Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex

Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex

Latex tapped from Hevea brasiliensis (rubber tree) contains rubber particles dispersed in C-serum. The spherical Hevea rubber particle can be described as a core of polymer surrounded by a biological membrane made of lipids and proteins. While it is agreed that the particle is made of an hydrophobic core of poly(cis-1,4-isoprene), the structure and composition of its lipid-protein surface membrane is still controversial [1-3]. Two major proteins are abundant at the surface of Hevea rubber particles namely, the rubber elongation factor (HbREF) and the small rubber particle protein (HbSRPP), which are mainly located at the surface of large rubber particles and small rubber particles, respectively [4]. Lipids extracted from rubber particles include phospholipids (PL), glycolipids (GL) and neutral lipids (NL) [5]. Recently, an approach in Langmuir films was applied to study the interactions of recombinant REF and SRPP with synthetic lipids (DMPC and asolectin) [6]. In the present study, we used surface pressure kinetics, ellipsometry, Brewster angle microscopy and polarization-modulation-infrared reflection-adsorption spectroscopy (PM-IRRAS) to investigate the interactions between recombinant REF and SRPP with native lipids extracted and purified from Hevea RRIM600 latex collected in the Chanthaburi province, Thailand. Monolayers of native phospholipids, glycolipids and neutral lipids were successfully formed at the air-water interface. Pure lipid (PL, GL or NL) and mixed lipid-protein Langmuir monolayers were studied. The interactions between REF and SRPP with lipids are completely different. SRPP interacts mostly in surface with all types of lipids (PL, GL or NL), without modification of its secondary structure. In contrast REF inserts deeply in the lipid monolayer with all lipid classes. When it interacts with NL, REF is able to switch from a conformation in a-helices to b-sheet structures, as in its aggregated form (amyloid form) [7]. Interactions between REF and NL may have specific role in the plugging of rubber particles. (Texte intégral)

