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C-terminal polypeptides are necessary and sufficient for in vivo targeting of transiently-expressed proteins to peroxisomes in suspension-cultured plant cells
Authors:R. N. Trelease  M. S. Lee  A. Banjoko  J. Dunkelmann
Affiliation:(1) Department of Botany, Arizona State University, Box 871601, 85287-1601 Tempe, AZ, USA
Abstract:
Summary The potential of tobacco BY-2 suspension-cultured cells for examining in vivo targeting and import of proteins into plant peroxisomes was shown recently in our laboratory. In the current study, the necessity and sufficiency of putative C-terminal targeting signals on cottonseed malate synthase and bacterial chloramphenicol acetyl-transferase (CAT) were examined in BY-2 cells. Cotton suspension cells also were evaluated as another in vivo peroxisome targeting system. Ultrastructural views of BY-2 cells showed that the peroxisomes were relatively small (0.1-0.3 mgrm diameter), a characteristic of so-called ldquounspecializedrdquo peroxisomes, Peroxisomes in cotton and tobacco cells were identified with anti-cottonseed catalase IgGs as distinct immunofluorescent particles clearly distinguishable from abundant immunofluorescent mitochondria and plastids, marked with antibodies to beta-ATPase and stearoyl-ACP Delta 9 desaturase, respectively. The C-terminal ser-lys-leu (SKL) motif is a well-established peroxisome targeting signal (PTS 1) for mammals and yeasts, but not for plants. Antiserum raised against SKL peptides recognized proteins only in peroxisomes in cotton and tobacco cells. The necessity of SKL-COOH for targeting of proteins to plant peroxisomes had not been demonstrated; we showed that SKL-COOH was necessary for directing cottonseed malate synthase to BY-2 peroxisomes. KSRM-COOH, a conservative modification of SKL-COOH, was shown by others to be sufficient for redirecting CAT in stably-transformed Arabidopsis plants to the leaf peroxisomes. Here we show with the same CAT constructs (e.g., pMON316CAT-KSRM) that KSRM is sufficient for targeting transiently-expressed passenger proteins to unspecialized BY-2 peroxisomes. These results provide new direct evidence for the necessity of SKL-COOH (a type 1 PTS) and sufficiency of a conservative modification of the PTS 1 (KSRM-COOH) for in vivo, heterologous targeting of proteins to plant peroxisomes.Abbreviations CAT chloramphenicol acetyltransferase - CHO cells Chinese hamster ovary cells - DAB 3,3prime-diaminobenzidine - GUS beta-glucuronidase - ICL isocitrate lyase - KSRM lysine-serine-arginine-methionine - MS malate synthase - PBS phosphate-buffered saline - PTS peroxisome targeting signal - SKL serine-lysine-leucine - tobacco BY-2 Bright Yellow-2Dedicated to Professor Eldon H. Newcomb in recognition of his contributions to cell biology
Keywords:Chloramphenicol acetyltransferase  Cotton  Malate synthase  Microprojectile bombardment  Peroxisome targeting signals  Suspension-cultured cells  Tobacco
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