The level of knowledge of the COVID-19 vaccine. by Adaobi Uchenna Mosanya (20384248)

“…</p><p>Conclusion</p><p>This study reveals that COVID-19 vaccine acceptance among university students in Enugu State, Nigeria, remains low despite moderate knowledge and generally positive attitudes, with perceptions playing a more significant role than knowledge. The findings highlight the need for educational interventions that not only provide accurate information but also actively address misconceptions. …”

Antioxidant properties of <i>S. cerevisiae.</i> by Pompido Chilala (21578182)

Characterization of green synthesized SeNPs. by Pompido Chilala (21578182)

Vaccinia virus infection (MOI = 3) of A549 cells in media supplemented with glucose/galactose. by Tyron Chang (9922533)

S5 Fig - by Katrine Carlsen (5477300)

Association across weeks to treatment for three genera. by Katrine Carlsen (5477300)

Microbiome profile of the most abundant phyla in one patient (Patient 1), across 12 infliximab treatments (-1 is the week before treatment, -2 the two weeks before treatment, etc). by Katrine Carlsen (5477300)

Principle component analysis of the expression of mRNA in U937 cells in the presence / absence of fentanyl. by Janani Madhuravasal Krishnan (19736002)

The U937 cell line was seeded at 2 x 10⁵ cells per well. by Janani Madhuravasal Krishnan (19736002)

The U937 cell line was seeded at 2 x 10⁵ cells per well. by Janani Madhuravasal Krishnan (19736002)

The U937 cell line was seeded at 1 x 10⁵ cells per well. by Janani Madhuravasal Krishnan (19736002)

Photomicrographs of H&E-stained cerebellum sections from control and different pregnant mothers: control (A & B) and BM (C & D) groups, showing normal histological structure of the... by Amoura M. Abou-El-Naga (21001524)

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. …”