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Main Authors: Wadeesirisak, Kanthida, Castano, Sabine, Berthelot, Karine, Peruch, Frédéric, Vaysse, Laurent, Bonfils, Frédéric, Ratanaporn, K., Liengprayoon, Siriluck, Bottier, Céline, Lecomte, Sophie
Format: conference_item biblioteca
Language:eng
Published: University of Helsinki
Subjects:Q60 - Traitement des produits agricoles non alimentaires, F60 - Physiologie et biochimie végétale,
Online Access:http://agritrop.cirad.fr/582897/
http://agritrop.cirad.fr/582897/7/582897.pdf
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spelling dig-cirad-fr-5828972024-11-13T17:11:26Z http://agritrop.cirad.fr/582897/ http://agritrop.cirad.fr/582897/ Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex. Wadeesirisak Kanthida, Castano Sabine, Berthelot Karine, Peruch Frédéric, Vaysse Laurent, Bonfils Frédéric, Ratanaporn K., Liengprayoon Siriluck, Bottier Céline, Lecomte Sophie. 2016. In : 16th International Conference on Organized Molecular Films. University of Helsinki, Aalto university, Åbo Akademi, Tampere university of technology. Helsinki : University of Helsinki, Résumé, 58. International Conference on Organized Molecular Films. 16, Helsinki, Finlande, 25 Juillet 2016/29 Juillet 2016. Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex Wadeesirisak, Kanthida Castano, Sabine Berthelot, Karine Peruch, Frédéric Vaysse, Laurent Bonfils, Frédéric Ratanaporn, K. Liengprayoon, Siriluck Bottier, Céline Lecomte, Sophie eng 2016 University of Helsinki 16th International Conference on Organized Molecular Films Q60 - Traitement des produits agricoles non alimentaires F60 - Physiologie et biochimie végétale Latex tapped from Hevea brasiliensis (rubber tree) contains rubber particles dispersed in C-serum. The spherical Hevea rubber particle can be described as a core of polymer surrounded by a biological membrane made of lipids and proteins. While it is agreed that the particle is made of an hydrophobic core of poly(cis-1,4-isoprene), the structure and composition of its lipid-protein surface membrane is still controversial [1-3]. Two major proteins are abundant at the surface of Hevea rubber particles namely, the rubber elongation factor (HbREF) and the small rubber particle protein (HbSRPP), which are mainly located at the surface of large rubber particles and small rubber particles, respectively [4]. Lipids extracted from rubber particles include phospholipids (PL), glycolipids (GL) and neutral lipids (NL) [5]. Recently, an approach in Langmuir films was applied to study the interactions of recombinant REF and SRPP with synthetic lipids (DMPC and asolectin) [6]. In the present study, we used surface pressure kinetics, ellipsometry, Brewster angle microscopy and polarization-modulation-infrared reflection-adsorption spectroscopy (PM-IRRAS) to investigate the interactions between recombinant REF and SRPP with native lipids extracted and purified from Hevea RRIM600 latex collected in the Chanthaburi province, Thailand. Monolayers of native phospholipids, glycolipids and neutral lipids were successfully formed at the air-water interface. Pure lipid (PL, GL or NL) and mixed lipid-protein Langmuir monolayers were studied. The interactions between REF and SRPP with lipids are completely different. SRPP interacts mostly in surface with all types of lipids (PL, GL or NL), without modification of its secondary structure. In contrast REF inserts deeply in the lipid monolayer with all lipid classes. When it interacts with NL, REF is able to switch from a conformation in a-helices to b-sheet structures, as in its aggregated form (amyloid form) [7]. Interactions between REF and NL may have specific role in the plugging of rubber particles. (Texte intégral) conference_item info:eu-repo/semantics/conferenceObject Conference info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/582897/7/582897.pdf text Cirad license info:eu-repo/semantics/restrictedAccess https://agritrop.cirad.fr/mention_legale.html
institution CIRAD FR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cirad-fr
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CIRAD Francia
language eng
topic Q60 - Traitement des produits agricoles non alimentaires
F60 - Physiologie et biochimie végétale
Q60 - Traitement des produits agricoles non alimentaires
F60 - Physiologie et biochimie végétale
spellingShingle Q60 - Traitement des produits agricoles non alimentaires
F60 - Physiologie et biochimie végétale
Q60 - Traitement des produits agricoles non alimentaires
F60 - Physiologie et biochimie végétale
Wadeesirisak, Kanthida
Castano, Sabine
Berthelot, Karine
Peruch, Frédéric
Vaysse, Laurent
Bonfils, Frédéric
Ratanaporn, K.
Liengprayoon, Siriluck
Bottier, Céline
Lecomte, Sophie
Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex
description Latex tapped from Hevea brasiliensis (rubber tree) contains rubber particles dispersed in C-serum. The spherical Hevea rubber particle can be described as a core of polymer surrounded by a biological membrane made of lipids and proteins. While it is agreed that the particle is made of an hydrophobic core of poly(cis-1,4-isoprene), the structure and composition of its lipid-protein surface membrane is still controversial [1-3]. Two major proteins are abundant at the surface of Hevea rubber particles namely, the rubber elongation factor (HbREF) and the small rubber particle protein (HbSRPP), which are mainly located at the surface of large rubber particles and small rubber particles, respectively [4]. Lipids extracted from rubber particles include phospholipids (PL), glycolipids (GL) and neutral lipids (NL) [5]. Recently, an approach in Langmuir films was applied to study the interactions of recombinant REF and SRPP with synthetic lipids (DMPC and asolectin) [6]. In the present study, we used surface pressure kinetics, ellipsometry, Brewster angle microscopy and polarization-modulation-infrared reflection-adsorption spectroscopy (PM-IRRAS) to investigate the interactions between recombinant REF and SRPP with native lipids extracted and purified from Hevea RRIM600 latex collected in the Chanthaburi province, Thailand. Monolayers of native phospholipids, glycolipids and neutral lipids were successfully formed at the air-water interface. Pure lipid (PL, GL or NL) and mixed lipid-protein Langmuir monolayers were studied. The interactions between REF and SRPP with lipids are completely different. SRPP interacts mostly in surface with all types of lipids (PL, GL or NL), without modification of its secondary structure. In contrast REF inserts deeply in the lipid monolayer with all lipid classes. When it interacts with NL, REF is able to switch from a conformation in a-helices to b-sheet structures, as in its aggregated form (amyloid form) [7]. Interactions between REF and NL may have specific role in the plugging of rubber particles. (Texte intégral)
format conference_item
topic_facet Q60 - Traitement des produits agricoles non alimentaires
F60 - Physiologie et biochimie végétale
author Wadeesirisak, Kanthida
Castano, Sabine
Berthelot, Karine
Peruch, Frédéric
Vaysse, Laurent
Bonfils, Frédéric
Ratanaporn, K.
Liengprayoon, Siriluck
Bottier, Céline
Lecomte, Sophie
author_facet Wadeesirisak, Kanthida
Castano, Sabine
Berthelot, Karine
Peruch, Frédéric
Vaysse, Laurent
Bonfils, Frédéric
Ratanaporn, K.
Liengprayoon, Siriluck
Bottier, Céline
Lecomte, Sophie
author_sort Wadeesirisak, Kanthida
title Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex
title_short Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex
title_full Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex
title_fullStr Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex
title_full_unstemmed Rubber particle proteins, HbREF and HbSRPP, interact differently with lipids extracted from RRIM600 H. brasiliensis latex
title_sort rubber particle proteins, hbref and hbsrpp, interact differently with lipids extracted from rrim600 h. brasiliensis latex
publisher University of Helsinki
url http://agritrop.cirad.fr/582897/
http://agritrop.cirad.fr/582897/7/582897.pdf
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AT castanosabine rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT berthelotkarine rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT peruchfrederic rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT vaysselaurent rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT bonfilsfrederic rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT ratanapornk rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT liengprayoonsiriluck rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT bottierceline rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
AT lecomtesophie rubberparticleproteinshbrefandhbsrppinteractdifferentlywithlipidsextractedfromrrim600hbrasiliensislatex
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