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KMID : 0364820090450030239
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Korean Journal of Microbiology
2009 Volume.45 No. 3 p.239 ~ p.245
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Mutational Analyses of Translation Initiation Factor eIF1A in Saccharomyces cerevisiae
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Kwon Sung-Hun
Choi Do-Hee
Kim Jun-Ho
Choi Bo-Kyung
Kim Na-Yeon
Park Kyoung-Jun
Eoh Jung-Hyun
Bae Sung-Ho
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Abstract
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Translation initiation factor eIF1A performs essential functions in various initiation steps including 43S preinitiation complex formation in eukaryotes, and contains a highly conserved oligonucleotide-binding (OB) fold. In our previous study, we discovered that eIF1A possesses RNA annealing activity and forms a stable complex with double-stranded RNA. In this study, we initiated site-directed mutations in eIF1A to find the active sites for these biochemical activities and to investigate whether they are essential functions for yeast cell growth. A truncated protein, eIF1A(¥ÄT), devoid of both N- and C-terminal domains but containing an intact OB-fold exhibited RNA annealing activity. In contrast, all point mutations in OB-fold domain, except R57D, impaired both RNA annealing and dsRNA binding activities, indicating that the intact OB-fold domain is required for both activities. Viabilities of the mutant yeast cells were not correlated with RNA annealing activity but with the in vivo protein stabilities in the case of R57D and K94D.
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KEYWORD
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double-stranded RNA, eIF1A, RNA chaperone, S. cerevisiae, translation initiation factor
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