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面白そうな論文を紹介し、論文内容の理解、情報の共有、実験・議論内容の追求、妄想実験の提案などを行います。
取り上げるトピック・手法は、出来るだけ幅広くを心がけています。
興味がある人は誰でも、どうぞ御自由に参加してください。
院生・学生など、肩書不問、開催中はドアを開けておきます。出入り自由!
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参加に興味のある人は原までご一報ください。
In our journal club, a speaker selects and introduces a research paper (with broad interests). Through the journal club, we facilitate understanding the methods and results, discuss the results, share information, and suggest future experiments.
All people having interests are welcome to join.
We don't prepare any documents for the presentation and we highly recommend bringing the printed (or downloaded) paper to this journal club.
(If you want to join, please don't hesitate to get in touch with Yuki in advance).
[Plan] 2026/1/13 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yu)
TBA
[Plan] 2025/12/23 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Haru)
TBA
[Plan] 2025/12/16 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika)
TBA
[Plan] 2025/12/9 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Hayato)
TBA
[Plan] 2025/12/2 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yu)
TBA
[Plan] 2025/11/18 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Haru)
Temporal changes in surface tension guide the accurate asymmetric division of Arabidopsis zygotes
Kang et al, bioRxiv (2024) 605794
[Plan] 2025/11/11 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika)
TBA
[Plan] 2025/11/4 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Hayato)
Mechanistic origins of temperature scaling in the early embryonic cell cycle
Rombouts et al, Nat Commun (2025) 16(1):8045
286. 2025/10/28 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yu) 15
Cell state-specific cytoplasmic density controls spindle architecture and scaling
Kletter et al, Nat Cell Biol (2025) 27:959–971
285. 2025/10/21 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Haru) 14
Morphological growth dynamics, mechanical stability, and active microtubule mechanics underlying spindle self-organization
Fukuyama et al, PNAS (2022) 119(44):e2209053119
284. 2025/9/8 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 13
Reconstitution of lamin assembly on nuclear pore complex-containing membranes
Pedersen et al, bioRxiv (2025) 667287
283. 2025/9/1 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 12
Dynamic Allometry of Nuclei in Early Embryos of Caenorhabditis elegans
Fickentscher et al, Phys Rev X (2024) 14(1):011016
282. 2025/8/8 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 11
Proteasome inhibition induces microtubule-dependent changes in nuclear morphology
Sengupta et al, iScience (2025) 28:111550
281. 2025/6/2 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 10
Nuclear import of Xenopus egg extract components into cultured cells for reprogramming purposes: a case study on goldfish fin cells
Chênais et al, Sci Rep (2019) 9:2861
280. 2025/4/7 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 9
Evidence for widespread cytoplasmic structuring into mesoscale condensates
Keber et al, Nat Cell Biol (2024) 26:346-352
279. 2025/3/11 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 8
Somatic polyploidy supports biosynthesis and tissue function by increasing transcriptional output
Lessenger et al, J Cell Biol (2025) 224(3):e202403154
278. 2025/3/3 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 7
The nuclear-cytoplasmic ratio controls the cell cycle period in compartmentalized frog egg extract
Piñeros et al, bioRxiv (2024) 605512
277. 2025/2/26 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 6
1,6-hexanediol rapidly immobilizes and condenses chromatin in living human cells
Itoh et al, Life Sci Alliance (2021) 4(4):e202001005
276. 2025/2/10 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 5
Chromatin assembly and transcriptional cross-talk in Xenopus laevis oocyte and egg extracts
Wang & Shechter, Int J Dev Biol (2016) 60:315-320
275. 2025/1/29 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 4
Phosphatidylserine enrichment in the nuclear membrane regulates key enzymes of phosphatidylcholine synthesis.
Niu et al, EMBO J (2024) 43(16):3414-3449
274. 2025/1/22 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 3
Cortical microtubule pulling forces contribute to the union of the parental genomes in the Caenorhabditis elegans zygote
Velez-Aguilera et al, eLife (2022) 11:e75382
273. 2025/1/14 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 2
Seipin governs phosphatidic acid homeostasis at the inner nuclear membrane.
Romanauska et al, Nat Commun (2024) 15(1):10486
272. 2025/1/7 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 1
A membrane reticulum, the centriculum, affects centrosome size and function in Caenorhabditis elegans
Maheshwari et al, Curr Biol (2023) 33:791–806
271. 2024/12/24 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 29
Single-molecule diffusivity quantification in Xenopus egg extracts elucidates physicochemical properties of the cytoplasm.
Choi et al, PNAS (2024) 121(50):e2411402121
270. 2024/12/12 (Thu) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 28
Systematic analysis of cell morphodynamics in C. elegans early embryogenesis
Azuma et al, Front Bioinform (2023) 3:1082531
269. 2024/11/12 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 27
SIR telomere silencing depends on nuclear envelope lipids and modulates sensitivity to a lysolipid.
