[HTML][HTML] Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
Biology has evolved a variety of agents capable of permeabilizing and disrupting lipid
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
[PDF][PDF] Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini, C Contini… - academia.edu
Figure 1 a shows the three DNA motifs from which the core–shell particles are formed. The
core motifs are cholesterol-modified four-arm nanostars, or “C-stars”. We have recently …
core motifs are cholesterol-modified four-arm nanostars, or “C-stars”. We have recently …
Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini… - Nature …, 2021 - econpapers.repec.org
Biology has evolved a variety of agents capable of permeabilizing and disrupting lipid
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini, C Contini… - Nature …, 2021 - kclpure.kcl.ac.uk
Biology has evolved a variety of agents capable of permeabilizing and disrupting lipid
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
[PDF][PDF] Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini, C Contini… - NATURE …, 2021 - qmro.qmul.ac.uk
Figure 1 a shows the three DNA motifs from which the core–shell particles are formed. The
core motifs are cholesterol-modified four-arm nanostars, or “C-stars”. We have recently …
core motifs are cholesterol-modified four-arm nanostars, or “C-stars”. We have recently …
Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment.
M Walczak, RA Brady, L Mancini… - Nature …, 2021 - search.ebscohost.com
Biology has evolved a variety of agents capable of permeabilizing and disrupting lipid
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
[PDF][PDF] Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini, C Contini… - people.bss.phy.cam.ac.uk
Figure 1 a shows the three DNA motifs from which the core–shell particles are formed. The
core motifs are cholesterol-modified four-arm nanostars, or “C-stars”. We have recently …
core motifs are cholesterol-modified four-arm nanostars, or “C-stars”. We have recently …
[HTML][HTML] Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini, C Contini… - Nature …, 2021 - ncbi.nlm.nih.gov
Biology has evolved a variety of agents capable of permeabilizing and disrupting lipid
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment
M Walczak, RA Brady, L Mancini, C Contini… - Nature …, 2021 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Biology has evolved a variety of agents
capable of permeabilizing and disrupting lipid membranes, from amyloid aggregates, to …
capable of permeabilizing and disrupting lipid membranes, from amyloid aggregates, to …
Responsive core-shell DNA particles trigger lipid-membrane disruption and bacteria entrapment.
M Walczak, RA Brady, L Mancini, C Contini… - 2021 - repository.cam.ac.uk
Biology has evolved a variety of agents capable of permeabilizing and disrupting lipid
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …
membranes, from amyloid aggregates, to antimicrobial peptides, to venom compounds …