BRENDA - Enzyme Database show
show all sequences of 3.4.21.92

New insights into the ATP-dependent Clp protease: Escherichia coli and beyond

Porankiewicz, J.; Wang, J.; Clarke, A.K.; Mol. Microbiol. 32, 449-458 (1999)

Data extracted from this reference:

Cloned(Commentary)
Commentary
Organism
Clp sequenced
Aquifex aeolicus
Clp sequenced
Bacillus subtilis
Clp sequenced
Bordetella pertussis
Clp sequenced
Borreliella burgdorferi
Clp sequenced
Caulobacter vibrioides
Clp sequenced
Chlamydia trachomatis
Clp sequenced
Chlamydomonas moewusii
Clp sequenced
Chlamydomonas reinhardtii
Clp sequenced
Chlorella vulgaris
Clp sequenced
Chlorobaculum tepidum
Clp sequenced
Clostridium acetobutylicum
Clp sequenced
Deinococcus radiodurans
Clp sequenced
Enterococcus faecalis
Clp sequenced
Epifagus virginiana
Clp sequenced
Haemophilus influenzae
Clp sequenced
Helicobacter pylori
Clp sequenced
Lactococcus lactis
Clp sequenced
Listeria monocytogenes
Clp sequenced
Marchantia polymorpha
Clp sequenced
Myxococcus xanthus
Clp sequenced
Nicotiana tabacum
Clp sequenced
Oryza sativa
Clp sequenced
Paracoccus denitrificans
Clp sequenced
Pinus contorta
Clp sequenced
Pinus thunbergii
Clp sequenced
Porphyromonas gingivalis
Clp sequenced
Pseudomonas aeruginosa
Clp sequenced
Rhodobacter capsulatus
Clp sequenced
Shewanella putrefaciens
Clp sequenced
Streptococcus pyogenes
Clp sequenced
Streptococcus salivarius
Clp sequenced
Streptomyces coelicolor
Clp sequenced
Synechococcus sp.
Clp sequenced
Treponema pallidum
Clp sequenced
Triticum aestivum
Clp sequenced
Zea mays
Clp sequenced, nuclear encoded gene
Arabidopsis thaliana
Clp sequenced, nuclear encoded gene
Caenorhabditis elegans
Clp sequenced, nuclear encoded gene
Fritillaria agrestis
Clp sequenced, nuclear encoded gene
Homo sapiens
Clp sequenced, nuclear encoded gene
Mus musculus
Clp sequenced, nuclear encoded gene
Populus tremula
Clp sequenced, nuclear encoded gene
Solanum lycopersicum
Clp sequenced, plastid encoded gene
Cyanophora paradoxa
Clp sequenced; Clp sequenced
Yersinia enterocolitica
clpP gene detected
Salmonella enterica subsp. enterica serovar Typhimurium
Crystallization (Commentary)
Crystallization
Organism
-
Escherichia coli
Localization
Localization
Commentary
Organism
GeneOntology No.
Textmining
mitochondrion
-
Caenorhabditis elegans
5739
-
mitochondrion
-
Populus tremula
5739
-
mitochondrion
-
Mus musculus
5739
-
mitochondrion
-
Homo sapiens
5739
-
plastid
-
Chlamydomonas moewusii
9536
-
plastid
-
Chlorella vulgaris
9536
-
plastid
-
Epifagus virginiana
9536
-
plastid
-
Fritillaria agrestis
9536
-
plastid
-
Marchantia polymorpha
9536
-
plastid
-
Nicotiana tabacum
9536
-
plastid
-
Oryza sativa
9536
-
plastid
-
Pinus contorta
9536
-
plastid
-
Pinus thunbergii
9536
-
plastid
-
Solanum lycopersicum
9536
-
plastid
-
Triticum aestivum
9536
-
plastid
-
Zea mays
9536
-
Metals/Ions
Metals/Ions
Commentary
Organism
Structure
Mg2+
ClpA degrades large proteins down to short peptides of 7 to 10 amino acids, the process requires both Mg2+ and ATP hydrolysis
Escherichia coli
Natural Substrates/ Products (Substrates)
Natural Substrates
Organism
Commentary (Nat. Sub.)