Sosa Ponce et al, J Cell Biol (2023) 222: e202206061
268. 2024/10/29 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mika) 26
Episodic Transport of Protein Aggregates Achieves a Positive Size Selectivity in Aggresome Formation
Fang et al, bioRxiv (2024) 606767
267. 2024/10/17 (Thu) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 25
Nuclear assembly in giant unilamellar vesicles encapsulating Xenopus egg extract
Takamori et al, bioRxiv (2024) 600006
266. 2024/10/10 (Thu) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 24
A transcriptional lineage of the early C. elegans embryo
Tintori et al, Dev Cell (2016) 38:430–444
265. 2024/9/17 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 23
Cytoskeletal rearrangement precedes nucleolar remodeling during adipogenesis
Potolitsyna et al, Commun Biol (2024) 7(1):45
264. 2024/9/9 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 22
Multimolecular Competition Effect as a Modulator of Protein Localization and Biochemical Networks in Cell-Size Space
Nishikawa et al, Adv Sci (2024) 11:2308030
263. 2024/9/2 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 21
Initial characterization of gap phase introduction in every cell cycle of C. elegans embryogenesis
Wong et al, Front Cell Dev Biol (2022) 10:978962
262. 2024/8/26 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 20
A role for endoplasmic reticulum dynamics in the cellular distribution of microtubules
Tikhomirova et al, PNAS (2022) 119(15):e2104309119
261. 2024/8/19 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 19
Uncovering the Role of the Yeast Lysine Acetyltransferase NuA4 in the Regulation of Nuclear Shape and Lipid Metabolism
Laframboise et al, Mol Cell Biol (2024) 44(7):273-28
260. 2024/8/5 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 18
Resection of DNA double-strand breaks activates Mre11 –Rad50–Nbs1 - and Rad9–Hus1 –Rad1 -dependent mechanisms that redundantly promote ATR checkpoint activation and end processing in Xenopus egg extracts
Tatukawa et al, Nuc Acid Res (2024) 52:3146-3163
259. 2024/7/22 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 17
Control of cell cycle timing during C. elegans embryogenesis
Bao et al, Dev Biol (2008) 318:65–72
258. 2024/7/1 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 16
Pet10p is a yeast perilipin that stabilizes lipid droplets and promotes their assembly
Gao et al, J Cell Biol (2017) 216(10):3199–3217
257. 2024/5/7 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 15
C. elegans ageing is accelerated by a self-destructive reproductive programme
Kern et al, Nat Commun (2023) 14:4381
256. 2024/4/22 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 14
Using an ER-specific optogenetic mechanostimulator to understand the mechanosensitivity of the endoplasmic reticulum
Song et al, Dev Cell (2024) in press
255. 2024/2/29 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 13
The consequences of tetraploidy on Caenorhabditis elegans physiology and sensitivity to chemotherapeutics
Misare et al, Sci Rep (2023) 13(1):18125
254. 2024/2/22 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 12
OpenNucleome for high resolution nuclear structural and dynamical modeling
Lao et al, bioRxiv (2023) 562451
253. 2024/2/16 (Fri) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 11
Chromatin Compaction by Small RNAs and the Nuclear RNAi Machinery in C. elegans
Fields & Kennedy, Sci Rep (2019) 9:9030
252. 2024/2/15 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 10
Compartmentalized Synthesis of Triacylglycerol at the Inner Nuclear Membrane Regulates Nuclear Organization
Barbosa et al., Dev Cell (2019) 50:755–766
251. 2024/1/25 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 9
Reprogrammed lipid metabolism protects inner nuclear membrane against unsaturated fat
Romanauska & Köhler, Dev Cell (2021) 56(18):2562-2578
250. 2024/1/24 (Wed) 12:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 8
The Inner Nuclear Membrane Is a Metabolically Active Territory that Generates Nuclear Lipid Droplets
Romanauska & Köhler, Cell (2018) 174(3):700-715
249. 2024/1/23 (Tue) 12:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 7
Nuclear pore basket proteins are tethered to the nuclear envelope and can regulate membrane curvature
Mészáros et al, Dev Cell (2015) 33(3):285-98
248. 2024/1/22 (Mon) 12:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 6
Differential reliance of CTD-nuclear envelope phosphatase 1 on its regulatory subunit in ER lipid synthesis and storage
Carrasquillo Rodríguez et al, bioRxiv (2023) 562096
247. 2024/1/19 (Fri) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Wataru) 5
A membrane-sensing mechanism links lipid metabolism to protein degradation at the nuclear envelope
Lee et al, J Cell Biol (2023) 222(9):e202304026
246. 2024/1/18 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 4
Ndc1 drives nuclear pore complex assembly independent of membrane biogenesis to promote nuclear formation and growth
Mauro et al, Elife (2022) 11:e75513
245. 2024/1/17 (Wed) 12:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 3
Cell cycle regulation of ER membrane biogenesis protects against chromosome missegregation
Merta et al, Dev Cell (2021) 56(24):3364-3379
244. 2024/1/15 (Mon) 12:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Namu) 2
Dynein pulling forces counteract lamin-mediated nuclear stability during nuclear envelope repair
Penfield et al, Mol Biol Cell (2018) 29(7):852-868
243. 2024/1/12 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Wataru) 1
Dynamic nanoscale morphology of the ER surveyed by STED microscopy
Schroeder et al, J Cell Biol (2019) 218(1):83-96
242. 2023/12/28 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kokona) 22
Mitotic chromosome length scales in response to both cell and nuclear size
Ladouceur et al, J Cell Biol (2015) 209(5):645-51
241. 2023/12/22 (Fri) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Wataru) 21
Lipid levels in sperm, eggs, and during fertilization in Xenopus laevis
Petcoff et al, J Lip Res (2008) 48:2365-2378
240. 2023/12/21 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuto) 20
The histone chaperone NASP maintains H3- H4 reservoirs in the early Drosophila embryo
Reyhaneh et al, PLoS Genet (2023) 19(3): e1010682
239. 2023/12/14 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuiko) 19
An RNAi screen for genes that affect nuclear morphology in Caenorhabditis elegans reveals the involvement of unexpected processes
Maheshwari et al, G3(2021) 11(11), jkab264
238. 2023/11/30 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuka) 18
Nuclear growth and import can be uncoupled
Chen et al, Mol Biol Cell (2023) in press
237. 2023/11/22 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Chiyo) 17
Actomyosin Tube Formation in Polar Body Cytokinesis Requires Anillin in C. elegans
