48 Publications (Page 1 of 2)
2022
Translational recoding by chemical modification of non-AUG start codon ribonucleotide bases.
Fujita, YoshihikoFujita, YoshihikoKameda, TakeruKameda, TakeruSingh, Chingakham RanjitSingh, Chingakham RanjitPepper, WhitneyPepper, WhitneyCecil, ArianaCecil, ArianaHilgers, MadelynHilgers, MadelynThornton, MackenzieThornton, MackenzieAsano, IzumiAsano, IzumiMoravek, CarterMoravek, CarterTogashi, YuichiTogashi, YuichiSaito, HirohideSaito, HirohideAsano, Katsura and Asano, Katsura
Science advances, vol. 8, (no. 14), pp. eabm8501, April 8, 2022. | Journal Article
2021
Human oncoprotein 5MP suppresses general and repeat-associated non-AUG translation via eIF3 by a common mechanism.
Singh, Chingakham RanjitGlineburg, M RebeccaMoore, ChelseaTani, NaokiJaiswal, RahulZou, YeAube, EricGillaspie, SarahThornton, MackenzieCecil, ArianaHilgers, MadelynTakasu, AzumaAsano, IzumiAsano, MasayoEscalante, Carlos RNakamura, AkiraTodd, Peter K and Asano, Katsura
Cell reports, vol. 36, (no. 2), pp. 109376, July 13, 2021. | Journal Article
2019
Novel oncogene 5MP1 reprograms c-Myc translation initiation to drive malignant phenotypes in colorectal cancer.
Sato, KuniakiMasuda, TakaakiHu, QingjiangTobo, TaroGillaspie, SarahNiida, AtsushiThornton, MackenzieKuroda, YousukeEguchi, HidetoshiNakagawa, TakashiAsano, Katsura and Mimori, Koshi
EBioMedicine, vol. 44, pp. 387-402, June 2019. | Journal Article
2016
Overexpression of eIF5 or its protein mimic 5MP perturbs eIF2 function and induces ATF4 translation through delayed re-initiation.
Kozel, CaitlinThompson, BryttenyHustak, SamanthaMoore, ChelseaNakashima, AkioSingh, Chingakham RanjitReid, MeganCox, ChristianPapadopoulos, EvangelosLuna, Rafael EAnderson, AbbeyTagami, HideakiHiraishi, HiroyukiSlone, Emily ArcherYoshino, Ken-IchiAsano, MasayoGillaspie, SarahNietfeld, JeromePerchellet, Jean-PierreRothenburg, StefanMasai, HisaoWagner, GerhardBeeser, AlexanderKikkawa, UshioFleming, Sherry D and Asano, Katsura
Nucleic acids research, June 20, 2016. | Journal Article
2014
Essential role of eIF5-mimic protein in animal development is linked to control of ATF4 expression.
Hiraishi, HiroyukiOatman, JamieHaller, Sherry LBlunk, LoganMcGivern, BentonMorris, JacobPapadopoulos, EvangelosGutierrez, WadeGordon, MichelleBokhari, WahajIkeda, YukaMiles, DavidFellers, JohnAsano, MasayoWagner, GerhardTazi, LoubnaRothenburg, StefanBrown, Susan J and Asano, Katsura
Nucleic acids research, vol. 42, (no. 16), pp. 10321-10330, 2014. | Journal Article
 
Why is start codon selection so precise in eukaryotes?
Asano, Katsura
Translation (Austin, Tex.), vol. 2, (no. 1), pp. e28387, 2014. | Journal Article
2013
Random mutagenesis of yeast 25S rRNA identify bases critical for 60S subunit structural integrity and function.
Nemoto, NaokiUdagawa, TsuyoshiChowdhury, WasimulKitabatake, MakotoShin, Byung-ShikHiraishi, HiroyukiWang, SuzhiSingh, Chingakham RanjitBrown, Susan JOhno, Mutsuhito and Asano, Katsura
Translation (Austin, Tex.), vol. 1, (no. 2), pp. e26402, 2013. | Journal Article
 
The interaction between eukaryotic initiation factor 1A and eIF5 retains eIF1 within scanning preinitiation complexes.
Luna, Rafael EArthanari, HaribabuHiraishi, HiroyukiAkabayov, BarakTang, LeimingCox, ChristianMarkus, Michelle ALuna, Lunet EIkeda, YukaWatanabe, RyosukeBedoya, EdwardYu, CathyAlikhan, ShumsWagner, Gerhard and Asano, Katsura
Biochemistry, vol. 52, (no. 52), pp. 9510-8, 2013/Dec/31. | Journal Article
2012
The C-terminal domain of eukaryotic initiation factor 5 promotes start codon recognition by its dynamic interplay with eIF1 and eIF2β.
Luna, Rafael EArthanari, HaribabuHiraishi, HiroyukiNanda, JagpreetMartin-Marcos, PilarMarkus, Michelle AAkabayov, BarakMilbradt, Alexander GLuna, Lunet ESeo, Hee ChanHyberts, Sven GFahmy, AmrReibarkh, MikhailMiles, DavidHagner, Patrick RO'Day, Elizabeth MYi, TingfangMarintchev, AssenHinnebusch, Alan GLorsch, Jon RAsano, Katsura and Wagner, Gerhard
Cell reports, vol. 1, (no. 6), pp. 689-702, 2012/Jun/28. | Journal Article
2011
Mechanisms of translational regulation by a human eIF5-mimic protein.
Singh, C. RWatanabe, RyosukeZhou, DonghuiJennings, Martin DFukao, AkiraLee, BumjunIkeda, YukaChiorini, John ACampbell, Susan GAshe, Mark PFujiwara, ToshinobuWek, Ronald CPavitt, Graham and Asano, Katsura
Nucleic acids research, vol. 39, (no. 19), pp. 8314-28, 2011/Oct. | Journal Article
2010
The eukaryotic initiation factor (eIF) 4G HEAT domain promotes translation re-initiation in yeast both dependent on and independent of eIF4A mRNA helicase.
Watanabe, RyosukeMurai, Marcelo JSingh, C. RFox, StephanieIi, Miki and Asano, Katsura
The Journal of biological chemistry, vol. 285, (no. 29), pp. 21922-33, 2010/Jul/16. | Journal Article
 
