Figure S5 from Immunoproteasome Activation Expands the MHC Class I Immunopeptidome, Unmasks Neoantigens, and Enhances T-cell Anti-Myeloma Activity by Priyanka S. Rana (15136410)

“…<p>Figure S5. Effect of Compound A on pan-MHC-I expression. a. …”

SXR-dependent induction of Fam20a by SXR ligands. by Kotaro Azuma (521549)

“…<p>(A) ATDC5 cells were infected with adeno-SXR or adeno-DsRed and cultured in phenol red-free DMEM with charcoal/dextran-treated FCS (5%) containing rifampicin (RIF) (10 μM), vitamin K2 (VK) (10 μM), or ethanol (Et). …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”

Dynamics of Liquid Transfer from Nanoporous Stamps in High-Resolution Flexographic Printing by Dhanushkodi D. Mariappan (6792080)

“…Specifically, we find that the printed ink volume and resulting layer thickness are independent of contact pressure; and that printed layer thickness decreases with retraction speed. …”