Dorm et al, Curr Biol (2010) 20, 2046-2051
236. 2023/11/9 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuto) 16
Differential nuclear import sets the timing of protein access to the embryonic genome
Nguyen et al, Nat Commun (2022) 13:5887
235. 2023/11/2 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuiko) 15
Lipid saturation controls nuclear envelope function
Romanauska & Köhler, Nat Cell Biol (2023) 25:1290–1302
234. 2023/10/19 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuto) 14
NET23/STING Promotes Chromatin Compaction from the Nuclear Envelope
Malik et al, PLoS one (2014) 9(11):e111851
233. 2023/10/12 (Thr) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuiko) 13
Conserved nucleocytoplasmic density homeostasis drives cellular organization across eukaryotes
Biswas et al. bioRxiv (2023) 556409
232. 2023/9/5 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuto) 12
Mitotic chromosomes scale to nuclear cytoplasmic ratio and cell size in Xenopus
Coral et al, eLife (2023) 12:e84360
231. 2023/8/22 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 11
Identification of epigenetic modulators as determinants of nuclear size and shape
Schibler et al, eLife (2023) 12:e80653
230. 2023/8/7 (Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuiko) 10
REI-1 Is a Guanine Nucleotide Exchange Factor Regulating RAB-11 Localization and Function in C. elegans Embryos
Sakaguchi et al. Dev Cell (2015) 35, 211–221
229. 2023/7/25 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Wataru) 9
Subcellular metabolite and lipid analysis of Xenopus laevis eggs by LAESI mass spectrometry
Shrestha et al, PLoS One (2014) 9(12), e115173
228. 2023/7/11 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuto) 8
Histone H3 Methylated at Arginine 17 is essential for reprogramming the paternal genome in zygotes
Hatanaka et al, Cell Rep (2017) 20(12), 2756-2765
227. 2023/7/4 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 7
Organization of Chromatin by Intrinsic and Regulated Phase Separation
Gibson et al, Cell (2019) 179(2) 470-484
226. 2023/6/27 (Wed) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuiko) 6
Endoplasmic-reticulum-mediated microtubule alignment governs cytoplasmic streaming
Kimura et al, Nat. Cell Biol. (2017) 19, 399-406
225. 2023/5/16 (Tue) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 5
The nuclear-to-cytoplasmic ratio drives cellularization in the close animal relative Sphaeroforma arctica
Olivetta & Dudin, Curr Biol. (2023) 33(8), 1597-1605
224. 2023/4/11 (Tue) 15:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki) 4
The correlation between cell and nucleus size is explained by an eukaryotic cell growth model
Wu et al, PLoS Comput. Biol. (2022) 18(2), e1009400
223. 2023/2/7(Mon) 10:15- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Kohei) 3
ESCRT-III controls nuclear envelope reformation
Olmos et at al. Nature (2015) 522, 236-247
222. 2023/2/1(Wed) 10:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuiko) 2
Caenorhabditis elegans pathways that surveil and defend mitochondria
Liu et al, Nature (2014) 508, 406-410
221. 2023/1/23(Mon) 14:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuto) 1
Chromosome arm length, and a species-specific determinant, define chromosome arm width
Kakui et al, Cell Rep. (2022) 41(10), 111753
220. 2022/12/19(Mon) 14:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Shoya) 15
Factors promoting nuclear envelope assembly independent of the canonical ESCRT pathway
Lee et al, J. Cell Biol. (2020) 219(6), e201908232
219. 2022/12/12(Mon) 14:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Ayano) 14
Sublinear scaling of the cellular proteome with ploidy
Yahya et al, Nat. Commun. (2022) 13(1), 6182
218. 2022/12/5(Mon) 14:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mizuki) 13
RNA is required for the integrity of multiple nuclear and cytoplasmic membrane-less RNP granules
Decker et al, EMBO J. (2022) 41, e110137
217. 2022/11/21(Mon) 14:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki K) 12
Involvement of the Actin Cytoskeleton and Homotypic Membrane Fusion in ER Dynamics in Caenorhabditis elegans
Poteryave et al, Mol Biol Cell (2005) 16, 2139-2153
216. 2022/11/14(Mon) 15:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Shoya) 11
The ESCRT-III isoforms CHMP2A and CHMP2B display different effects on membranes upon polymerization
Alqabandi et al. BMC Biol (2021) 19, 66
215. 2022/10/26(Wed) 15:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Shoya) 10
NSF- and SNARE-mediated membrane fusion is required for nuclear envelope formation and completion of nuclear pore complex assembly in Xenopus laevis egg extracts
Baur et al. J Cell Sci (2007) 120, 2895-2903
214. 2022/10/12(Wed) 10:30- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Ayano) 9
Acentrosomal spindle assembly and maintenance in Caenorhabditis elegans oocytes requires a kinesin-12 nonmotor microtubule interaction domain
Wolff et al. Mol Biol Cell (2022) 33(8):ar71, 1-16
213. 2022/10/6(Thu) 10:15- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mizuki) 8
CX-5461 causes nucleolar compaction, alteration of peri- and intranucleolar chromatin arrangement, an increase in both heterochromatin and DNA damage response
Snyers et al. Sci Rep (2022) 12(1):13972.
212. 2022/9/5(Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Yuki-H) 7
Nuclear chromosome locations dictate segregation error frequencies.
Klaasen et al. Nature (2022) 607:604–609.
211. 2022/8/29(Mon) 9:00- @Online (Presenter: Ayano) 6
Physically asymmetric division of the C. elegans zygote ensures invariably successful embryogenesis.
Jankele et al, Elife (2021) 10:e61714.
210. 2022/8/1(Mon) 9:00- @Research Building 507-2 総合研究棟507-2号室 (Presenter: Mizuki) 5
L-bodies are RNA–protein condensates driving RNA localization in Xenopus oocytes
Neil et al, Mol Biol Cell (2021) 32(22):ar37
209. 2022/2/14(Mon) 9:00- @online (Presenter: Ayano) 4
The photochemical, corynoline, diminishes aurora kinase b activity to induce mitotic defect and polyploidy
Yan et al, Biomed Pharmacother (2022) 147:112645
208. 2022/2/7(Mon) 9:00- @online (Presenter: Shoya) 3
Autonomous Metabolic Oscillations Robustly Gate the Early and Late Cell Cycle
Papagiannakis et al, Mol Cell (2017) 65:285-295
207. 2022/1/31(Mon) 9:00- @online (Presenter: Mizuki) 2
Size-Dependent Increase in RNA Polymerase II Initiation Rates Mediates Gene Expression Scaling with Cell Size
Sun et al, Curr Biol (2020) 30(7):1217–1230
206. 2022/1/17(Mon) 9:00- @online (Presenter: Yuki-H) 1
Control of nuclear size by osmotic forces in Schizosaccharomyces pombe
Lemière et al, bioRxiv (2021) 471221
205. 2021/12/20(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Ayano) 31
Cell growth dilutes the cell cycle inhibitor Rb to trigger cell division
Zatulovskiy et al, Science (2020) 369(6502):466-471