Natural Products
Commentary (Nat. Pro.)
Organism (Nat. Pro.)
Reversibility
additional information
Bacillus subtilis
ClpP linked to many activities, including sporulation, cell competence, stress tolerance and regulation of gene expression
?
-
Bacillus subtilis
?
additional information
Escherichia coli
removing of irreversibly damaged polypeptides
?
-
Escherichia coli
?
Organism
Organism
Primary Accession No. (UniProt)
Commentary
Textmining
Aquifex aeolicus
O67357
-
-
Arabidopsis thaliana
P56772
-
-
Arabidopsis thaliana
Q787X4
-
-
Bacillus subtilis
P80244
-
-
Bordetella pertussis
-
-
-
Borreliella burgdorferi
O51698
-
-
Caenorhabditis elegans
Q27539
-
-
Caulobacter vibrioides
B8GX16
-
-
Chlamydia trachomatis
P38002
-
-
Chlamydomonas moewusii
P42379
-
-
Chlamydomonas reinhardtii
P42380
-
-
Chlorella vulgaris
P56317
-
-
Chlorobaculum tepidum
-
-
-
Clostridium acetobutylicum
-
-
-
Cyanophora paradoxa
Q36863
-
-
Deinococcus radiodurans
-
-
-
Enterococcus faecalis
-
-
-
Epifagus virginiana
P30063
-
-
Escherichia coli
-
-
-
Fritillaria agrestis
O49081
-
-
Haemophilus influenzae
P43867
-
-
Helicobacter pylori
-
-
-
Homo sapiens
Q16740
-
-
Lactococcus lactis
Q9ZAB0
-
-
Listeria monocytogenes
-
-
-
Marchantia polymorpha
P12208
-
-
Mus musculus
O88696
-
-
Mycobacterium tuberculosis
P9WPC5 and P9WPC3
-
-
Mycobacterium tuberculosis H37Rv
P9WPC5 and P9WPC3
-
-
Myxococcus xanthus
-
-
-
Nicotiana tabacum
P12210
tobacco
-
Oryza sativa
P0C312
rice
-
Paracoccus denitrificans
P54414
-
-
Pinus contorta
P36387
-
-
Pinus thunbergii
P41609
-
-
Populus tremula
-
x tremuloides
-
Porphyromonas gingivalis
-
-
-
Pseudomonas aeruginosa
-
-
-
Rhodobacter capsulatus
-
-
-
Salmonella enterica subsp. enterica serovar Typhimurium
-
-
-
Shewanella putrefaciens
-
-
-
Solanum lycopersicum
Q42886
-
-
Streptococcus pyogenes
-
-
-
Streptococcus salivarius
P36398
-
-
Streptomyces coelicolor
-
-
-
Synechococcus sp.
O34125
strain PCC 7942-2
-
Synechococcus sp.
P54415
strain PCC 7942-1
-
Synechococcus sp.
-
strain PCC 7942-3
-
Synechocystis sp.
P54416
strain PCC 6803-1
-
Synechocystis sp.
P74467
strain PCC 6803-3
-
Synechocystis sp.
Q59993
strain PCC 6803-2
-
Treponema pallidum
O84003
-
-
Triticum aestivum
P24064
-
-
Yersinia enterocolitica
O30612
-
-
Yersinia enterocolitica
Q60107
-
-
Zea mays
P12340
corn, maize
-
Substrates and Products (Substrate)
Substrates
Commentary Substrates
Literature (Substrates)
Organism
Products
Commentary (Products)
Literature (Products)
Organism (Products)
Reversibility
additional information
ClpP linked to many activities, including sporulation, cell competence, stress tolerance and regulation of gene expression
653260
Bacillus subtilis
?
