Abstract
Rat cDNA encoding a 376-amino acid peroxin was isolated by functional complementation of a peroxisome-deficient Chinese hamster ovary cell mutant, ZP110, of complementation group 14 (CG14). The primary sequence showed 28 and 24% amino acid identity with the yeast Pex14p from Hansenula polymorpha and Saccharomyces cerevisiae, respectively; therefore, we termed this cDNA rat PEX14 (RnPEX14). Human and Chinese hamster Pex14p showed 96 and 94% identity to rat Pex14p, except that both Pex14p comprised 377 amino acids. Pex14p was characterized as an integral membrane protein of peroxisomes, exposing its N- and C-terminal parts to the cytosol. Pex14p interacts with both Pex5p and Pex7p, the receptors for peroxisome targeting signal type 1 (PTS1) and PTS2, respectively, together with the receptors' cargoes, PTS1 and PTS2 proteins. Mutation in PEX14 from ZP161, the same CG as ZP110, was determined by reverse transcription-PCR as follows. A 133-base pair deletion at nucleotide residues 37-169 in one allele created a termination codon at 40-42; in addition to this mutation, 103 base pairs were deleted at positions 385-487, resulting in the second termination immediately downstream the second deletion site in the other allele. Neither of these two mutant forms of Pex14p restored peroxisome biogenesis in ZP110 and ZP161, thereby demonstrating PEX14 to be responsible for peroxisome deficiency in CG14.
Highlights
The peroxisome is a ubiquitous, spherical intracellular organelle bounded by a single membrane and with a diameter of 0.1–1 m
The cDNA portion of pBK-CMV1⁄7PAF-4 was sequenced on both strands, indicating that the cDNA was 1,921 bp in length with an open reading frame encoding a protein consisting of 376 amino acids (Fig. 2)
Proper processing of acyl-CoA oxidase (AOx) and thiolase was evident, as assessed by immunoblotting, in 161P14, i.e. ZP161 cells stably transfected with RnPEX14, confirming the restored biogenesis of peroxisomes (Fig. 3C). These results demonstrated that RnPEX14 restored peroxisome biogenesis in ZP110 and ZP161
Summary
The peroxisome is a ubiquitous, spherical intracellular organelle bounded by a single membrane and with a diameter of 0.1–1 m. Genetic heterogeneity has been seen in subjects with these peroxisome-deficient disorders, comprising 12 different complementation groups (CGs) (4 –7). Genetic analyses of peroxisome-deficient mutants of yeast and mammalian cells have led to identification of a number of protein factors essential for peroxisome biogenesis [3, 9]. Cell fusion studies on peroxisome-deficient Chinese hamster ovary (CHO) mutant cell lines (4, 7, 10 –14) and fibroblasts from patients with peroxisomal biogenesis disorders identified 13 CGs (4 –7), including rhizomelic chondrodysplasia punctata manifesting the defect solely in peroxisome-targeting signal type 2 (PTS2) protein import. Human, and Chinese hamster PEX14, which restored peroxisome biogenesis in a CHO cell mutant ZP110, using a genetic complementation cloning strategy [17,18,19,20,21,22]. Pex14p is a peroxisomal integral membrane protein, apparently involved in PTS1 and PTS2 protein import mediated by Pex5p and Pex7p, respectively
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
