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KMID : 0381120190410020167
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Genes and Genomics
2019 Volume.41 No. 2 p.167 ~ p.174
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Two major alternative splice variants of beta-TrCP1 interact with CENP-W with different binding preferences
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Cheon Yeong-Mi
Lee Soo-Jin
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Abstract
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Beta-transducin repeat containing protein 1 (¥â-TrCP1) is a versatile F-box protein that is responsible for substrate recognition of SCF¥â-TrCP1 ubiquitin ligase. In human cells, two major alternatively spliced isoforms (b and f) of ¥â-TrCP1 were found. Recently, we identified that CENP-W interacts with the ¥â-TrCP1 and regulates the cellular distribution of ¥â-TrCP1. In this study, we examined whether CENP-W, a new kinetochore component, may differentially regulate the two major isoforms of human ¥â-TrCP1 (b and f), especially in the cytoplasmic-nuclear shuttling of ¥â-TrCP1. An in vivo binding assay was performed to examine whether CENP-W binds differently to the two isoforms of ¥â-TrCP1. EGFP-conjugated ¥â-TrCP1 isoforms were co-transfected with NLS-defective mutant CENP-W and their cellular distribution were observed using a fluorescence microscopy. Although CENP-W interacts with both b and f isoforms, it has a greater affinity for the b isoform rather than f isoform. Moreover, CENP-W effectively regulates the nuclear-cytoplasmic shuttling of these two ¥â-TrCP1 isoforms, but with a slight preference towards the b isoform. The Elongin C-binding motif existing in the b isoform may be involved in their specific association. CENP-W showed a higher affinity toward the ¥â-TrCP1 b isoform, and translocated isoform b more efficiently than isoform f, which may allow a fine regulation of of ¥â-TrCP1 in the cells.
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KEYWORD
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¥â-TrCP1, Cullin-RING ubiquitin ligase, CENP-W, Nuclear shuttling, Isoforms
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