-
653260
Bacillus subtilis
?
additional information
removing of irreversibly damaged polypeptides
653260
Escherichia coli
?
-
653260
Escherichia coli
?
Cofactor
Cofactor
Commentary
Organism
Structure
ATP
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP
Bacillus subtilis
ATP
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP
Escherichia coli
ATP
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP
Yersinia enterocolitica
Cloned(Commentary) (protein specific)
Commentary
Organism
Clp sequenced
Aquifex aeolicus
Clp sequenced
Bacillus subtilis
Clp sequenced
Bordetella pertussis
Clp sequenced
Borreliella burgdorferi
Clp sequenced
Caulobacter vibrioides
Clp sequenced
Chlamydia trachomatis
Clp sequenced
Chlamydomonas moewusii
Clp sequenced
Chlamydomonas reinhardtii
Clp sequenced
Chlorella vulgaris
Clp sequenced
Chlorobaculum tepidum
Clp sequenced
Clostridium acetobutylicum
Clp sequenced
Deinococcus radiodurans
Clp sequenced
Enterococcus faecalis
Clp sequenced
Epifagus virginiana
Clp sequenced
Haemophilus influenzae
Clp sequenced
Helicobacter pylori
Clp sequenced
Lactococcus lactis
Clp sequenced
Listeria monocytogenes
Clp sequenced
Marchantia polymorpha
Clp sequenced
Myxococcus xanthus
Clp sequenced
Nicotiana tabacum
Clp sequenced
Oryza sativa
Clp sequenced
Paracoccus denitrificans
Clp sequenced
Pinus contorta
Clp sequenced
Pinus thunbergii
Clp sequenced
Porphyromonas gingivalis
Clp sequenced
Pseudomonas aeruginosa
Clp sequenced
Rhodobacter capsulatus
Clp sequenced
Shewanella putrefaciens
Clp sequenced
Streptococcus pyogenes
Clp sequenced
Streptococcus salivarius
Clp sequenced
Streptomyces coelicolor
Clp sequenced
Synechococcus sp.
Clp sequenced
Treponema pallidum
Clp sequenced
Triticum aestivum
Clp sequenced
Yersinia enterocolitica
Clp sequenced
Zea mays
Clp sequenced, nuclear encoded gene
Arabidopsis thaliana
Clp sequenced, nuclear encoded gene
Caenorhabditis elegans
Clp sequenced, nuclear encoded gene
Fritillaria agrestis
Clp sequenced, nuclear encoded gene
Homo sapiens
Clp sequenced, nuclear encoded gene
Mus musculus
Clp sequenced, nuclear encoded gene
Populus tremula
Clp sequenced, nuclear encoded gene
Solanum lycopersicum
Clp sequenced, plastid encoded gene
Cyanophora paradoxa
clpP gene detected
Salmonella enterica subsp. enterica serovar Typhimurium
Cofactor (protein specific)
Cofactor
Commentary
Organism
Structure
ATP
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP
Bacillus subtilis
ATP
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP
Escherichia coli
ATP
ATP dependent, for full proteolytic activity ClpP must associate with one of two related ATPase subunits, ClpA or ClpX, other nucleoside triphosphates cannot substitute for ATP
Yersinia enterocolitica
Crystallization (Commentary) (protein specific)
Crystallization
Organism
-
Escherichia coli
Localization (protein specific)
Localization
Commentary
Organism
GeneOntology No.
