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B von Janowsky et al.
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L Tian et al.
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Cleavage site selection within a folded substrate by the ATP-dependent lon protease
G Ondrovicová et al.
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J Hinnerwisch et al.
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RE Burton et al.
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D Vineyard et al.
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A Mogk et al.
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Kinetics of protein substrate degradation by HslUV
AR Kwon et al.
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O Kobiler et al.
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Effects of local protein stability and the geometric position of the substrate degradation tag on the efficiency of ClpXP denaturation and degradation
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S Prakash et al.
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A Förster et al.
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JA Kenniston et al.
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Targeted delivery of an ssrA-tagged substrate by the adaptor protein SspB to its cognate AAA plus protein ClpX
DA Dougan et al.
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Energy-dependent degradation: Linkage between ClpX-catalyzed nucleotide hydrolysis and protein-substrate processing
RE Burton et al.
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Regulation by proteolysis in bacterial cells
U Jenal et al.
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JM Flynn et al.
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N Benaroudj et al.
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Proteolysis in bacterial regulatory circuits
S Gottesman
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KL Sim et al.
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Characterization of a specificity factor for an AAA+ ATPase: Assembly of SspB dimers with ssrA-tagged proteins and the ClpX hexamer
DA Wah et al.
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DA Bota et al.
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O Hori et al.
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DA Dougan et al.
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A Navon et al.
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A Kuroda et al.
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T Tomoyasu et al.
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C Lee et al.
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SA Jelinsky et al.
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