The roles of stress-activated Sty1 and Gcn2 kinases and of the protooncoprotein homologue Int6/eIF3e in responses to endogenous oxidative stress during histidine starvation.
Nemoto, NaokiUdagawa, TsuyoshiOhira, TakahiroJiang, LiHirota, KoujiWilkinson, Caroline RBähler, JürgJones, NicOhta, KunihiroWek, Ronald C and Asano, Katsura
Journal of molecular biology, vol. 404, (no. 2), pp. 183-201, 2010/Nov/26. | Journal Article
2008
Eukaryotic Initiation Factor (eIF) 1 Carries Two Distinct eIF5-binding Faces Important for Multifactor Assembly and AUG Selection
Reibarkh, MikhailYamamoto, YasufumiSingh, Chingakham Rdel Rio, FedericoFahmy, AmrLee, BumjunLuna, Rafael EIi, MikiWagner, Gerhard and Asano, Katsura
Journal of Biological Chemistry, vol. 283, (no. 2), pp. 1094-1103, 2008. | Journal Article
 
Int6/eIF3e promotes general translation and Atf1 abundance to modulate Sty1 MAPK-dependent stress response in fission yeast.
Udagawa, TsuyoshiNemoto, NaokiWilkinson, Caroline RNarashimhan, JanaJiang, LiWatt, StephenZook, AaronJones, NicWek, Ronald CBähler, Jürg and Asano, Katsura
The Journal of biological chemistry, vol. 283, (no. 32), pp. 22063-75, 2008/Aug/8. | Journal Article
2007
Change in Nutritional Status Modulates the Abundance of Critical Pre-initiation Intermediate Complexes During Translation Initiation in Vivo
Singh, C. RUdagawa, T.Lee, B.Wassink, S.He, H.Yamamoto, Y.Anderson, James TPavitt, Graham and Asano, Katsura
Journal of Molecular Biology, vol. 370, (no. 2), pp. 315-330, 2007. | Journal Article
 
Localization and characterization of protein-protein interaction sites.
Singh, Chingakham R and Asano, Katsura
Methods in enzymology, vol. 429, pp. 139-61, 2007. | Journal Article
 
Translation factor control of ribosome conformation during start codon selection
Asano, Katsura and Sachs, Matt
Genes & Development, vol. 21, (no. 11), pp. 1280-1287, 2007. | Journal Article
 
Yeast phenotypic assays on translational control.
Lee, BumjunUdagawa, TsuyoshiSingh, Chingakham R and Asano, Katsura
Methods in enzymology, vol. 429, pp. 105-37, 2007. | Journal Article
2006
An eIF5/eIF2 complex antagonizes guanine nucleotide exchange by eIF2B during translation initiation
Singh, Chingakham RLee, BumjunUdagawa, TsuyoshiMohammad-Qureshi, Sarah SYamamoto, YasufumiPavitt, Graham and Asano, Katsura
EMBO Journal, vol. 25, (no. 19), pp. 4537-4546, 2006. | Journal Article
 
[Translational and transcriptional control by eIF2 phosphorylation: requirement for integrity of ribosomal preinitiation complex].
Asano, Katsura
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, vol. 51, (no. 5), pp. 389-98, 2006/May. | Journal Article
2005
The eukaryotic initiation factor (eIF) 5 HEAT domain mediates multifactor assembly and scanning with distinct interfaces to eIF1, eIF2, eIF3, and eIF4G
Yamamoto, YasufumiSingh, Chingakham RMarintchev, AssenHall, Nathan SHannig, Ernest MWagner, Gerhard and Asano, Katsura
Proceedings of the National Academy of Sciences, USA, vol. 102, (no. 45), pp. 16164-16169, 2005. | Journal Article
2004
Efficient incorporation of eukaryotic initiation factor 1 into the multifactor complex is critical for formation of functional ribosomal preinitiation complexes in vivo.
Singh, Chingakham RHe, HuiIi, MikiYamamoto, Yasufumi and Asano, Katsura
The Journal of biological chemistry, vol. 279, (no. 30), pp. 31910-20, 2004/Jul/23. | Journal Article
 
Physical association of eukaryotic initiation factor (eIF) 5 carboxyl-terminal domain with the lysine-rich eIF2beta segment strongly enhances its binding to eIF3.
Singh, Chingakham RanjitYamamoto, Yasufumi and Asano, Katsura
The Journal of biological chemistry, vol. 279, (no. 48), pp. 49644-49655, November 26, 2004. | Journal Article
 
Study of translational control of eukaryotic gene expression using yeast.
Hinnebusch, Alan GAsano, KatsuraOlsen, Deanne SPhan, LonNielsen, Klaus H and Valásek, Leos
Annals of the New York Academy of Sciences, vol. 1038, pp. 60-74, 2004/Dec. | Journal Article
 
Study of Translational Control of Eukaryotic Gene Expression Using Yeast
Hinnebusch, Alan GAsano, KatsuraOlsen, Deanne SPhan, LonNielsen, Klaus H and Valasek, Leos
Annals of the New York Academy of Sciences, vol. 1038, pp. 60-74, 2004. | Journal Article