Ideum. Scale bars, 10 mm. (B) Immuno-blot loaded with whole cell lysate from untransformed D. discoideum cells (AX2), cells producing EYFP, and EYFP-tagged constructs NTS, NTS RS, NTS 105A, NTS DI2, NTS DI2 RS, and NTS DI2 105A. Similar to NTS, NTS?DRS and NTS 105A undergo processing. Processing is greatly impaired in the case of NTS DI2 RS and NTS DI2 105A. doi:10.1371/journal.pone.0056975.gbalanced charge distribution involving three AN 3199 lysine residues on one face of the helix and two on the opposite face, NTS DI3 is not efficiently targeted to mitochondria (Fig. 3I). To reveal the importance of individual lysine residues in the minimal targeting sequence, we mutated the lysine residues of the NTS DI2 construct to alanine residues. Substitution of lysineresidues 38 and 41 (NTS DI2 2A) with alanine did not interfere with the region’s ability to serve as an MTS (Fig. 4B and Fig. S2B). In contrast, mutation of lysine residues K29, 40, 47, 58, and 61 (NTS DI2 5A) or all seven lysine residues (NTS DI2 7A) led to a complete loss of mitochondrial targeting (Fig. 4B). Next, we checked whether these mutants undergo 1081537 normal processing. AsDictyostelium Mitochondrial Targeting SequenceFigure 6. The dynamin B presequence serves as mitochondrial targeting sequence in mammalian cells. (A) HEK 293T cells producing pTubastatin A site NTS-EGFP (green) and the outer membrane marker protein Tom20 (red). Scale bars, 10 mm. (B) The enlarged merged picture shows that that EGFP signal is surrounded by Tom20 fluorescence. (C) Intact mitochondria from HEK293T cells overexpressing NTS-EGFP were purified, treated with trypsin on ice, separated on 15 SDS-PAGE, blotted and probed with affinity purified mouse anti-GFP antibody, rabbit anti-Tom20, mouse anti-CytC, or rabbit anti-GRoEL. The outer membrane protein Tom20 is digested while NTS-EGFP and the inner membrane protein CytC are unaffected. The matrix protein Hsp60 was used as loading control. To show that processed NTS-EGFP can be digested, detergent-permeabilized mitochondria were trypsin treated. (D) Mitochondrial import by the dynamin B presequence requires an intact mitochondrial inner membrane membrane potential DYm. 10 mM CCCP was added to the cell culture medium 8 hrs post transfection. Next, cells were incubated for 12 hrs in the presence of the H+ -ionophore before fixation. doi:10.1371/journal.pone.0056975.gexpected from the localization studies, DI2 2A undergoes processing, while the non-targeted constructs NTS DI2 5A and NTS DI2 7A are not processed and run as single unprocessed band (Fig. 4C). To establish the importance of the total number of lysine residues and the relation to their specific positions in the formationof a functional MTS, we generated two further constructs containing five lysine residues. In the first construct, we mutated lysines 38 and 40 to alanine residues, which are positioned on opposite faces of the helix (NTS DI2 38A 40A). In the second construct, we mutated lysines 29 and 61 to alanine, which are positioned on the same face (NTS DI2 29A 61A). MutantDictyostelium Mitochondrial Targeting Sequenceconstruct NTS DI2 29A 61A is neither targeted nor processed (Fig. 4B and 4C), while the second construct NTS DI2?K38A 40A with uneven charge distribution is targeted as well as processed (Fig. 4B, 4C and Fig. S2C). Thus, our results suggest that even clusters of four lysine residues are sufficient to maintain an ionic interaction between the N-terminal presequence and components of the mitochondrial i.Ideum. Scale bars, 10 mm. (B) Immuno-blot loaded with whole cell lysate from untransformed D. discoideum cells (AX2), cells producing EYFP, and EYFP-tagged constructs NTS, NTS RS, NTS 105A, NTS DI2, NTS DI2 RS, and NTS DI2 105A. Similar to NTS, NTS?DRS and NTS 105A undergo processing. Processing is greatly impaired in the case of NTS DI2 RS and NTS DI2 105A. doi:10.1371/journal.pone.0056975.gbalanced charge distribution involving three lysine residues on one face of the helix and two on the opposite face, NTS DI3 is not efficiently targeted to mitochondria (Fig. 3I). To reveal the importance of individual lysine residues in the minimal targeting sequence, we mutated the lysine residues of the NTS DI2 construct to alanine residues. Substitution of lysineresidues 38 and 41 (NTS DI2 2A) with alanine did not interfere with the region’s ability to serve as an MTS (Fig. 4B and Fig. S2B). In contrast, mutation of lysine residues K29, 40, 47, 58, and 61 (NTS DI2 5A) or all seven lysine residues (NTS DI2 7A) led to a complete loss of mitochondrial targeting (Fig. 4B). Next, we checked whether these mutants undergo 1081537 normal processing. AsDictyostelium Mitochondrial Targeting SequenceFigure 6. The dynamin B presequence serves as mitochondrial targeting sequence in mammalian cells. (A) HEK 293T cells producing pNTS-EGFP (green) and the outer membrane marker protein Tom20 (red). Scale bars, 10 mm. (B) The enlarged merged picture shows that that EGFP signal is surrounded by Tom20 fluorescence. (C) Intact mitochondria from HEK293T cells overexpressing NTS-EGFP were purified, treated with trypsin on ice, separated on 15 SDS-PAGE, blotted and probed with affinity purified mouse anti-GFP antibody, rabbit anti-Tom20, mouse anti-CytC, or rabbit anti-GRoEL. The outer membrane protein Tom20 is digested while NTS-EGFP and the inner membrane protein CytC are unaffected. The matrix protein Hsp60 was used as loading control. To show that processed NTS-EGFP can be digested, detergent-permeabilized mitochondria were trypsin treated. (D) Mitochondrial import by the dynamin B presequence requires an intact mitochondrial inner membrane membrane potential DYm. 10 mM CCCP was added to the cell culture medium 8 hrs post transfection. Next, cells were incubated for 12 hrs in the presence of the H+ -ionophore before fixation. doi:10.1371/journal.pone.0056975.gexpected from the localization studies, DI2 2A undergoes processing, while the non-targeted constructs NTS DI2 5A and NTS DI2 7A are not processed and run as single unprocessed band (Fig. 4C). To establish the importance of the total number of lysine residues and the relation to their specific positions in the formationof a functional MTS, we generated two further constructs containing five lysine residues. In the first construct, we mutated lysines 38 and 40 to alanine residues, which are positioned on opposite faces of the helix (NTS DI2 38A 40A). In the second construct, we mutated lysines 29 and 61 to alanine, which are positioned on the same face (NTS DI2 29A 61A). MutantDictyostelium Mitochondrial Targeting Sequenceconstruct NTS DI2 29A 61A is neither targeted nor processed (Fig. 4B and 4C), while the second construct NTS DI2?K38A 40A with uneven charge distribution is targeted as well as processed (Fig. 4B, 4C and Fig. S2C). Thus, our results suggest that even clusters of four lysine residues are sufficient to maintain an ionic interaction between the N-terminal presequence and components of the mitochondrial i.
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