Targeting of protein ubiquitination by BTB–Cullin 3–Roc1 ubiquitin ligases

M Furukawa, YJ He, C Borchers, Y Xiong - Nature cell biology, 2003 - nature.com
M Furukawa, YJ He, C Borchers, Y Xiong
Nature cell biology, 2003nature.com
The concentrations and functions of many cellular proteins are regulated by the ubiquitin
pathway. Cullin family proteins bind with the RING-finger protein Roc1 to recruit the ubiquitin-
conjugating enzyme (E2) to the ubiquitin ligase complex (E3). Cul1 and Cul7, but not other
cullins, bind to an adaptor protein, Skp1. Cul1 associates with one of many F-box proteins
through Skp1 to assemble various SCF–Roc1 E3 ligases that each selectively ubiquitinate
one or more specific substrates. Here, we show that Cul3, but not other cullins, binds directly …
Abstract
The concentrations and functions of many cellular proteins are regulated by the ubiquitin pathway. Cullin family proteins bind with the RING-finger protein Roc1 to recruit the ubiquitin-conjugating enzyme (E2) to the ubiquitin ligase complex (E3). Cul1 and Cul7, but not other cullins, bind to an adaptor protein, Skp1. Cul1 associates with one of many F-box proteins through Skp1 to assemble various SCF–Roc1 E3 ligases that each selectively ubiquitinate one or more specific substrates. Here, we show that Cul3, but not other cullins, binds directly to multiple BTB domains through a conserved amino-terminal domain. In vitro, Cul3 promoted ubiquitination of Caenorhabditis elegans MEI-1, a katanin-like protein whose degradation requires the function of both Cul3 and BTB protein MEL-26. We suggest that in vivo there exists a potentially large number of BCR3 (BTB–Cul3–Roc1) E3 ubiquitin ligases.
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