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Affinity Two-Phase Partitioning of Liposomes and Membranes

Barinaga-Rementeria Ramírez, Irene LU (2003)
Abstract
Affinity two-phase partitioning based on an immunoaffinity sandwich approach for the rapid and selective purification of membranes is presented in this thesis. The method was developed by studying different parameters governing the affinity partitioning of model membranes. To this end, biotinylated liposomes were used. They specifically distributed to the bottom phase of a poly (ethylene glycol)/dextran two-phase system through interactions with the affinity ligand, NeutrAvidin coupled to dextran. Restrictions of the liposomal biotin-NeutrAvidin affinity interaction in the two-phase system were analysed.



The immunoaffinity sandwich approach exploits the very strong interaction between NeutrAvidin and biotin and the... (More)
Affinity two-phase partitioning based on an immunoaffinity sandwich approach for the rapid and selective purification of membranes is presented in this thesis. The method was developed by studying different parameters governing the affinity partitioning of model membranes. To this end, biotinylated liposomes were used. They specifically distributed to the bottom phase of a poly (ethylene glycol)/dextran two-phase system through interactions with the affinity ligand, NeutrAvidin coupled to dextran. Restrictions of the liposomal biotin-NeutrAvidin affinity interaction in the two-phase system were analysed.



The immunoaffinity sandwich approach exploits the very strong interaction between NeutrAvidin and biotin and the introduction of specific antibodies (a primary and a biotinylated secondary antibody) makes the method highly selective. As an example, caveolae from different sources were purified by affinity-two-phase partitioning, yielding a material of the same or better purity as when purified by standard procedures. The same approach, employing other selective primary antibodies, should facilitate the purification of other membrane fractions. The use of biotinylated secondary antibodies in the immunoaffinity sandwich approach obviates the need of biotinylating each primary antibody for each application, facilitating the general applicability of the method.



A miniaturised version of affinity two-phase partitioning in levitated drops (< 1 µl) was investigated using biotinylated liposomes as model material and NeutrAvidin-dextran as affinity ligand. Several factors affecting the affinity partitioning in a miniature system, including control of evaporation, and addition of minute amounts of material to the drop via special dispensers, were investigated. Phase separation was followed visually by microscopy and phase extraction was performed by specifically made micropipettes. Biotinylated liposomes were partitioned to the PEG-rich phase in the absence of the NeutrAvidin ligand and to the dextran-rich phase in its presence, similarly to their partition in larger systems. This miniaturised technique would allow the separation of membranes from single cells for analysis as well as being suitable for screening of separation conditions. (Less)
Please use this url to cite or link to this publication:
author
supervisor
opponent
  • Docent Veide, Andres
organization
publishing date
type
Thesis
publication status
published
subject
keywords
miniaturised two-phase system, levitated drop, biotin, avidin, antibody, immunoaffinity, purification, rat lung, rat liver, caveolae, membrane, Affinity two-phase partitioning, liposome, Metabolism, Biochemistry, Biokemi, metabolism
pages
154 pages
publisher
Department of Biochemistry, Lund University
defense location
Lund
defense date
2003-09-19 10:15:00
ISBN
91-7422-029-2
language
English
LU publication?
yes
additional info
Article: I. Barinaga-Rementeria Ramírez, I., L. Ekblad, and B. Jergil, Affinity partitioning of biotinylated mixed liposomes: effect of charge on biotin-Neutravidin interaction. J. Chromatogr. B: Biomedical Sciences and Applications, (2000) 743, p: 389-396 Article: II. Barinaga-Rementeria Ramírez, I., S. Mebrahtu, and B. Jergil, Affinity partitioning for membrane purification exploiting the biotin-NeutrAvidin interaction. Model study of mixed liposomes and membranes. J. Chromatogr. A (2002) 971, p:117-127 Article: III. Barinaga-Rementeria Ramírez, I., P. Abedinpour, and B. Jergil. Purification of caveolae by affinity two-phase partitioning usisng biotinylated antibodies and NeutrAvidin-dextran. Submitted Article: IV. Santesson, S., I. Barinaga-Rementeria Ramírez, P. Viberg, B. Jergil, and S. Nilsson. Affinity two-phase partitioning in acoustically levitated drops. Submitted.
id
68105cc8-f9bc-4426-912f-0b39cc6784fd (old id 466057)
date added to LUP
2016-04-04 10:36:18
date last changed
2018-11-21 20:59:44
@phdthesis{68105cc8-f9bc-4426-912f-0b39cc6784fd,
  abstract     = {{Affinity two-phase partitioning based on an immunoaffinity sandwich approach for the rapid and selective purification of membranes is presented in this thesis. The method was developed by studying different parameters governing the affinity partitioning of model membranes. To this end, biotinylated liposomes were used. They specifically distributed to the bottom phase of a poly (ethylene glycol)/dextran two-phase system through interactions with the affinity ligand, NeutrAvidin coupled to dextran. Restrictions of the liposomal biotin-NeutrAvidin affinity interaction in the two-phase system were analysed.<br/><br>
<br/><br>
The immunoaffinity sandwich approach exploits the very strong interaction between NeutrAvidin and biotin and the introduction of specific antibodies (a primary and a biotinylated secondary antibody) makes the method highly selective. As an example, caveolae from different sources were purified by affinity-two-phase partitioning, yielding a material of the same or better purity as when purified by standard procedures. The same approach, employing other selective primary antibodies, should facilitate the purification of other membrane fractions. The use of biotinylated secondary antibodies in the immunoaffinity sandwich approach obviates the need of biotinylating each primary antibody for each application, facilitating the general applicability of the method.<br/><br>
<br/><br>
A miniaturised version of affinity two-phase partitioning in levitated drops (&lt; 1 µl) was investigated using biotinylated liposomes as model material and NeutrAvidin-dextran as affinity ligand. Several factors affecting the affinity partitioning in a miniature system, including control of evaporation, and addition of minute amounts of material to the drop via special dispensers, were investigated. Phase separation was followed visually by microscopy and phase extraction was performed by specifically made micropipettes. Biotinylated liposomes were partitioned to the PEG-rich phase in the absence of the NeutrAvidin ligand and to the dextran-rich phase in its presence, similarly to their partition in larger systems. This miniaturised technique would allow the separation of membranes from single cells for analysis as well as being suitable for screening of separation conditions.}},
  author       = {{Barinaga-Rementeria Ramírez, Irene}},
  isbn         = {{91-7422-029-2}},
  keywords     = {{miniaturised two-phase system; levitated drop; biotin; avidin; antibody; immunoaffinity; purification; rat lung; rat liver; caveolae; membrane; Affinity two-phase partitioning; liposome; Metabolism; Biochemistry; Biokemi; metabolism}},
  language     = {{eng}},
  publisher    = {{Department of Biochemistry, Lund University}},
  school       = {{Lund University}},
  title        = {{Affinity Two-Phase Partitioning of Liposomes and Membranes}},
  url          = {{https://lup.lub.lu.se/search/files/5578262/1693164.pdf}},
  year         = {{2003}},
}