204. 2021/12/13(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Shoya) 30
Power law relationship between cell cycle duration and cell volume in the early embryonic development of Caenorhabditis elegans
Arata et al, (2015) Front Physiol 5:529
203. 2021/12/6(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Mizuki) 29
RNA polymerase II dynamics and mRNA stability feedback determine mRNA scaling with cell size
Swaffer et al, (2021) bioRxiv 461005
202. 2021/11/29(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki-K) 28
Excess histone H3 is a competitive Chk1 inhibitor that controls cell-cycle remodeling in the early Drosophila embryo
Shindo et al, (2021) Curr Biol, 31(12):2633-2642
201. 2021/11/15(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki-H) 27
Cell size controlled in plants using DNA content as an internal scale
D'Ario et al, Science (2021) 372(6547):1176-1181
200. 2021/11/8(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Madoka) 26
A role for gp210 in mitotic nuclear-envelope breakdown
Galy et al, (2008) J Cell Sci, 121(3):317–328
199. 2021/10/25(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Ririka) 25
DK control pathways integrate cell size and ploidy information to control cell division
Patterson et al, (2021) eLife, 10:e64592
198. 2021/10/18(Mon) 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 24
Increasing cell size remodels the proteome and promotes senescence
Lanz et al, biorxiv (2021) 454227
197. 2021/9/27(Mon), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Kosuke) 23
Robust surface-to-mass coupling and turgor-dependent cell width determine bacterial dry-mass density
Oldewurtel et al, PNAS (2021) 118:e2021416118
196. 2021/9/22(Tue), 9:00- @Building-3, room 109 理学部3号館109 & on-line (Presenter: Madoka) 22
Reshaping of the endoplasmic reticulum limits the rate for nuclear envelope formation
Anderson & Hetzer, J Cell Biol (2008) 182:991-924
195. 2021/9/10(Fri), 9:00- @Building-3, room 109 理学部3号館109 & on-line (Presenter: Tomonari) 21
Nuclear RNA concentration coordinates RNA production with cell size in human cells
Berry et al (2021) bioRixv 444432
194. 2021/9/3(Fri), 9:00- @Building-3, room 109 理学部3号館109 & on-line (Presenter: Ririka) 20
Polyploids and Sex determination in Caenorhabditis elegans
Madl & Herman, (1979)
Control of Cell-Cycle Timing in Early Embryos of Caenorhabditis elegans
Schierenberg & Wood (1984)
193. 2021/8/23(Mon), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 19
Chemical-Genetic Interrogation of Nuclear Size Control Reveals Cancer-Specific Effects on Cell Migration and Invasion
Rizzotto et al, bioRixv (2020) 902148
192. 2021/7/28(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Madoka) 18
Coordination of Kinase and Phosphatase Activities by Lem4 Enables Nuclear Envelope Reassembly during Mitosis
Asencio et al, Cell (2012) 122-135
191. 2021/6/30(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Tomonari) 17
Inverse Size Scaling of the Nucleolus by a Concentration-Dependent Phase Transition
Weber & Brangwynne, Curr Biol (2015) 25, 641-646
190. 2021/6/23(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Ririka) 16
A lysosomal switch triggers proteostasis renewal in the immortal C. elegans germ lineage
Bohnert & Kenyon, Nature (2017) 551(7682):629-633
189. 2021/5/26(Wed), 10:30- @TBA (Presenter: Madoka) 15
The DNA-to-cytoplasm ratio broadly activates zygotic gene expression in Xenopus.
Jukam et al, bioRxiv (2021) 440334
188. 2021/5/19(Wed), 9:00- @on-line (Presenter: Tomonari) 14
Coexisting Liquid Phases Underlie Nucleolar Subcompartments
Feric et al, Cell (2016) 165(7):1553-1820
187. 2021/4/21(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Ririka) 13
Channel Nucleoporins Recruit PLK-1 to Nuclear Pore Complexes to Direct Nuclear Envelope Breakdown in C. elegans
Martino et al, Dev Cell (2017) 43(2):157-171
186. 2021/4/14(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 12
C. elegans pronuclei fuse after fertilization through a novel membrane structure
Rahman et al, J Cell Biol (2020) 219(2): e201909137
185. 2021/4/7(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Kosuke) 11
Whole-genome doubling confers unique genetic vulnerabilities on tumour cells
Quinton et al, Nature (2021) 590:492–497
184. 2021/3/24(Wed), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 10
Robust integrated intracellular organization of the human iPS cell: where, how much, and how variable
Viana et al, BioRxiv (2020) 415562
183. 2021/3/17(Wed), 9:00- @on-line (Presenter: Tomonari) 9
Glutamylation of Nap1 modulates histone H1 dynamics and chromosome condensation in Xenopus
Miller & Heald, J Cell Biol (2015) 209(2):211–220
182. 2021/3/10(Wed), 9:00- @on-line (Presenter: Madoka) 8
Lem2 and Lnp1 maintain the membrane boundary between the nuclear envelope and endoplasmic reticulum
Hirano et al, Commun Biol (2020) 3:276
181. 2021/3/3(Wed), 9:00- @on-line (Presenter: Ririka) 7
Cell Size Determines the Strength of the Spindle Assembly Checkpoint during Embryonic Development
Galli & Morgan, Dev Cell (2016) 36(3):344-52
180. 2021/2/22(Wed), 9:00- @on-line (Presenter: Yuki) 6
An immunosurveillance mechanism controls cancer cell ploidy
Senovilla et al, Science (2012) 337(6102):1678-84
179. 2021/2/8(Mon), 9:00- @on-line (Presenter: Wataru) 5
Chromosome clustering by Ki-67 excludes cytoplasm during nuclear assembly
Cuylen-Haering et al., Nature (2020) 587:285–290
178. 2021/1/28(Thr), 9:00- @on-line (Presenter: Tomonari) 4
Amyloids assemble as part of recognizable structures during oogenesis in Xenopus
Hayes & Weeks, Biol Open (2016) 5:801–806
177. 2021/1/21(Thr), 9:00- @on-line (Presenter: Madoka) 3
Inner nuclear membrane protein LEM-2 is required for correct nuclear separation and morphology in C. elegans
Morales-Martínez et al, J Cell Sci (2015) 128:1090–1096
176. 2021/1/14(Thr), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Ririka) 2
The mitotic protein NuMA plays a spindle-independent role in nuclear formation and mechanics
Serra-Marques et al, J Cell Biol (2020) 219(12):e202004202
175. 2021/1/7(Thr), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Masahi) 1
A homeostatic mechanism rapidly corrects aberrant nucleocytoplasmic ratios maintaining nuclear size in fission yeast
Cantwell & Nurse, J Cell Sci (2019) 132(22):jcs235911
174. 2020/12/24(Thr), 9:00- @Building-3, room 116 理学部3号館学生実験室116 (Presenter: Shuichi) 22,23
Nuclear microenvironment in cancer: Control through liquidliquid phase separation
Nozawa et al, Cancer Sci (2020) 3155–3163
RNA buffers the phase separation behavior of prion-like RNA binding proteins
Maharana et al, Science (2018) 918–921
173. 2020/12/17(Thr), 9:00- @Building-3, room 116 理学部3号館学生実験室116 (Presenter: Yuki) 21
Cytoplasmic control of intranuclear polarity by human cytomegalovirus
Procter et al Nature (2020) 587, 109–114
