Protein synthesis in the tegument is restricted to cytons. by Inés Guarnaschelli (18102211)

Organization of the tegument of <i>M. corti.</i> by Inés Guarnaschelli (18102211)

Conservation of XBP1 in parasitic flatworms. by Inés Guarnaschelli (18102211)

Effects of ABZ on the incorporation of new proteins into the distal tegument. by Inés Guarnaschelli (18102211)

The UPR is not activated by ABZ. by Inés Guarnaschelli (18102211)

Agreement between microscopy and qPCR analysis of MarBTN progression. by Rachael M. Giersch (22331947)

Simulated regional mean wetland seasons. by Nic Gedney (19762301)

Survival of soft-shell clams with MarBTN compared to control clams. by Rachael M. Giersch (22331947)

Detection of MarBTN-specific eDNA in tank water at late stages of MarBTN progression. by Rachael M. Giersch (22331947)

Monitoring Electrochemical Dynamics through Single-Molecule Imaging of hBN Surface Emitters in Organic Solvents by Eveline Mayner (17767827)

“…Through a sensing scheme based on redox-active species interactions with fluorescent emitters at the surface of hBN, we observe a region of a linear decrease in the number of emitters against increasingly positive potentials applied to a nearby electrode. …”

Monitoring Electrochemical Dynamics through Single-Molecule Imaging of hBN Surface Emitters in Organic Solvents by Eveline Mayner (17767827)

“…Through a sensing scheme based on redox-active species interactions with fluorescent emitters at the surface of hBN, we observe a region of a linear decrease in the number of emitters against increasingly positive potentials applied to a nearby electrode. …”

Regional contemporary (1990–1999 mean) precipitation and JULES inundation fraction over the Amazon basin. by Nic Gedney (19762301)

Changes in decadal precipitation and JULES inundation between 1990–1999 and 2089–2098. by Nic Gedney (19762301)

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”

Morphology, Growth Kinetics, and Porous Structure of Surfactant-Promoted Gas Hydrates: Roles of Subcooling and Surfactant Formulation by Belkacem Samar (19122984)

“…The porosity and pore sizes of the resulting porous structure decrease with increasing subcooling, down to values in the range of 40–50% and a few microns for the highest subcooling investigated (≈10 K). …”