Abstract

We isolated the first membrane-bound type 2C serine/threonine protein phosphatase from the ciliated protozoan Paramecium tetraurelia (PtPP2C). Three isozymes of 33, 32, and 31 kDa with a specific activity of 1 mumol.min-1.mg1 were purified from the ciliary membrane. All enzymatic properties including (a) insensitivity toward inhibitors of other protein phosphatase families such as okadaic acid and microcystin, (b) absolute requirement for divalent cations, and (c) substrate specificity tested with synthetic phosphopeptides were identical to mammalian PP2C enzymes and identified the PtPP2C as a canonical PP2C in spite of it being about 25% smaller. The NH2-terminal was blocked. Microsequencing of six tryptic peptides established a relationship to other PP2C enzymes. The PtPP2C gene was obtained using degenerate oligonucleotide primers and the polymerase chain reaction. The gene coded for a 33-kDa protein with 300 amino acids and had an (A+T) content of 62%, typical for this protozoan. Nine of 15 Gln residues are encoded by TAA, a universal stop codon which codes for Gln in Paramecium. A large truncation at the COOH-terminal is responsible for the smaller size of the PtPP2C. Only a single transcript of 1 kilobase was detected with a Northern blot indicating that the 32- and 31-kDa proteins were proteolytic products of the 33-kDa enzyme. Sequence comparisons with PP2C enzymes from rat, rabbit, yeast, Arabidopsis, and Leishmania defined a highly diverged enzyme family which shares three conserved domains, I, II, and III, accounting for about 25% of the primary structure. We demonstrated further that the distances between domains I/II and II/III are very similar in all PP2C enzymes (9-13 and 74-80 amino acids, respectively). However, the amino acid sequences of the spacer regions are unrelated. In addition, the COOH-terminal ends of 100-200 amino acids which comprise 30-50% of the enzyme, display no identity. A dendrogramm shows that PtPP2C surprisingly is most closely related to the mammalian PP2C, and enzymes from Leishmania, Arabidopsis, and yeast are more distant relatives.

Highlights

  • We isolated the first membrane-bound type 2C serine/ The majority of all serinelthreonine-specific protein phosthreonineproteinphosphatase fromthe ciliated protozoan phatases have been divided into four major groups (1).This

  • We demonstrated further thatthe distances be- parities of PP2C enzymes from various organisms may tween domainsMI and II/IIIare very similarin all PP2C indicate a functional diversity of this subclass

  • In addition,the COOH-terminalends of 100-200 amino acids which comp3ri0se40%of the enzyme, display no identity.A dendrogramm showsthat PtPP2C surprisingly is most closelyrelated to the mammalian PP2C, and enzymesfrom Leishmania, Arabidopsis, and yeast are astounding wide range (8).We report thebiochemical isolation, enzymatic characterization, andcloning from cDNA of a novel, smaller PP2C localized to a substantial extent to thecilia, the highly specialized motile organelle of the protozoan Purumecium tetruureliu.Evaluation of the data sheds lighotn a group more distant relatives

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Summary

A Membrane-boundProtein PhosphataseType 2C from Paramecium tetraurelia

(Received for publication, August 1, 1994, and in revised form, September 9, 1994). Susanne Klumpp, Cordula Hanke, Manna Donella-Deana+,Angelika Beyer, Roland KellnerB, Lorenzo A. The data rea 33-kDa protein with 300 amino acidsand had an (A+T) vealed that PP1 enzymes which contain about320 amino acids content of 62%, typical forthis protozoan. The extent of overall conseryeast, Arabidopsis, and Leishmania defined a highly di- vation among PP2C enzymes from different phyla for which verged enzyme family which shares three conserved do- sequence data are available is smaller than within the other mains, I, 11,and III,accounting for ab2o5u%t otfhe primary protein phosphatase families. In addition,the COOH-terminalends of 100-200 amino acids which comp3ri0se40%of the enzyme, display no identity.A dendrogramm showsthat PtPP2C surprisingly is most closelyrelated to the mammalian PP2C, and enzymesfrom Leishmania, Arabidopsis, and yeast are astounding wide range (8).We report thebiochemical isolation, enzymatic characterization, andcloning from cDNA of a novel, smaller PP2C localized to a substantial extent to thecilia, the highly specialized motile organelle of the protozoan Purumecium tetruureliu.Evaluation of the data sheds lighotn a group more distant relatives.

EXPERIMENTAL PROCEDURES
14 AFLEDFFTSTEPQXQPGENL
Findings
DISCUSSION

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