172. 2020/12/10(Thr), 9:00- @Building-3, room 116 理学部3号館学生実験室116 (Presenter: Masahi) 20
Concentration-dependent Effects of Nuclear Lamins on Nuclear Size in Xenopus and Mammalian Cells
Jevtic et al, J Biol Chem (2015) 290(46):27557–27571
171. 2020/12/3(Thr), 9:00- @Building-3, room 116 理学部3号館学生実験室116 (Presenter: Shuichi) 19
A transient pool of nuclear F-actin at mitotic exit controls chromatin organization
Baarlink et al, Nat Cell Biol (2017) 19(12):1389–1399
170. 2020/11/26(Thr), 9:00- @Building-3, room 116 理学部3号館学生実験室116 (Presenter: Nozomi) 18
Phosphatidylserine synthesis at membrane contact sites promotes its transport out of the ER
Kannan et al, J Lipid Res (2017) 58(3):553–562
169. Plan] 2020/11/19(Thr), 9:00- @Building-3, room 116 理学部3号館学生実験室116 (Presenter: Yuki) 17
The nucleus acts as a ruler tailoring cell responses to spatial constraints
Lomakin et al, Science (2020) 370(6514), eaba2894
168. 2020/11/12(Thr), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Masahi) 16
Hepatic confinement of newly produced erythrocytes caused by low-temperature exposure in Xenopus laevis
Maekawa et al, J Exp Biol (2012) 215, 3087-3095
167. 2020/11/6(Fri), 9:00- @Main Building, room 114 理学部本館第3セミナー室 (Presenter: Shuichi) 15
Heterochromatin-Driven Nuclear Softening Protects the Genome against Mechanical Stress-Induced Damage
Nava et al, Cell (2020) 181, 800-817
166. 2020/10/30(Fri), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Nozomi) 14
The exocyst complex and Rab5 are required for abscission by localizing ESCRT III subunits to the cytokinetic bridge
Harsh Kumar et al., J Cell Sci (2019) 32(14):jcs226001
165. 2020/10/16(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Masahi) 13
Coincidence, coevolution, or causation? DNA content, cell size, and the C-value enigma
Gregory, (2011) Biol. Rev. 76:65–101
164. 2020/9/11(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Nozomi) 12
Regulated lipid synthesis and LEM2/CHMP7 jointly control nuclear envelope closure
Penfield et al.,(2020) J Cell Biol 219(5):e201908179
163. 2020/9/4(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 11
Delineating the Rules for Structural Adaptation of Membrane-Associated Proteins to Evolutionary Changes in Membrane Lipidome
Makarova et al., (2020) Curr Biol 30(3):367–380
162. 2020/7/10(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 10
LEM2 phase separation promotes ESCRT-mediated nuclear envelope reformation
von Appen et al., (2020) Nature, 582 115-118
161. 2020/7/3(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Nozomi) 9
A role for Rab5 in structuring the endoplasmic reticulum
Audhya et al, (2007) J. Cell Biol.178(1):43-56
160. 2020/6/5(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 8
The Perinuclear ER Scales Nuclear Size Independently of Cell Size in Early Embryos
Mukherjee et al, (2020) Dev Cell, 54(3): 395-409
159. 2020/5/29(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Nozomi) 7
Caenorhabditis elegans SNAP-29 is required for organellar integrity of the endomembrane system and general exocytosis in intestinal epithelial cells
Sato et al., (2011) Mol. Biol. Cell, 22(14):2579-87
158. 2020/5/15(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 6
Lipids and Their Trafficking: An Integral Part of Cellular Organization
Jackson et al, (2016) Dev Cell 39(2):139-153
157. 2020/5/8(Fri), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Nozomi) 5
Compartmentalization of the endoplasmic reticulum in the early C. elegans embryos
Lee et al, (2016) J. Cell Biol. 214(6) 665–675
156. 2020/2/17(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 4
Chromatin de-condensation by switching substrate elasticity
Rabineau et al, (2018) Sci. Rep. 8:12655
155. 2020/1/28(Tue), 10:30- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 3
Excessive Cell Growth Causes Cytoplasm Dilution And Contributes to Senescence.
Neurohr et al, (2019) Cell, 176(5) 1083-1097
154. 2020/1/28(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 2
Physicochemical mechanotransduction alters nuclear shape and mechanics via heterochromatin formation
Stephens et al. Molecular Biology of the Cell (2019)
153.2020/1/21(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 1
Generation of Xenopus Haploid, Triploid, and Hybrid Embryos.
Gibeaux & Heald, Methods Mol Biol. 1920: 303-315. (2019)
152. 2019/12/27(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Masahi) 39
A Balance between Nuclear and Cytoplasmic Volumes Controls Spindle Length
Novakova et al, PLoS ONE, 11(2), e0149535 (2016)
151. 2019/12/20(Fri), 10:30- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Nozomi) 38
Extracellular matrix mechanical cues regulate lipid metabolism through
Romani et al, Nat Cell Biol, 21, 338-347 (2019)
150. 2019/12/20(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Tetsufumi) 37
Genome size, cell size, and the evolution of enucleated erythrocytes in attenuate salamanders
Mueller et al, Zoology (Jena), (2008), 111(3), 218–230.
149. 2019/12/17(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 36
A nuclear lamina‐chromatin‐Ran GTPase axis modulates nuclear import and DNA damage signaling
Dworak et al, Aging Cell (2019), 18(1): e12851
148. 2019/11/22(Fri), 10:30- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Yuki) 35
Spontaneous emergence of cell-like organization in Xenopus egg extracts
Cheng & Ferrell Jr., Science, 366(6465), 631-637 (2019)
147. 2019/11/22(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Sora) 34
Spatiotemporal Patterning of Zygotic Genome Activation in a Model Vertebrate Embryo.
Chen et al, Dev. Cell, 2019, 49(6):852-866
146. 2019/11/15(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Tatsuya) 33
Reconstituting Drosophila Centromere Identity in Human Cells
Roure V et al, Cell Reports (2019) 464-479
145. 2019/11/8(Fri), 10:30- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Yuki) 32
Paternal chromosome loss and metabolic crisis contribute to hybrid inviability in Xenopus
Gibeaux et al, Nature, 553, 337–341 (2018)
144. 2019/11/8(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Tetsufumi) 31
ZNF300 Knockdown Inhibits Forced Megakaryocytic Differentiation by Phorbol and Erythrocytic Differentiation by Arabinofuranosyl Cytidine in K562 Cells
Cai et al,PLoS One. 2014; 9(12): e114768.
143. 2019/11/1(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Shuntaro) 30
Gene Expression in on-Chip Membrane-Bound Artificial Cells
Ziane Izri et al, ACS Synth. Biol. 8, 1705−1712 (2019)
142. 2019/10/25(Fri), 9:00- @Main Building, seminar room 1 理学部本館第一セミナー室 (Presenter: Shuichi) 29
Effects of altering histone posttranslational modifications on mitotic chromosome structure and mechanics
Biggs et al, MBoC, 30(7):820-827 (2019)
141. 2019/10/15(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 28
The Spatiotemporal Control of Zygotic Genome Activation.
