Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: EC:3.4.24.64 (
MPP
)
1,876
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Many precursors of mitochondrial proteins are processed in two successive steps by independent matrix peptidases (
MPP
and MIP), whereas others are cleaved in a single step by
MPP
alone. To explain this dichotomy, we have constructed deletions of all or part of the octapeptide characteristic of a twice cleaved precursor (human ornithine transcarbamylase [pOTC]), have exchanged leader peptide sequences between once-cleaved (human methylmalonyl-CoA mutase [pMUT]; yeast F1ATPase beta-subunit [pF1 beta]) and twice-cleaved (pOTC; rat malate dehydrogenase (pMDH); Neurospora ubiquinol-cytochrome c reductase
iron-sulfur subunit
[pFe/S]) precursors, and have incubated these proteins with purified
MPP
and MIP. When the octapeptide of pOTC was deleted, or when the entire leader peptide of a once-cleaved precursor (pMUT or pF1 beta) was joined to the mature amino terminus of a twice-cleaved precursor (pOTC or pFe/S), no cleavage was produced by either protease. Cleavage of these constructs by
MPP
was restored by re-inserting as few as two amino-terminal residues of the octapeptide or of the mature amino terminus of a once-cleaved precursor. We conclude that the mature amino terminus of a twice-cleaved precursor is structurally incompatible with cleavage by
MPP
; such proteins have evolved octapeptides cleaved by MIP to overcome this incompatibility.
...
PMID:Cleavage of precursors by the mitochondrial processing peptidase requires a compatible mature protein or an intermediate octapeptide. 167 32
The nuclear-encoded protein RPS14 (ribosomal protein S14) of rice mitochondria is synthesized in the cytosol as a polyprotein consisting of a large N-terminal domain comprising preSDHB (succinate dehydrogenase B precursor) and the C-terminal RPS14. After the preSDHB-RPS14 polyprotein is transported into the mitochondrial matrix, the protein is processed into three peptides: the N-terminal prepeptide, the
SDHB
domain and the C-terminal mature RPS14. Here we report that the general
MPP
(
mitochondrial processing peptidase
) plays an essential role in processing of the polyprotein. Purified yeast
MPP
cleaved both the N-terminal presequence and the connector region between
SDHB
and RPS14. Moreover, the connector region was processed more rapidly than the presequence. When the site of cleavage between
SDHB
and RPS14 was determined, it was located in an
MPP
processing motif that has also been shown to be present in the N-terminal presequence. Mutational analyses around the cleavage site in the connector region suggested that
MPP
interacts with multiple sites in the region, possibly in a similar manner to the interaction with the N-terminal presequence. In addition,
MPP
preferentially recognized the unfolded structure of preSDHB-RPS14. In mitochondria,
MPP
may recognize the stretched polyprotein during passage of the precursor through the translocational apparatus in the inner membrane, and cleave the connecting region between the
SDHB
and RPS14 domains even before processing of the presequence.
...
PMID:Recognition and processing of a nuclear-encoded polyprotein precursor by mitochondrial processing peptidase. 1545 88
