7.4.2.4: chloroplast protein-transporting ATPase
This is an abbreviated version!
For detailed information about chloroplast protein-transporting ATPase, go to the full flat file.
Word Map on EC 7.4.2.4
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7.4.2.4
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oligomycin
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thylakoids
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submitochondrial
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translocon
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tic40
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dccd
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batten
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photophosphorylation
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hatefi
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blue-native
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dccd-binding
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atpbe
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oligomycin-sensitive
- 7.4.2.4
- oligomycin
- thylakoids
-
submitochondrial
-
translocon
- tic40
- dccd
- batten
-
photophosphorylation
-
hatefi
-
blue-native
-
dccd-binding
-
atpbe
-
oligomycin-sensitive
Reaction
Synonyms
AtcpSecA, ATP synthase complex, cpSecA, EC 3.6.3.52, hsp93, Hsp93-III, Hsp93-V, RbcS TP, Rubisco small subunit transit peptide, SEC translocase/integrase, Sec-type system, Sec1, SEC2, SEC2 translocase, SecA, SecA protein
ECTree
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Inhibitors
Inhibitors on EC 7.4.2.4 - chloroplast protein-transporting ATPase
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reactive oxygen species
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reactive oxygen species dramatically decrease ATP synthesis in situ and affect the coupling factor CF1 portion in vitro. A conserved cluster of three methionines and a cysteine on the chloroplast gamma subunit are oxidized by reactive oxygen species. These residues are exclusive catalytic targets for hydrogen peroxide and singlet oxygen, although additional unknown amino acid targets might be involved in the latter reaction. The cluster is tightly integrated in catalytic turnover since mutants vary in MgATPase rates, stimulation by sulfite and chloroplast-specific gamma subunit redox-modulation
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the translocation step across thylakoid membranes is inhibited by the SecA inhibitor azide