Makoto Kitabatake
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Explore the profile of Makoto Kitabatake including associated specialties, affiliations and a list of published articles.
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Articles
18
Citations
295
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Recent Articles
1.
Liu A, Koga H, Goya C, Kitabatake M
Genes Cells
. 2023 May;
28(8):553-562.
PMID: 37132531
The cloning of DNA fragments to plasmid vectors is at the heart of molecular biology. Recent developments have led to various methods utilizing homologous recombination of homology arms. Among them,...
2.
Kawamoto T, Yoshimoto R, Taniguchi I, Kitabatake M, Ohno M
Genes Cells
. 2020 Nov;
26(1):18-30.
PMID: 33147372
Primary RNA transcripts are processed in a plethora of ways to become mature functional forms. In one example, human spliceosomal U snRNAs are matured at their 3'-end by an exonuclease...
3.
Iezaki T, Horie T, Fukasawa K, Kitabatake M, Nakamura Y, Park G, et al.
Stem Cell Reports
. 2018 Jul;
11(1):228-241.
PMID: 30008325
The mechanistic/mammalian target of rapamycin complex 1 (mTORC1) regulates cellular function in various cell types. Although the role of mTORC1 in skeletogenesis has been investigated previously, here we show a...
4.
Tomioka M, Shimobayashi M, Kitabatake M, Ohno M, Kozutsumi Y, Oka S, et al.
Sci Rep
. 2018 Jan;
8(1):1244.
PMID: 29352143
Cellular translation should be precisely controlled in response to extracellular cues. However, knowledge is limited concerning signal transduction-regulated translation. In the present study, phosphorylation was identified in the 40S small...
5.
Wang D, Ninomiya K, Mori C, Koyama A, Haan M, Kitabatake M, et al.
Front Mol Biosci
. 2018 Jan;
4:93.
PMID: 29312956
RNA transport and regulated local translation play critically important roles in spatially restricting gene expression in neurons. Heterogeneous population of RNA granules serve as motile units to translocate, store, translate,...
6.
Nemoto N, Udagawa T, Chowdhury W, Kitabatake M, Shin B, Hiraishi H, et al.
Translation (Austin)
. 2016 Jan;
1(2):e26402.
PMID: 26824023
In yeast Saccharomyces cerevisiae, 25S rRNA makes up the major mass and shape of the 60S ribosomal subunit. During translation initiation, the 60S subunit joins the 40S initiation complex, producing...
7.
Sakata T, Fujii K, Ohno M, Kitabatake M
Biochem Biophys Res Commun
. 2014 Dec;
457(1):90-4.
PMID: 25534857
Nonfunctional mutant ribosomal RNAs in 40S or 60S subunits are selectively degraded in eukaryotic cells (nonfunctional rRNA decay, NRD). We previously reported that NRD of 25S rRNA required cullin-E3 ligase...
8.
9.
Fujii K, Kitabatake M, Sakata T, Ohno M
EMBO J
. 2012 Apr;
31(11):2579-89.
PMID: 22505030
Eukaryotic cells have quality control systems that eliminate nonfunctional rRNAs with deleterious mutations (nonfunctional rRNA decay, NRD). We have previously reported that 25S NRD requires an E3 ubiquitin ligase complex,...
10.
Kitabatake M, Fujii K, Ohno M
Tanpakushitsu Kakusan Koso
. 2010 Nov;
54(16 Suppl):2195-200.
PMID: 21089640
No abstract available.