PTS1, peroxisomal targeting signal 1, is one of two peroxisomal import signals which direct proteins into the lumen (matrix) of the peroxisome, the other being PTS2. A third signal is used to target peroxisomal membrane proteins.
PTS1 was first clearly defined by
Gould,1989 following earlier work from the same group. Reviews of peroxisome biogenesis and import include
Kunau,2001,
Purdue,2001,
Terlecky,2000,
Holroyd,2001,
Subramani,2000 and
Fujiki,2000.
The functions of peroxisomes vary in different cell types or organisms and some specialised peroxisomes have other names. A generic term for all these organelles is microbody. Glyoxysomes provide the glycolytic cycle in germinating plant seeds. Glycosomes perform glycolysis in trypanosomatids. Cholesterol synthesis occurs in animal peroxisomes. Two widely conserved functions are H2O2-based respiration and beta-oxidation of fatty acids.
Pex5p (Peroxin 5) protein is the receptor for PTS1 (
P50542). It imports folded proteins (and probably even imports pre-assembled complexes since some peroxisomal proteins lack obvious PTS signals). The import machinery is clearly complex and Pex5p interacts with several other proteins involved in peroxisome import, including Pex8p, 10p, 12p, 13p, 14p. During import, Pex5p is thought to shuttle between the cytosol and the peroxisomal matrix. Earlier names for Pex5p are Pas8 and Pxr1. A structure of the Pex5p-PTS1 complex (
1FCH) has been solved (
Gatto GJ,2000). Pex5p has 6 rod-forming TPR (tetratricopeptide) repeats, split 3-3, which fold at a hinge region to sandwich PTS1 in a cleft. The structure shows many details of the molecular recognition of PTS1 by Pex5p, including tight interaction with the C-terminal carboxyl group.
The presence of PTS1 on a protein does not exclude alternative cellular locations, particularly in the cytoplasm or mitochondrion. For example mitochondria and peroxisomes have partially duplicated lipid biochemistry. Several proteins are targeted to both mitochondria and peroxisomes, either because of alternatively-spliced gene products or because both targeting signals are present on the same protein.
Mutations in Pex5p define complementation group 2 of the peroxisome biogenesis disorders (PBDs), such as Zellweger syndrome (see
OMIM:214100 ,
OMIM:600414 ,
OMIM:202370 ). These disorders are characterised by an absence of peroxisomes, multiple enzymatic deficiencies and physical malformation.
The classical PTS1 motif is SKL,ドル with similar residues tolerated at each position. It has also been noted that PTS1s lacking the positively charged residue are then preceded by a K or R, presumably in binding affinity compensation, e.g. KANL$ is the PTS1 in human catalase. The current pattern will detect most examples in any eukaryote. There is no strong taxonomic divergence (as of 2002) although there may be scope for some future revision of the pattern. For example, Ala in the third (Leu) position has been seen in one or two yeast candidate PTS1s. See also the following PROSITE entry for PTS1:
PS00342.