Gentsch GE et al, iScience (2019)
140. 2019/10/7(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 27
Association of M18BP1/KNL2 with CENP-A Nucleosome Is Essential for Centromere Formation in Non-mammalian Vertebrates.
Hori et al. Dev Cell, 42, 181-189 (2017)
139. 2019/9/30(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tetsufumi) 26
Single-cell measurement of red blood cell oxygen affinity
Di Caprio et al. PNAS 9984–9989 (2015)
138. 2019/9/24(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuntaro) 25
Noisy Cell-Size-Correlated Expression of Cyclin B Drives Probabilistic Cell-Size Homeostasis in Fission Yeast
Patterson et al, Curr Biol 29, 1379–1386 (2019)
137. 2019/9/17(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 24
Nuclear formation induced by DNA-conjugated beads in living fertilised mouse egg
Suzuki et al, Sci Rep 9:8461 (2019)
136. 2019/8/9(Fri), 10:30- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 23
Oriented cell divisions asymmetrically segregate aPKC and generate cell fate diversity in the early Xenopus embryo
Chalmers et al, Development (2003)
135. 2019/8/6(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 22
RbAp46/48LIN-53 Is Required for Holocentromere Assembly in Caenorhabditis elegans
Lee et al, Cell Rep. (2016) 14(8):1819-28
134. 2019/7/30(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tetsufumi) 21
Maintenance of Nucleolar Machineries and pre-rRNAs in Remnant Nucleolus of Erythrocyte Nuclei and Remodeling in Xenopus Egg Extracts
Verheggen et al, Exp. Cell Res. (2001) 269, 23–34
133. 2019/7/23(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuntaro) 20
Diversity in the dynamical behaviour of a compartmentalized programmable biochemical oscillator
Weitz et al, Nat. Chem. (2014), 6, 295-302
132. 2019/7/17(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 19
Nuclear membrane protein Lem2 regulates nuclear size through membrane flow
Kume et al, Nat. Commun. (2019) 10, 1871
131. 2019/6/25(Tue), 10:30- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 18
Nucleoid Size Scaling and Intracellular Organization of Translation across Bacteria
Gray et al, Cell (2019) 177, 1632-1648
130. 2019/6/25(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuntaro) 17
Chk1 Inhibition of the Replication Factor Drf1 Guarantees Cell-Cycle Elongation at the Xenopus laevis Mid-blastula Transition
Collart et al, Cell (2017) 42, 82-96
129. 2019/6/19(Wed), 10:30- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 16
Xenopus HJURP and condensin II are required for CENP-A assembly
Ana Losada et al, J Cell Biol. (2011) 192 569-582
128. 2019/6/19(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 15
Nuclear Scaling Is Coordinated among Individual Nuclei in Multinucleated Muscle Fibers
Windner et al, Dev Cell (2019), 49: 48-62
127. 2019/6/11(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 14
Liquid Nuclear Condensates Mechanically Sense and Restructure the Genome
Shin et al, Cell (2018) 175, 1481-1491
126. 2019/5/29(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuntaro) 13
Zygotic Genome Activation Triggers the DNA Replication Checkpoint at the Midblastula Transition
Blythe & Wieschaus (2015) Cell, 160, 1169–1181
125. 2019/5/22(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 12
A systematic genetic screen identifies essential factors involved in nuclear size control
Cantwell & Nurse (2019) PLoS Genet., 15(2), e1007929
124. 2019/5/15(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 11
The molecular architecture of lamins in somatic cells.
Turgay et al, (2017) Nature, 543(7644), 261-264
123. 2019/4/24(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuntaro) 10
A robust and tunable mitotic oscillator in artificial cells
Ye Guan et al, (2018) eLife, 7, e33549
122. 2019/4/17(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 9
The nucleoporin ELYS regulates nuclear size by controlling NPC number and nuclear import capacity
Jevtic et al, (2019) bioRxiv
121. 2019/3/26(Tue), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Shuntaro) 8
Spatial control of phospholipid flux restricts endoplasmic reticulum sheet formation to allow nuclear envelope breakdown
Bahmanyar et al, (2014) Genes Dev. 28(2):121-6
120. 2019/3/26(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tetsufumi) 7
Development of Erythroid Progenitors under Erythropoietin Stimulation in Xenopus laevis Larval Liver
Okui et al, (2016) Zool. Sci. 33(6), 575-582
119. 2019/2/26(Tue), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 6
Importin α Partitioning to the Plasma Membrane Regulates Intracellular Scaling
Brownlee & Heald, (2019) Cell, 176(4), 805-815
118. 2019/2/26(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 5
Cytoplasmic Volume and Limiting Nucleoplasmin Scale Nuclear Size During Xenopus Laevis Development
Chen et al, bioRxiv, (2019) 511451
117. 2019/1/29(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 4
CDK phosphorylation of Xenopus laevis M18BP1 promotes its metaphase centromere localization
French & Straight, EMBO J. (2019) e100093
116. 2019/1/10(Thr), 16:30- @Building-3, room 115 理学部3号館115 (Presenter: Tetsufumi) 3
The Bigger the C-Value, the Larger the Cell: Genome Size and Red Blood Cell Size in Vertebrates
Gregory, Blood Cells Mol. Diseases. (2001) 27(5), 830-843
115. 2019/1/9(Wed), 16:30- @Main Building-1, Seminar room #3 理学部本館第3共用セミナー室 (Presenter: Shuntaro) 2
Nuclear envelope formation by chromatin-mediated reorganization of the endoplasmic reticulum
Anderson & Hetzer, Nat. Cell Biol. (2007) 9(10), 1160-1166
114. 2019/1/8(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 1
Nuclear envelope expansion in budding yeast is independent of cell growth and does not determine nuclear volume
Walters AD et al, Mol Biol Cell, (2019) 30(1), 131-145
113. 2018/12/18(Tue), 9:00- @Main Building-1, room 111 理学部1号館第1共用セミナー室 (Presenter: Anna M) 40
Microtubules Remodel Actomyosin Networks in Xenopus Egg Extracts via Two Mechanisms of F-Actin Transport
Waterman-Storer et al. J. Cell Biol. (2000) 150(2), 361-376
112. 2018/11/28(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 39
Nucleolar expansion and elevated protein translation in premature aging
Buchwalter & Hetzer, Nat. Commun. (2017) 8:328
Single nucleolus precursor body formation in the pronucleus of mouse zygotes and SCNT embryos
Kyogoku et al, PLoS One, (2018), 13(8): e0202663
111. 2018/11/28(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 38
Emerin induces nuclear breakage in Xenopus extract and early embryos
Dilsaver et al, Mol. Biol. Cell (2018) in press
110. 2018/11/20(Tue), 10:15- @Main Building-1, room 112 理学部1号館第2共用セミナー室 (Presenter: Tatsuya) 37
Centromeres License the Mitotic Condensation of Yeast Chromosome Arms
Kruitwagen et al, Cell. (2018) 175(3):780-795
109. 2018/11/20(Tue), 9:00- @Main Building-1, room 112 理学部1号館第2共用セミナー室 (Presenter: Sora) 36
Cell size sensing in animal cells coordinates anabolic growth rates and cell cycle progression to maintain cell size uniformity
Ginzberg et al, Elife. (2018)
108. 2018/10/23(Tue), 10:15- @Main Building-1, room 111 理学部1号館第1共用セミナー室 (Presenter: Hiroko) 35
RNAs coordinate nuclear envelope assembly and DNA replication through ELYS recruitment to chromatin.