Textmining
mitochondrion
-
Caenorhabditis elegans
5739
-
mitochondrion
-
Populus tremula
5739
-
mitochondrion
-
Mus musculus
5739
-
mitochondrion
-
Homo sapiens
5739
-
plastid
-
Chlamydomonas moewusii
9536
-
plastid
-
Chlorella vulgaris
9536
-
plastid
-
Epifagus virginiana
9536
-
plastid
-
Fritillaria agrestis
9536
-
plastid
-
Marchantia polymorpha
9536
-
plastid
-
Nicotiana tabacum
9536
-
plastid
-
Oryza sativa
9536
-
plastid
-
Pinus contorta
9536
-
plastid
-
Pinus thunbergii
9536
-
plastid
-
Solanum lycopersicum
9536
-
plastid
-
Triticum aestivum
9536
-
plastid
-
Zea mays
9536
-
Metals/Ions (protein specific)
Metals/Ions
Commentary
Organism
Structure
Mg2+
ClpA degrades large proteins down to short peptides of 7 to 10 amino acids, the process requires both Mg2+ and ATP hydrolysis
Escherichia coli
Natural Substrates/ Products (Substrates) (protein specific)
Natural Substrates
Organism
Commentary (Nat. Sub.)
Natural Products
Commentary (Nat. Pro.)
Organism (Nat. Pro.)
Reversibility
additional information
Bacillus subtilis
ClpP linked to many activities, including sporulation, cell competence, stress tolerance and regulation of gene expression
?
-
Bacillus subtilis
?
additional information
Escherichia coli
removing of irreversibly damaged polypeptides
?
-
Escherichia coli
?
Substrates and Products (Substrate) (protein specific)
Substrates
Commentary Substrates
Literature (Substrates)
Organism
Products
Commentary (Products)
Literature (Products)
Organism (Products)
Reversibility
additional information
ClpP linked to many activities, including sporulation, cell competence, stress tolerance and regulation of gene expression
653260
Bacillus subtilis
?
-
653260
Bacillus subtilis
?
additional information
removing of irreversibly damaged polypeptides
653260
Escherichia coli
?
-
653260
Escherichia coli
?
Other publictions for EC 3.4.21.92
No.
1st author
Pub Med
title
organims
journal
volume
pages
year
Activating Compound
Application
Cloned(Commentary)
Crystallization (Commentary)
Engineering
General Stability
Inhibitors
KM Value [mM]
Localization
Metals/Ions
Molecular Weight [Da]
Natural Substrates/ Products (Substrates)
Organic Solvent Stability
Organism
Oxidation Stability
Posttranslational Modification
Purification (Commentary)
Reaction
Renatured (Commentary)
Source Tissue
Specific Activity [micromol/min/mg]
Storage Stability
Substrates and Products (Substrate)
Subunits
Temperature Optimum [°C]
Temperature Range [°C]
Temperature Stability [°C]
Turnover Number [1/s]
pH Optimum
pH Range
pH Stability
Cofactor
Ki Value [mM]
pI Value
IC50 Value
Activating Compound (protein specific)
Application (protein specific)
Cloned(Commentary) (protein specific)
Cofactor (protein specific)
Crystallization (Commentary) (protein specific)
Engineering (protein specific)
General Stability (protein specific)
IC50 Value (protein specific)
Inhibitors (protein specific)
Ki Value [mM] (protein specific)
KM Value [mM] (protein specific)
Localization (protein specific)
Metals/Ions (protein specific)
Molecular Weight [Da] (protein specific)
Natural Substrates/ Products (Substrates) (protein specific)
Organic Solvent Stability (protein specific)
Oxidation Stability (protein specific)
Posttranslational Modification (protein specific)
Purification (Commentary) (protein specific)
Renatured (Commentary) (protein specific)
Source Tissue (protein specific)
Specific Activity [micromol/min/mg] (protein specific)
Storage Stability (protein specific)
Substrates and Products (Substrate) (protein specific)
Subunits (protein specific)
Temperature Optimum [°C] (protein specific)
Temperature Range [°C] (protein specific)
Temperature Stability [°C] (protein specific)
Turnover Number [1/s] (protein specific)
pH Optimum (protein specific)
pH Range (protein specific)
pH Stability (protein specific)
pI Value (protein specific)
Expression
General Information
General Information (protein specific)
Expression (protein specific)
KCat/KM [mM/s]
KCat/KM [mM/s] (protein specific)
732563
Gersch
AAA+ chaperones and acyldepsip ...
