Exploring the properties of genetically engineered silk-elastin-like protein films

Raul MacHado; André Da Costa; Vitor Sencadas; Ana Margarida Pereira; Tony Collins; José Carlos Rodríguez-Cabello; Senentxu Lanceros-Méndez; Margarida Casal

doi:10.1002/mabi.201500132

Exploring the properties of genetically engineered silk-elastin-like protein films

Raul MacHado^*, André Da Costa, Vitor Sencadas, Ana Margarida Pereira, Tony Collins, José Carlos Rodríguez-Cabello, Senentxu Lanceros-Méndez, Margarida Casal

^*Autor correspondente para este trabalho

Resultado de pesquisa › revisão de pares

22 Citações (Scopus)

Resumo

Free standing films of a genetically engineered silk-elastin-like protein (SELP) were prepared using water and formic acid as solvents. Exposure to methanol-saturated air promoted the formation of aggregated β-strands rendering aqueous insolubility and improved the mechanical properties leading to a 10-fold increase in strain-to-failure. The films were optically clear with resistivity values similar to natural rubber and thermally stable up to 180°C. Addition of glycerol showed to enhance the flexibility of SELP/glycerol films by interacting with SELP molecules through hydrogen bonding, interpenetrating between the polymer chains and granting more conformational freedom. This detailed characterization provides cues for future and unique applications using SELP based biopolymers.

Idioma original	English
Páginas (de-até)	1698-1709
Número de páginas	12
Revista	Macromolecular Bioscience
Volume	15
Número de emissão	12
DOIs	https://doi.org/10.1002/mabi.201500132
Estado da publicação	Publicado - 1 dez. 2015
Publicado externamente	Sim

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10.1002/mabi.201500132

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Citação

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title = "Exploring the properties of genetically engineered silk-elastin-like protein films",

abstract = "Free standing films of a genetically engineered silk-elastin-like protein (SELP) were prepared using water and formic acid as solvents. Exposure to methanol-saturated air promoted the formation of aggregated β-strands rendering aqueous insolubility and improved the mechanical properties leading to a 10-fold increase in strain-to-failure. The films were optically clear with resistivity values similar to natural rubber and thermally stable up to 180°C. Addition of glycerol showed to enhance the flexibility of SELP/glycerol films by interacting with SELP molecules through hydrogen bonding, interpenetrating between the polymer chains and granting more conformational freedom. This detailed characterization provides cues for future and unique applications using SELP based biopolymers.",

keywords = "Biopolymers, Characterization, Films, Proteins, Silk-elastin-like",

author = "Raul MacHado and {Da Costa}, Andr{\'e} and Vitor Sencadas and Pereira, {Ana Margarida} and Tony Collins and Rodr{\'i}guez-Cabello, {Jos{\'e} Carlos} and Senentxu Lanceros-M{\'e}ndez and Margarida Casal",

note = "Funding Information: This work was supported by FCT/MEC through Portuguese funds (PIDDAC) - PEst-OE/BIA/UI4050/2014 and by FCT I.P. through the strategic funding UID/BIA/04050/ 2013. The authors also thank support from the COST Action MP1206 {"}Electrospun Nano-fibres for bio inspired composite materials and innovative industrial applications{"} and MP1301 {"}New Generation Biomimetic and Customized Implants for Bone Engineering{"}. Authors also acknowledge the Spanish Minister of Economy and Competitiveness (MAT2013-41723-R y MAT201342473-R, PRI-PIBAR-2011-1403, and MAT2012-38043) and Juntade Castilla y Le on-JCyL (VA049A11, VA152A12-2 and VA155A12-2), Spain. TC is thankful to the FCT for its support through Programa C{\^i}encia 2008. RMachado, ACosta and VSencadas acknowledge FCT for SFRH-BPD/86470/2012, SFRH/BD/75882/2011 and SFRH/BPD/ 63148/2009 grants, respectively. Publisher Copyright: {\textcopyright} 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.",

year = "2015",

month = dec,

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doi = "10.1002/mabi.201500132",

language = "English",

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T1 - Exploring the properties of genetically engineered silk-elastin-like protein films

AU - MacHado, Raul

AU - Da Costa, André

AU - Sencadas, Vitor

AU - Pereira, Ana Margarida

AU - Collins, Tony

AU - Rodríguez-Cabello, José Carlos

AU - Lanceros-Méndez, Senentxu

AU - Casal, Margarida

N1 - Funding Information: This work was supported by FCT/MEC through Portuguese funds (PIDDAC) - PEst-OE/BIA/UI4050/2014 and by FCT I.P. through the strategic funding UID/BIA/04050/ 2013. The authors also thank support from the COST Action MP1206 "Electrospun Nano-fibres for bio inspired composite materials and innovative industrial applications" and MP1301 "New Generation Biomimetic and Customized Implants for Bone Engineering". Authors also acknowledge the Spanish Minister of Economy and Competitiveness (MAT2013-41723-R y MAT201342473-R, PRI-PIBAR-2011-1403, and MAT2012-38043) and Juntade Castilla y Le on-JCyL (VA049A11, VA152A12-2 and VA155A12-2), Spain. TC is thankful to the FCT for its support through Programa Cîencia 2008. RMachado, ACosta and VSencadas acknowledge FCT for SFRH-BPD/86470/2012, SFRH/BD/75882/2011 and SFRH/BPD/ 63148/2009 grants, respectively. Publisher Copyright: © 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

PY - 2015/12/1

Y1 - 2015/12/1

N2 - Free standing films of a genetically engineered silk-elastin-like protein (SELP) were prepared using water and formic acid as solvents. Exposure to methanol-saturated air promoted the formation of aggregated β-strands rendering aqueous insolubility and improved the mechanical properties leading to a 10-fold increase in strain-to-failure. The films were optically clear with resistivity values similar to natural rubber and thermally stable up to 180°C. Addition of glycerol showed to enhance the flexibility of SELP/glycerol films by interacting with SELP molecules through hydrogen bonding, interpenetrating between the polymer chains and granting more conformational freedom. This detailed characterization provides cues for future and unique applications using SELP based biopolymers.

AB - Free standing films of a genetically engineered silk-elastin-like protein (SELP) were prepared using water and formic acid as solvents. Exposure to methanol-saturated air promoted the formation of aggregated β-strands rendering aqueous insolubility and improved the mechanical properties leading to a 10-fold increase in strain-to-failure. The films were optically clear with resistivity values similar to natural rubber and thermally stable up to 180°C. Addition of glycerol showed to enhance the flexibility of SELP/glycerol films by interacting with SELP molecules through hydrogen bonding, interpenetrating between the polymer chains and granting more conformational freedom. This detailed characterization provides cues for future and unique applications using SELP based biopolymers.

KW - Biopolymers

KW - Characterization

KW - Films

KW - Proteins

KW - Silk-elastin-like

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U2 - 10.1002/mabi.201500132

DO - 10.1002/mabi.201500132

M3 - Article

C2 - 26214274

AN - SCOPUS:84954468665

SN - 1616-5187

VL - 15

SP - 1698

EP - 1709

JO - Macromolecular Bioscience

JF - Macromolecular Bioscience

IS - 12

ER -

Exploring the properties of genetically engineered silk-elastin-like protein films

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