-
4x kalata B1 antimicrobial peptides in water 1/4
4 copies of kalata B1 in SPC water, 150 mM NaCl, simulated for 700 ns -
2x kalata B1 antimicrobial peptides in water 4/4
2 copies of kalata B1 in SPC water, 150 mM NaCl, simulated for 700 ns -
2x kalata B1 antimicrobial peptides in water 3/4
2 copies of kalata B1 in SPC water, 150 mM NaCl, simulated for 700 ns -
2x kalata B1 antimicrobial peptides in water 2/4
2 copies of kalata B1 in SPC water, 150 mM NaCl, simulated for 700 ns -
2x kalata B1 antimicrobial peptides in water 1/4
2 copies of kalata B1 in SPC water, 150 mM NaCl, simulated for 700 ns -
56x Triclosan molecules with a POPC lipid bilayer 3/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a POPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 120 ns contained boundary wall... -
56x Triclosan molecules with a POPC lipid bilayer 2/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a POPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 120 ns contained boundary wall... -
56x Triclosan molecules with a POPC lipid bilayer 1/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a POPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 120 ns contained boundary wall... -
56x Triclosan molecules with a PDPC lipid bilayer 3/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a PDPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 150 ns contained boundary wall... -
56x Triclosan molecules with a PDPC lipid bilayer 2/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a PDPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 150 ns contained boundary wall... -
56x Triclosan molecules with a PDPC lipid bilayer 1/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a PDPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 150 ns contained boundary wall... -
56x Triclosan moleculates with a DIPC lipid bilayer 3/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a DIPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 150 ns contained boundary wall... -
56x Triclosan molecules with a DIPC lipid bilayer 2/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a DIPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 150 ns contained boundary wall... -
56x Triclosan molecules with a DIPC lipid bilayer 1/3
56 molecules of triclosan (28 (M)-triclosan and 28 (P)-triclosan) in water with a DIPC lipid bilayer, 100 nM NaCl, simulated for 450 ns, initial 150 ns contained boundary wall... -
56x Chloroxylenol molecules with a PCMSC lipid bilayer 3/3
56x Chloroxylenol (PCMX) molecules in water with a PCMSC lipid bilayer, 100 nM NaCl, simulated for 400 ns, initial 150 ns contained boundary wall to prevent periodic... -
56x Chloroxylenol molecules with a PCMSC lipid bilayer 2/3
56x Chloroxylenol (PCMX) molecules in water with a PCMSC lipid bilayer, 100 nM NaCl, simulated for 400 ns, initial 150 ns contained boundary wall to prevent periodic... -
56x Chloroxylenol molecules with a PCMSC lipid bilayer 1/3
56x Chloroxylenol (PCMX) molecules in water with a PCMSC lipid bilayer, 100 nM NaCl, simulated for 400 ns,, initial 150 ns contained boundary wall to prevent periodic... -
56x Chloroxylenol molecules with a POPC lipid bilayer 3/3
56x Chloroxylenol (PCMX) molecules in water with a POPC lipid bilayer, 100 nM NaCl, simulated for 350 ns, initial 120 ns contained boundary wall to prevent periodic interaction.... -
56x Chloroxylenol molecules with a POPC lipid bilayer 2/3
56x Chloroxylenol (PCMX) molecules in water with a POPC lipid bilayer, 100 nM NaCl, simulated for 350 ns, initial 120 ns contained boundary wall to prevent periodic interaction.... -
56x Chloroxylenol molecules with a POPC lipid bilayer 1/3
56x Chloroxylenol (PCMX) molecules in water with a POPC lipid bilayer, 100 nM NaCl, simulated for 350 ns, initial 120 ns contained boundary wall to prevent periodic interaction....