Aze et al, Nat Commun. (2017) 8, 2130
107. 2018/10/23(Tue), 9:00- @Main Building-1, room 111 理学部1号館第1共用セミナー室 (Presenter: Yuki) 34
Volume regulation and shape bifurcation in the cell nucleus
Kim et al, J. Cell Sci. (2015) 128:3375-3385
106. 2018/10/16(Tue), 10:00- @Main Building-1, room 111 理学部1号館第1共用セミナー室 (Presenter: Yuki) 33
Actin-Network Architecture Regulates Microtubule Dynamics
Colin et al, Curr. Biol. (2018) 28, 2647-2656
105. 2018/10/16(Tue), 10:30- @Main Building-1, room 111 理学部1号館第1共用セミナー室 (Presenter: Shuichi) 32
Condensin controls mitotic chromosome stiffness and stabilitywithout forming a structurally contiguous scaffold
Sun et al, Chromo Res (2018)
104. 2018/10/16(Tue), 9:00- @Main Building-1, room 111 理学部1号館第1共用セミナー室 (Presenter: Anna M) 31
Actin filaments regulate microtubule growth at the centrosome
Inoue et al, bioRxiv (2018) 302190
103. 2018/10/9(Tue), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 30
Ploidy and Size at Multiple Scales in the Arabidopsis Sepal
Robinson et al, Plant Cell (2018) in press
102. 2018/10/9(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 29
Nuclear envelope assembly defects link mitotic errors to chromothripsis
Shiwei et al, Nature (2018) 561, 551–555
101. 2018/9/20(Thu), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 28
Lamin A and microtubules collaborate to maintain nuclear morphology
Tariq et al, Nucleus (2017) 8(4):433-446
100. 2018/9/20(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 27
Nucleo-cytoplasmic trafficking regulates nuclear surface area during nuclear organogenesis
Boudreau et al, bioRxiv 326140
99. 2018/9/10(Mon), 10:30- @Building-3, room 115 理学部3号館115 (Presenter: Anna M) 26
Nuclear Wave1 Is Required for Reprogramming Transcription in Oocytes and for Normal Development
Miyamoto et al, Science (2013) 341(6149), 1002-1005
98. 2018/9/10(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 25
Sequence-dependent DNA condensation as a driving force of DNA phase separation
Kang et al, Nuc. Acid. Res. (2018) in press
97. 2018/8/27(Mon), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 24
Xenopus laevis M18BP1 directly binds existing CENP-A nucleosomes to promote centromeric chromatin assembly
Bradley et al, Dev Cell (2017) 42(2): 190–199
96. 2018/8/27(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 23
Cell Tension and Mechanical Regulation of Cell Volume
Gonzalez et al, Mol Biol Cell (2018) in press
95. 2018/7/30(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 22
Toxic PRn poly-dipeptides encoded by the C9orf72 repeat expansion block nuclear import and export
Shi et al, PNAS (2017) E1111-1117
94. 2018/7/23(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 21
Assessment of developmental potential of human single pronucleated zygotes derived from conventional in vitro fertilization
Kai et al, J Assist Reprod Genet (2018)
93. 2018/7/9(Mon), 10:15- @Library Study-Room-3 図書館学習室3 (Presenter: Sora) 20
Changes in yolk platelet pH during Xenopus laevis development correlate with yolk utilization. A quantitative confocal microscopy study.
Fagotto & Maxfield, J Cell Sci (1994) 107: 3325-3337
92. 2018/7/9(Mon), 9:00- @Library Study-Room-3 図書館学習室3 (Presenter: Tatsuya) 19
Cell-Cycle Regulation of Dynamic Chromosome Association of the Condensin Complex
Thadani et al, Cell Rep. (2018) 23(8):2308-2317
91. 2018/6/25(Mon), 10:15- @Library Study-Room-3 図書館学習室3 (Presenter: Hiroko) 18
Xpo7 is a broad-spectrum exportin and a nuclear import receptor
Akus et al, J Cell Biol (2018) in press
90. 2018/6/25(Mon), 9:00- @Library Study-Room-3 図書館学習室3 (Presenter: Anna M) 17
The dynamics of gene expression in vertebrate embryogenesis at single-cell resolution
Briggs et al, Science (2018) eaar5780
89. 2018/6/18(Mon), 9:00- @Library Study-Room-6 図書館学習室6 (Presenter: Yuki) 16
Enucleated cells reveal differential roles of the nucleus in cell migration, polarity, and mechanotransduction
Graham et al, J Cell Biol (2018) 217(3), 895-914
88. 2018/6/5(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 15
Differention of the animal-vegetal axis in Xenopus laevis oocytes: I. Polarized intracellular translocation of platelets establishes the yolk gradient
Danilchik & Gerhart, Dev Biol (1987) 122(1):101-12.
87. 2018/6/5(Tue), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 14
Chromosome Segregation Is Biased by Kinetochore Size
Drpic et al, Curr Biol (2018) 1344-1356
86. 2018/5/30(Wed), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 13
Major evolutionary transitions of life, metabolic scaling and the number and size of mitochondria and chloroplasts. .
Okie et al, Proc. R. Soc. B (2016) 283: 20160611
85. 2018/5/30(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 12
Dynamics of Chromatin Decondensation Reveals the Structural Integrity of a Mechanically Prestressed Nucleus
Mazumder et al, Biophys J (2008) 95:3028-3035
84. 2018/5/1(Tue), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 11
Actomyosin and vimentin cytoskeletal networks regulate nuclear shape, mechanics and chromatin organization
Keeling et al, Sci Rep. (2017) 7:5219
83. 2018/5/1(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 10
Centromere transcription allows CENP-A to transit from chromatin association to stable incorporation
Bobkov et al, J Cell Biol. (2018) in press
82. 2018/4/24(Tue), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 9
A general scaling law reveals why the largest animals are not the fastest
Hirt et al, Nat Eco Evo (2017), 1(8), 1116-
81. 2018/4/24(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 8
BAF is a cytosolic DNA sensor that leads to exogenous DNA avoiding autophagy
Kobayashi et al, PNAS (2015) 112(22), 7027-7032
80. 2018/4/17(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 7
Midblastula transition (MBT) of the cell cycles in the yolk and pigment granule-free translucent blastomeres obtained from centrifuged Xenopus embryos.