Staphylococcus aureus, Staphylococcus aureus NCTC 8325
Nat. Commun.
6
6320
2015
1
-
-
-
-
-
-
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2
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1
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1
1
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-
-
731637
Cordova
Stochastic but highly coordina ...
Escherichia coli
Cell
158
647-658
2014
-
-
-
-
-
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-
-
-
-
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1
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1
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731945
Li
Cloning and characterization o ...
Mycobacterium tuberculosis, Mycobacterium tuberculosis H37Rv
Int. J. Clin. Exp. Pathol.
7
5674-5682
2014
-
1
1
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-
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4
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1
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1
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731985
Gersch
Disruption of oligomerization ...
Staphylococcus aureus
J. Am. Chem. Soc.
136
1360-1366
2014
-
-
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8
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2
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3
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8
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732009
Wahl
Control of natural transformat ...
Streptococcus thermophilus, Streptococcus thermophilus ATCC BAA-250
J. Bacteriol.
196
2807-2816
2014
-
-
-
-
-
-
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-
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2
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3
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2
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2
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2
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1
1
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732159
Sato
FliT selectively enhances prot ...
Salmonella enterica, Salmonella enterica ATCC 700720
J. Biol. Chem.
289
33001-33011
2014
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2
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2
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2
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2
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732169
Brzozowska
The ClpXP protease is responsi ...
Bacillus subtilis
J. Biol. Chem.
289
7514-7523
2014
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1
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5
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1
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731636
Sen
-
The ClpXP protease unfolds sub ...
Escherichia coli
Cell
155
X636-X646
2013
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1
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731815
Bonnet
FixK2, a key regulator in Brad ...
Bradyrhizobium japonicum
FEBS Lett.
587
88-93
2013
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1
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732530
Bhat
Identification of ClpP substra ...
Caulobacter vibrioides
Mol. Microbiol.
88
1083-1092
2013
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4
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1
1
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732717
Xie
The ClpP protease is required ...
Actinobacillus pleuropneumoniae
PLoS ONE
8
e53600
2013
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1
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732721
Personne
Mycobacterium tuberculosis Clp ...
Mycobacterium tuberculosis, Mycobacterium tuberculosis H37Rv
PLoS ONE
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2013
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732950
Lee
Streptococcus pneumoniae ClpP ...
Streptococcus pneumoniae
Toxicon
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142-152
2013
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Ollinger
Validation of the essential Cl ...
Mycobacterium tuberculosis
J. Bacteriol.
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731272
Tryggvesson
Interaction specificity betwee ...
Synechococcus elongatus
Biochem. J.
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2012
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Derrien
The purification of the Chlamy ...
Chlamydomonas reinhardtii
Plant Mol. Biol.
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2012
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1
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734574
Alexopoulos
ClpP: a structurally dynamic p ...
Bacillus subtilis, Escherichia coli
J. Struct. Biol.
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202-210
2012
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2
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717089
Geiger
A conformational switch underl ...
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Angew. Chem. Int. Ed. Engl.
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2011
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1
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2
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717472
Maillard
ClpX(P) generates mechanical f ...
Escherichia coli
Cell
145
459-469
2011
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717708
Religa
Site-directed methyl group lab ...
Escherichia coli
J. Am. Chem. Soc.
133
9063-9068
2011
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717731
Camberg
The interplay of ClpXP with th ...
Escherichia coli
J. Bacteriol.
193
1911-1918
2011
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717999
Nager
Stepwise unfolding of a beta-b ...
Escherichia coli
J. Mol. Biol.
413
4-16
2011
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1
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1
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718088
Kajfasz
Transcriptome analysis reveals ...
Streptococcus mutans
Microbiology
157
2880-2890
2011
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718089
Kitagawa
Dual regulatory pathways of fl ...
Escherichia coli
Microbiology
157
3094-3103
2011
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718090
Cohn
Clp-dependent proteolysis of t ...
