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Degradation of unassembled and damaged thylakoid proteins
Z. Adam
*
,
O. Ostersetzer
*
Corresponding author for this work
Institute of Plant Sciences and Genetics in Agriculture
Department of Plant and Environmental Sciences (Natural Sciences)
Research output
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Contribution to journal
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Article
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peer-review
14
Scopus citations
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Keyphrases
Thylakoid Membrane Proteins
100%
Protease
100%
Thylakoid Membrane
100%
Protein Degradation
33%
Protein Family
33%
Plant Genome
33%
Soluble Protein
33%
Functional Significance
33%
Thylakoid
33%
Damaged Proteins
33%
FtsH
33%
Chloroplast Proteases
33%
ATP-dependent
33%
Photosystem II Reaction Center
33%
Cytochrome
33%
D1 Protein
33%
Fe-S Proteins
33%
Proteolytic Cascade
33%
DegP
33%
Metalloprotease
33%
AAA Protein
33%
Rieske
33%
Membrane Complexes
33%
Biochemistry, Genetics and Molecular Biology
Thylakoid
100%
Protease
100%
Thylakoid Membrane
75%
Adenosine Triphosphate
50%
Photosystem II
25%
Chloroplast
25%
Protein Catabolism
25%
Transmembrane Protein
25%
Soluble Protein
25%
Membrane
25%
Metalloproteinase
25%
Iron-Sulfur Protein
25%
Plant Genome
25%
AAA Protein
25%
Cytochrome Complex
25%
Serine
25%