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Dynamics and flexibility of the SecYEG translocation channel

(2011) Bonardi, Francesco

Every form of life requires the presence of a lipid membrane to separate the interior aqueous compartment from the external environment and to ensure proper functioning of the cell. The lipid bilayer functions as a hydrophobic matrix embedding integral membrane proteins, but it acts also as an active barrier that controls the permeation of small and large molecules entering or leaving the cell. Transport across the lipid membrane is mediated by integral membrane proteins, which allow for the selective permeability of the membrane. In Escherichia coli, about 30% of the proteins synthesized in the cell accomplish their function outside the cytoplasm. For this reason, every cell contains dedicated transport systems that translocate or insert proteins across or into the cytoplasmic membrane. In bacteria, the main system is termed the Sec translocase, with as its central component a membrane-embedded protein-conducting channel, the SecYEG complex (also termed translocon). This thesis focuses on the bacterial translocon and employs organic synthetic chemistry to provide new functionalities to the translocation channel and to substrate proteins in order to obtain a detailed understanding of the functional aspects of the SecYEG channel.

	Thesis
	Nederlandse samenvatting

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http://irs.ub.rug.nl/ppn/331769638

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ID	35814
Moeder ID	35723
Volgorde	bonardi.f.
Naam	f.bonardi
Publiceren	yes
Embargo t/m	0000-01-01
OAI-naam	Dissertation
Path	faculties/science/2011/f.bonardi/
Naam Cover	vp.jpg
Gemaakt op:	2011-01-31 07:56:36
Gemodificeerd op:	2013-02-15 14:28:01
Digitaal ID	4d466b3459d91
Instelling	Faculty of Mathematics and Natural Sciences
Plaats van uitgifte	Groningen
Onderzoeksinstelling	GBB
Datum promotie	2011-02-28
Datum beschikbaarstelling	2011-02-28
Titel	Dynamics and flexibility of the SecYEG translocation channel
Titelvolgorde	Dynamics and flexibility of the SecYEG translocation channel
Elektronisch	yes
Ruilverkeer mogelijk	no
Printen in opdracht	no
Exporteer?	no
Aantal pagina's	147
Publicatiejaar	2011
Taal	en
Type	Dissertation
Samenvatting EN	Every form of life requires the presence of a lipid membrane to separate the interior aqueous compartment from the external environment and to ensure proper functioning of the cell. The lipid bilayer functions as a hydrophobic matrix embedding integral membrane proteins, but it acts also as an active barrier that controls the permeation of small and large molecules entering or leaving the cell. Transport across the lipid membrane is mediated by integral membrane proteins, which allow for the selective permeability of the membrane. In Escherichia coli, about 30% of the proteins synthesized in the cell accomplish their function outside the cytoplasm. For this reason, every cell contains dedicated transport systems that translocate or insert proteins across or into the cytoplasmic membrane. In bacteria, the main system is termed the Sec translocase, with as its central component a membrane-embedded protein-conducting channel, the SecYEG complex (also termed translocon). This thesis focuses on the bacterial translocon and employs organic synthetic chemistry to provide new functionalities to the translocation channel and to substrate proteins in order to obtain a detailed understanding of the functional aspects of the SecYEG channel.
Uitgever	University of Groningen
Relatie URI	http://www.rug.nl/
Rechten	University of Groningen
PPN	331769638
ISBN	9789036747998;
Trefwoord GOO	celbiologie en celfysiologie; Membranen; SecA protein; Translocatie; Transporteiwitten; Proefschriften (vorm);
Trefwoord NBC	cytologi;
Auteur	Bonardi, Francesco;
Promotors	Driessen A.J.M.;

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Dynamics and flexibility of the SecYEG translocation channel