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Index of Online Supplemental Material for
J. Cell Biol. 10.1083/jcb.200608128
Kim et al.

• Figure S1 Depletion of cytoplasmic dynein or kinesin stops peroxisome movement.

• Figure S2 Depletion of one motor (kinesin or dynein) does not deplete the other motor of opposite polarity in both total cell extracts and the organelle fraction.

• Figure S3 Kinesin can interact with dynein but not with dynactin.

• Figure S4 Deletion of the microtubule-binding domain of p150^glued does not affect the transport of organelles along microtubules.

• Video 1 EGFP-p150^glued decorates tips and the length of microtubules.

• Video 2 EGFP-p150^glued decorates tips and the length of microtubules.

• Video 3 EGFP-ΔN-p150^glued is distributed randomly in the cytoplasm.

• Video 4 Movement of EGFP-tagged peroxisomes in the processes of an S2 cell treated with cytochalasin D.

• Video 5 Movement of EGFP-tagged peroxisomes in the processes of an S2 cell expressing mRFP-p150^glued.

• Video 6 Movement of EGFP-tagged peroxisomes in the processes of an S2 cell expressing the truncation mutant of p150^glued, mRFP-ΔN-p150^glued.

• Table S1 Effects of motor depletion and p150 truncation on the movement of organelles in S2 cells

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