Staphylococcus aureus
Microbiology
157
677-684
2011
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718114
Lee
Structural insights into the c ...
Bacillus subtilis
Mol. Cells
32
589-595
2011
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718131
Martinez-Noel
NifB and NifEN protein levels ...
Azotobacter vinelandii
Mol. Microbiol.
79
1182-1193
2011
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718212
Sjoegren
Assembly of the chloroplast AT ...
Arabidopsis thaliana
Plant Cell
23
322-332
2011
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717092
Wu
ClpC1, an ATP-dependent Clp pr ...
Arabidopsis thaliana
Ann. Bot.
105
823-833
2010
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2
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717787
Effantin
Binding of the ClpA unfoldase ...
Escherichia coli
J. Biol. Chem.
285
14834-14840
2010
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717989
Lee
Control of substrate gating an ...
Escherichia coli
J. Mol. Biol.
399
707-718
2010
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4
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16
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4
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1
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717993
El Bakkouri
The Clp chaperones and proteas ...
Plasmodium falciparum
J. Mol. Biol.
404
456-477
2010
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6
2
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1
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718140
Li
ClpXP protease regulates the t ...
Dickeya dadantii
Mol. Plant Microbe Interact.
23
871-878
2010
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1
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718406
Kimber
Structural and theoretical stu ...
Escherichia coli
Structure
18
798-808
2010
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1
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3
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696989
Jana
Mechanism of protonophores-med ...
Escherichia coli
BMC Microbiol.
9
20
2009
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1
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697889
Guillon
Frataxin deficiency causes upr ...
Mus musculus
FEBS J.
276
1036-1047
2009
2
1
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1
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698609
de Bruijn
Regulation of cyclic lipopepti ...
Pseudomonas fluorescens, Pseudomonas fluorescens SS101
J. Bacteriol.
191
1910-1923
2009
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698890
Andersson
Structure and function of a no ...
Synechococcus elongatus
J. Biol. Chem.
284
13519-13532
2009
1
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1
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7
1
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700285
Hahn
McsA and B mediate the delocal ...
Bacillus subtilis
Mol. Microbiol.
72
202-215
2009
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701368
Cao
CD4(+) T lymphocytes mediated ...
Streptococcus pneumoniae TIGR4
Vaccine
27
2838-2844
2009
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Gumber
Evaluation of the immunogenici ...
Mycobacterium avium subsp. paratuberculosis
Vet. Microbiol.
137
290-296
2009
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710200
Lin
Atypical caseinolytic protease ...
Plasmodium falciparum
Parasitol. Res.
105
1715-1722
2009
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The ClpP N-terminus coordinate ...
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Mucosal immunization with puri ...
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Clp protease controls chloroph ...
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Altered specificity of a AAA+ ...
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A peptide signal for adapter p ...
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Downregulation of ClpR2 leads ...
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A nuclear-encoded ClpP subunit ...
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New insights into the ATP-depe ...
Aquifex aeolicus, Arabidopsis thaliana, Bacillus subtilis, Bordetella pertussis, Borreliella burgdorferi, Caenorhabditis elegans, Caulobacter vibrioides, Chlamydia trachomatis, Chlamydomonas moewusii, Chlamydomonas reinhardtii, Chlorella vulgaris, Chlorobaculum tepidum, Clostridium acetobutylicum, Cyanophora paradoxa, Deinococcus radiodurans, Enterococcus faecalis, Epifagus virginiana, Escherichia coli, Fritillaria agrestis, Haemophilus influenzae, Helicobacter pylori, Homo sapiens, Lactococcus lactis, Listeria monocytogenes, Marchantia polymorpha, Mus musculus, Mycobacterium tuberculosis, Mycobacterium tuberculosis H37Rv, Myxococcus xanthus, Nicotiana tabacum, Oryza sativa, Paracoccus denitrificans, Pinus contorta, Pinus thunbergii, Populus tremula, Porphyromonas gingivalis, Pseudomonas aeruginosa, Rhodobacter capsulatus, Salmonella enterica subsp. enterica serovar Typhimurium, Shewanella putrefaciens, Solanum lycopersicum, Streptococcus pyogenes, Streptococcus salivarius, Streptomyces coelicolor, Synechococcus sp., Synechocystis sp., Treponema pallidum, Triticum aestivum, Yersinia enterocolitica, Zea mays
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1
3
19
2
-
1
1
5
3
-
-
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-
-
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29863
Damerau
Role of Clp protease subunits ...
