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Translocation through Membranes

S. Scheiner, Theoretical calculation of energetics of proton translocation through membranes. Methods Enzymol. 127 456 (1986). [Pg.373]

Figure 9. Proposed cyclic mechanism for ATP synthesis by complex V involving all three catalytic sites of F,. In this scheme only the a and p subunits of F, are shown these are connected by a short stalk to F, in the inner membrane. Proton translocation through Fq driven by the proton motive force (AP) causes sequential conformational changes in each of the p-subunits and ATP synthesis as described in the text hexagons, high-affinity sites semicircles, low affinity sites parallelepipeds, intermediate-affinity sites (with no movement of F,). Figure 9. Proposed cyclic mechanism for ATP synthesis by complex V involving all three catalytic sites of F,. In this scheme only the a and p subunits of F, are shown these are connected by a short stalk to F, in the inner membrane. Proton translocation through Fq driven by the proton motive force (AP) causes sequential conformational changes in each of the p-subunits and ATP synthesis as described in the text hexagons, high-affinity sites semicircles, low affinity sites parallelepipeds, intermediate-affinity sites (with no movement of F,).
Vivi-s, E., Brodin, P., and Lebleu, B. A truncated HIV-1 Tat protein basic domain rapidly translocates through the plasma membrane and accumulates in the cell nucleus. J. Biol. Chem. 1997, 272, 16010-16017. [Pg.29]

As mentioned above, transport of siderophores across the cytoplasmic membrane is less specific than the translocation through the outer membrane. In E. coli three different outer membrane proteins (among them FepA the receptor for enterobactin produced by most E. coli strains) recognise siderophores of the catechol type (enterobactin and structurally related compounds), while only one ABC system is needed for the passage into the cytosol. Likewise, OM receptors FhuA, FhuE, and Iut are needed to transport a number of different ferric hydroxamates, whereas the FhuBCD proteins accept a variety of hydroxamate type ligands such as albomycin, ferrichrome, coprogen, aerobactin, shizokinen, rhodotorulic acid, and ferrioxamine B [165,171], For the vast majority of systems, the substrate specificity has not been elucidated, but it can be assumed that many siderophore ABC permeases might be able to transport several different but structurally related substrates. [Pg.311]

As described in Section II,A, gram-positive bacteria have only one membrane (the cytoplasmic membrane). Therefore, the translocation through the Sec pathway directly leads proteins to be secreted (Simonen and Palva, 1993 Nagarajan, 1993). The issue of protein sorting into the cell wall is described in a separate section. [Pg.299]

Wong-Ekkabut, J., Baoukina, S., Triampo, W., Tang, I.M., Tieleman, D.P., Monticelli, L. Computer simulation study of fullerene translocation through lipid membranes. Nat. Nanotechnol. 2008, 3, 363-8. [Pg.18]

Brandt, U. (1997) Proton-translocation by membrane-bound NADH ubiquinone-oxidoreductase (complex I) through redoxgated ligand conduction. Biochim Biophys. Acta 1318, 79-91. Advanced discussion of models for electron movement through Complex I. [Pg.746]

Mitchell, P., and J. Moyle, Stoichiometry of proton translocation through the respiratory chain and adenosine triphosphatase systems of rat liver mitochondria. Nature 208 147, 1965. The initial observations that electron transport moves protons outward across the mitochondrial inner membrane and that ATP hydrolysis does the same. [Pg.328]

Derossi, D., Joliot, A.H., Chassaing, G. and Prochiantz, A. (1994) The third helix of the Antennapedia homeodomain translocates through biological membranes. J. Biol. Chem., 269, 10444-10450. [Pg.330]

Secretory proteins have an N-terminal signal peptide which targets the protein to be synthesized on the rough endoplasmic reticulum (RER). During synthesis it is translocated through the RER membrane into the lumen. Vesicles then bud off from the RER and carry the protein to the Golgi complex, where it becomes glycosylated. Other vesicles then carry it to the plasma membrane. Fusion of these transport vesicles with the plasma membrane then releases the protein to the cell exterior. [Pg.230]

Penicillins have been considered for the inhibition of other bacterial serine enzymes than the DD-peptidases and /3-lactamases. For instance, bacterial signal peptidases (SPases) are essential for cell viability and therefore represent nowadays a class of novel antibacterial target <1998NAT186>. SPases are involved in protein translocation through the cytoplasmic membrane in the final step of the bacterial protein secretion pathway <1997PSC1119>. 5(S)-Stereoisomers of penems have been found to inhibit SPases <1995BML443>. The most potent inhibitors are 5/AV-tricyclic penems <2003S1732>. [Pg.226]

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