Principle of MNR. by Dong Feng (5375471)

Correlation between the sandstone mineral composition and fractal dimension. by Dong Feng (5375471)

Electron microscope scanning of different sandstone samples. by Dong Feng (5375471)

Pore volume distribution of different pore sizes in each lithology. by Dong Feng (5375471)

XRD of unweathered and weathered sandstones. by Dong Feng (5375471)

Changes in mineral composition of unweathered and weathered sandstones. by Dong Feng (5375471)

Multiproxy summary of pollen, fecal biomarker, and charcoal data for BF19. by John A. F. Wendt (19976392)

Ungulate community dynamics and associated environmental variables at Buffalo Ford Lake and the lower Lamar Valley during the last <i>c</i>. 2300 years. by John A. F. Wendt (19976392)

Differences among the classes of CAMs. by Daniel P. Bradley (10306893)

“…A representative HPD <b>1466</b>, with a 50% effective concentration against HBV replication of 0.25 µM, decreased capsid and core protein accumulation by 50–90% in HepDES19 and HepG2.2.15 cells. …”

Image6_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.jpeg by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Image3_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.jpeg by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Image4_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.jpeg by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Table3_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.docx by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Table2_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.docx by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Image5_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.jpeg by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Image1_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.jpeg by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Image2_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.jpeg by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”

Table1_Overexpression of TaPIP1A enhances drought and salt stress tolerance in Arabidopsis: cross-species conservation and molecular dynamics.docx by Jie Han (128758)

“…In TaPIP1A knockout wheat strains, there was a significant decrease in stress tolerance, whereas Arabidopsis plants overexpressing TaPIP1A exhibited marked improvements in survival under similar stress conditions. …”