Enzyme encapsulation in nanostructured self-assembled structures: Toward biofunctional supramolecular assemblies

Maria Valldeperas; Andrea Salis; Justas Barauskas; Fredrik Tiberg; Thomas Arnebrant; Valdemaras Razumas; Maura Monduzzi; Tommy Nylander

doi:10.1016/j.cocis.2019.09.007

Enzyme encapsulation in nanostructured self-assembled structures: Toward biofunctional supramolecular assemblies

Maria Valldeperas, Andrea Salis, Justas Barauskas, Fredrik Tiberg, Thomas Arnebrant, Valdemaras Razumas, Maura Monduzzi, Tommy Nylander

Forskningsoutput: Tidskriftsbidrag › Översiktsartikel › Peer review

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Enzymes have come into use for many new applications outside their natural biological environment, taking advantage of their high efficiency and selectivity as biocatalysts. Such new application often requires encapsulation to preserve the structure and activity of the enzyme, but also to regulate and control the activity. Here, we will discuss two types of encapsulation, soft matrices consisting of polar lipid liquid crystals and hard ordered mesoporous silica matrices. For both types of matrices, the challenge is to control the pore size of the matrices and the interaction with the matrix interface. Here, the polar lipid liquid crystals offer larger flexibility than silica, but on the other hand, it is considerably more sensitive to the environment.

Originalspråk	engelska
Sidor (från-till)	130-142
Antal sidor	13
Tidskrift	Current Opinion in Colloid and Interface Science
Volym	44
DOI	https://doi.org/10.1016/j.cocis.2019.09.007
Status	Published - 2019 dec.

Ämnesklassifikation (UKÄ)

Fysikalisk kemi (Här ingår: Yt- och kolloidkemi)

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10.1016/j.cocis.2019.09.007

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title = "Enzyme encapsulation in nanostructured self-assembled structures: Toward biofunctional supramolecular assemblies",

abstract = "Enzymes have come into use for many new applications outside their natural biological environment, taking advantage of their high efficiency and selectivity as biocatalysts. Such new application often requires encapsulation to preserve the structure and activity of the enzyme, but also to regulate and control the activity. Here, we will discuss two types of encapsulation, soft matrices consisting of polar lipid liquid crystals and hard ordered mesoporous silica matrices. For both types of matrices, the challenge is to control the pore size of the matrices and the interaction with the matrix interface. Here, the polar lipid liquid crystals offer larger flexibility than silica, but on the other hand, it is considerably more sensitive to the environment.",

keywords = "Cubic phase, Enzyme activity, Enzyme encapsulation, Mesoporous silica, Polar lipid liquid crystals, Pore size",

author = "Maria Valldeperas and Andrea Salis and Justas Barauskas and Fredrik Tiberg and Thomas Arnebrant and Valdemaras Razumas and Maura Monduzzi and Tommy Nylander",

year = "2019",

month = dec,

doi = "10.1016/j.cocis.2019.09.007",

language = "English",

volume = "44",

pages = "130--142",

journal = "Current Opinion in Colloid and Interface Science",

issn = "1359-0294",

publisher = "Elsevier",

}

TY - JOUR

T1 - Enzyme encapsulation in nanostructured self-assembled structures

T2 - Toward biofunctional supramolecular assemblies

AU - Valldeperas, Maria

AU - Salis, Andrea

AU - Barauskas, Justas

AU - Tiberg, Fredrik

AU - Arnebrant, Thomas

AU - Razumas, Valdemaras

AU - Monduzzi, Maura

AU - Nylander, Tommy

PY - 2019/12

Y1 - 2019/12

N2 - Enzymes have come into use for many new applications outside their natural biological environment, taking advantage of their high efficiency and selectivity as biocatalysts. Such new application often requires encapsulation to preserve the structure and activity of the enzyme, but also to regulate and control the activity. Here, we will discuss two types of encapsulation, soft matrices consisting of polar lipid liquid crystals and hard ordered mesoporous silica matrices. For both types of matrices, the challenge is to control the pore size of the matrices and the interaction with the matrix interface. Here, the polar lipid liquid crystals offer larger flexibility than silica, but on the other hand, it is considerably more sensitive to the environment.

AB - Enzymes have come into use for many new applications outside their natural biological environment, taking advantage of their high efficiency and selectivity as biocatalysts. Such new application often requires encapsulation to preserve the structure and activity of the enzyme, but also to regulate and control the activity. Here, we will discuss two types of encapsulation, soft matrices consisting of polar lipid liquid crystals and hard ordered mesoporous silica matrices. For both types of matrices, the challenge is to control the pore size of the matrices and the interaction with the matrix interface. Here, the polar lipid liquid crystals offer larger flexibility than silica, but on the other hand, it is considerably more sensitive to the environment.

KW - Cubic phase

KW - Enzyme activity

KW - Enzyme encapsulation

KW - Mesoporous silica

KW - Polar lipid liquid crystals

KW - Pore size

U2 - 10.1016/j.cocis.2019.09.007

DO - 10.1016/j.cocis.2019.09.007

M3 - Review article

AN - SCOPUS:85074691860

SN - 1359-0294

VL - 44

SP - 130

EP - 142

JO - Current Opinion in Colloid and Interface Science

JF - Current Opinion in Colloid and Interface Science

ER -

Enzyme encapsulation in nanostructured self-assembled structures: Toward biofunctional supramolecular assemblies

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