Escherichia coli
J. Bacteriol.
175
53-63
1993
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-
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2
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2
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-
2
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29865
Wojtkowiak
Isolation and characterization ...
Escherichia coli, Escherichia coli W3110 B178
J. Biol. Chem.
268
22609-22617
1993
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-
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1
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4
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1
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1
2
2
2
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1
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1
-
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1
2
2
2
-
-
-
-
-
-
-
-
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-
29866
Gottesman
ClpX, an alternative subunit f ...
Escherichia coli
J. Biol. Chem.
268
22618-22626
1993
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-
1
-
-
-
-
-
-
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1
1
-
2
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1
-
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1
-
2
2
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1
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1
1
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1
-
-
1
-
2
2
-
-
-
-
-
-
-
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-
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29870
Shapito
A role for the Clp protease in ...
Escherichia coli
J. Bacteriol.
175
2625-2631
1993
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1
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4
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2
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1
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2
-
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-
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29869
Geuskens
Virulence in bacteriophage Mu: ...
Escherichia coli
EMBO J.
11
5121-5127
1992
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1
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1
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-
1
-
-
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29867
Maurizi
ATP-promoted interaction betwe ...
Escherichia coli
Biochem. Soc. Trans.
19
719-723
1991
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-
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-
-
2
-
1
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2
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1
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1
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1
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2
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1
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1
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29856
Gottesman
The ATP-dependent Clp protease ...
Escherichia coli
J. Biol. Chem.
265
7886-7893
1990
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-
1
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2
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1
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29857
Maurizi
Sequence and structure of Clp ...
Escherichia coli
J. Biol. Chem.
265
12536-12545
1990
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-
1
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-
2
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4
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1
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1
2
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1
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1
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2
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1
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-
1
2
-
-
-
-
1
-
-
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-
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29859
Gottesman
Conservation of the regulatory ...
Escherichia coli
Proc. Natl. Acad. Sci. USA
87
3513-3517
1990
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1
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29868
Maurizi
Clp P represents a unique fami ...
Escherichia coli
J. Biol. Chem.
265
12546-12552
1990
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-
1
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-
1
-
2
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1
-
6
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1
-
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1
1
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1
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1
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2
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1
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1
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-
1
1
-
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29864
Woo
Protease Ti from Escherichia c ...
Escherichia coli, Escherichia coli RGC125 (lon-)
J. Biol. Chem.
264
2088-2091
1989
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-
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3
1
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4
-
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6
-
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1
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1
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3
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1
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6
-
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29860
Hwang
Protease Ti, a new ATP-depende ...
Escherichia coli, Escherichia coli RGC125 (lon-)
J. Biol. Chem.
263
8727-8734
1988
-
-
-
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-
1
1
1
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3
3
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-
4
-
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1
-
-
-
1
4
2
2
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-
1
-
1
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2
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-
2
-
-
1
-
1
-
1
-
3
3
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-
1
-
-
1
4
2
2
-
-
1
-
1
-
-
-
-
-
-
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-
29862
Katayama
The two-component, ATP-depende ...
Escherichia coli
J. Biol. Chem.
263
15226-15236
1988
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1
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1
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4
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1
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1
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1
2
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1
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1
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1
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1
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1
2
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-
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29861
Katayama-Fujimura
A multiple-component, ATP-depe ...
Escherichia coli
J. Biol. Chem.
262
4477-4485
1987
-
-
-
-
-
-
2
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1
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1
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1
1
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2
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1
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1
1
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