F. Palmieri scite author profile

We have investigated the transmembrane topology of the bovine heart mitochondrial porin by means of proteases and antibodies raised against the amino-terminal region of the protein. The antisera against the human N-terminus reacted with porin in Western blots of NaDodSO4-solubilized bovine heart mitochondria and with the membrane-bound porin in enzyme-linked immunosorbent assay (ELISA). The immunoreaction with mitochondria coated on microtiter wells showed that the amino-terminal region of the protein is not embedded in the lipid bilayer but is exposed to the cytosol. Back-titration of unreacted anti-N-terminal antibodies after their incubation with intact mitochondria demonstrated that the porin N-terminus is also exposed in "noncoated" mitochondria. No difference in antisera reactivity was observed between intact and broken mitochondria. Intact and broken mitochondria were subjected to proteolysis by specific proteases. The membrane-bound bovine heart porin was strongly resistant to proteolysis, but a few specific cleavage sites were observed. Staphylococcus aureus V8 protease gave a large 24K N-terminal peptide, trypsin produced a 12K N-terminal and an 18K C-terminal peptide, and chymotrypsin gave two peptides of Mr 19.5K and 12.5K, which were both recognized by the antiserum against the human N-terminus. Carboxypeptidase A was ineffective in cleaving the membrane-bound porin in both intact and broken mitochondria. Thus, the carboxy-terminal part of the protein is probably not exposed to the water phase. The cleavage patterns of membrane-bound porin, obtained with S. aureus V8 protease, trypsin, and chymotrypsin, showed no difference between intact and broken mitochondria, thus indicating that all porin molecules have the same orientation in the membrane. The computer analysis of the sequence of human B-lymphocyte porin suggested that 16 beta-strands can span the phospholipid bilayer. This result, together with the overall information presented, allowed us to draw a possible scheme of the transmembrane arrangement of mammalian mitochondrial porin.

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The mitochondrial phosphate carrier has an essential requirement for cardiolipin

Kadenbach

et al. 1982

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Transmembrane topography of the mitochondrial phosphate carrier explored by peptide-specific antibodies and enzymic digestion

Capobianco¹,

Brandolin²,

Palmieri³

1991

Biochemistry

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Two peptides corresponding to the amino acid sequences 1-10 (N-terminal peptide) and 303-313 (C-terminal peptide) of the bovine heart mitochondrial phosphate carrier have been synthesized. After being coupled to ovalbumin, they were injected into rabbits to raise polyclonal antibodies. The specificity of the generated antibodies was tested by enzyme-linked immunosorbent assay (ELISA) and/or Western blot. Anti-N-terminal antibodies and anti-C-terminal antibodies exclusively reacted with the corresponding terminal peptide, they also reacted with the isolated phosphate carrier as well as with the phosphate carrier protein in mitochondrial lysates. Both anti-N-terminal and anti-C-terminal antibodies bound to freeze-thawed mitochondria, indicating that both termini of the membrane-bound phosphate carrier are exposed to the cytoplasmic side of the inner mitochondrial membrane. These immunological data were complemented with results concerning enzymatic cleavage of the membrane-bound phosphate carrier by carboxypeptidase A and by an arginine-specific endoprotease. Carboxypeptidase A markedly decreased the binding of anti-C-terminal antibodies to phosphate carrier in freeze-thawed mitochondria. Arg-endoprotease cleaved the phosphate carrier in inside-out submitochondrial particles, but not in right-side-out particles, yielding two fragments of similar apparent molecular weight (Mr approximately equal to 14.5K), which were immunodetected only by the anti-N-terminal antiserum, and a fragment of Mr approximately equal to 17K which was detected only by the anti-C-terminal antiserum. It appears, therefore, that Arg-endoprotease cleavage sites of the phosphate carrier are present only at the matrix side of the inner mitochondrial membrane, at Arg-140 and/or Arg-152.(ABSTRACT TRUNCATED AT 250 WORDS)

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Purification and Characterization of the Tricarboxylate Carrier from Eel Liver Mitochondria

Zara

Iacobazzi

Siculella

et al. 1996

Biochemical and Biophysical Research Communications

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Purification of the active mitochondrial tricarboxylate carrier by hydroxylapatite chromatography

Stipani

Palmieri

1983

FEBS Letters

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The mitochondrial tricarboxylate carrier has been extracted from rat liver mitochondria or SMP with Triton X-100, in the presence of 1,2,3-BTA and DPG, and partially purified by chromatography on HTP. The purified fraction, which also contains the ADP/ATP carrier and the phosphate carrier, after inco~oration into liposomes catalyzes a 1,2,3-BTA-sensitive ~14C]citrate/citrate exchange. The tissue and substrate specificity, the inhibitor sensitivity and the kinetic properties of citrate transport in liposomes are similar to those described for the citrate transport in mitochondria, The maximal rate of citrate exchange in the reconstituted system is 338 pmol.min-' *g protein-', at 3O'C and pH 7.0. Tricarboxylate carrier MitochondriaHydroxylapatite Reconstitution Membrane transport

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F. Palmieri

Peptide-specific antibodies and proteases as probes of the transmembrane topology of the bovine heart mitochondrial porin

The mitochondrial phosphate carrier has an essential requirement for cardiolipin

Transmembrane topography of the mitochondrial phosphate carrier explored by peptide-specific antibodies and enzymic digestion

Purification and Characterization of the Tricarboxylate Carrier from Eel Liver Mitochondria

Purification of the active mitochondrial tricarboxylate carrier by hydroxylapatite chromatography

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