Iwao et al, Dev. Growth Differ. (2005), 47(5):283-94.
79. 2018/4/10(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 6
A Transient Rise in Free Mg2+ Ions Released from ATP-Mg Hydrolysis Contributes to Mitotic Chromosome Condensation
Maeshima et al, Curr. Biol. (2018) 28(3):444-451
78. 2018/3/27(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 5
Centromeric DNA replication reconstitution reveals DNA loops and ATR checkpoint suppression
Aze et al, Nat. Cell Biol. (2016) 18, 684-691
77. 2018/3/19(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 4
Evolution of mitotic spindle behavior during the first asymmetric embryonic division of nematodes
Valfort et al, PLoS Biol (2018) 16(1), e2005099
76. 2018/2/14(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 3
Invariance of Initiation Mass and Predictability of Cell Size in Escherichia coli
Si et al, Curr. Biol. (2017) 27(9), 1278-1287
75. 2018/2/5(Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 2
Both Nuclear Size and DNA Amount Contribute to Midblastula Transition Timing in Xenopus laevis
Jevtić & Levy, Sci. Rep. (2017) 7, 7908
74. 2018/1/30(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 1
The Bacterial Cytoplasm Has Glass-like Properties and Is Fluidized by Metabolic Activity
Parry et al, Cell (2014), 156, 183-194
73. 2017/12/25(Mon), 10:00- @Building-3, room 115 理学部3号館115 (Presenter: Shuichi) 50
The nucleoporin Nup188 controls passage of membrane proteins across the nuclear pore complex
Theerthagiri et al, J. Cell Biol. (2010) 189, 1129-1142
72. 2017/12/19(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Anna M) 49
Xenopus tropicalis egg extracts provide insight into scaling of the mitotic spindle
Brown et al, J. Cell Biol. (2007) 176, 765-770
71. 2017/11/28(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 48
Chromatin histone modifications and rigidity affect nuclear morphology independent of lamins
Stephens et al, Mol. Biol. Cell (2018) 29(2):220-233
70. 2017/11/21(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 47
Condensation patterns of prophase/prometaphase chromosome are correlated with H4K5 histone acetylation and genomic DNA contents in plants.
Feitoza et al, PLoS One (2017) 12(8), e0183341
69. 2017/11/14(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 46
Heterogeneous architecture of vertebrate kinetochores revealed by three-dimensional superresolution fluorescence microscopy
Wynne & Funabiki, Mol. Biol. Cell (2016) 27, 3395-3404
68. 2017/11/09(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 45
Volume Transitions of Isolated Cell Nuclei Induced by Rapid Temperature Increase
Chan et al, Biophys. J. (2017) 112, 1063-1076
67. 2017/11/02(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 44
Force Triggers YAP Nuclear Entry by Regulating Transport across Nuclear Pores
Elosegui-Artola et al, Cell (2017) 171, 1-14 (in press)
66. 2017/10/27(Fri), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 43
Larger Daphnia at lower temperature: a role for cell size and genome configuration
Jalal et al, Genome (2013) 56, 511-519
65. 2017/10/19(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 42
The sequential activation of the mitotic microtubule assembly pathways favors bipolar spindle formation
Cavazza et al, Mol. Biol. Cell, (2016) 27, 2935-2945
64. 2017/10/12(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 41
BAF is required for emerin assembly into the reforming nuclear envelope
Haraguchi et al, J. Cell Sci., (2001) 114(24), 4575
63. 2017/9/26(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 40
DNA Cross-Bridging Shapes a Single Nucleus from a Set of Mitotic Chromosomes
Samwer et al, Cell, (2017) 170, 956-972
62. 2017/9/12(Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 39
CENP-A and topoisomerase-II antagonistically affect chromosome length
Ladouceur et al, J. Cell Bio., (2017) 216,
61. 2017/8/25(Fri), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 38
Cohesin, condensin, and the intramolecular centromere loop together generate the mitotic chromatin spring
Stephens et al, J. Cell Biol., (2011) 193, 1167-1180
60. 2017/8/24(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 37
Nuclear size control in fission yeast
Neumann & Nurse, J. Cell Biol. (2007) 179, 593
59. 2017/8/23(Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 36
Mitotic chromosome assembly despite nucleosome depletion in Xenopus egg extracts
Shintomi et al. Science, (2017) 356, 1284-1287
58. 2017/8/3(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 35
ChromEMT: Visualizing 3D chromatin structure and compaction in interphase and mitotic cells
Ou et al, Science, 357, 370 (2017)
57. 2017/7/27(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 34
DNA cytoskeleton for stabilizing artificial cells
Kurokawa et al., PNAS (2017) 114, 7228–7233
56. 2017/7/20(Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 33
Cell-cycle dynamics of chromosomal organization at single-cell resolution
Nagano et al, Nature (2017) 547, 61-67
55. 2017/6/29 (Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 32
Phase separation drives heterochromatin domain formation
Storm et al, Nature (2017) in press
54. 2017/6/28 (Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 31
Nup153 Recruits the Nup107-160 Complex to the Inner Nuclear Membrane for Interphasic Nuclear Pore Complex Assembly
Vollumer et al, Dev. Cell (2015) 33, 717-728
53. 2017/6/22 (Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 30
Nongenetic functions of the genome
Bustin & Misteli, Science (2016) 352, aad6933
52. 2017/6/15 (Thu), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 29
Applying systems-level spectral imaging and analysis to reveal the organelle interactome
Valm et al, Nature (2017) 546, 162-167
51. 2017/6/14 (Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 28
A systematic genomic screen implicates nucleocytoplasmic transport and membrane growth in nuclear size control
Kume et al, PLoS Genet. (2017) 13, e1006767
50. 2017/6/2 (Fri), 9:00- @Building-3, student experiment room 理学部3号館学生実験室 (Presenter: Yuki) 27
Nucleosome−nucleosome interactions via histone tails and linker DNA regulate nuclear rigidity
Shimamoto et al, Mol. Biol. Cell (2017) 28:11 1580-1589
49. 2017/5/31 (Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 26
Nuclear envelope structural proteins facilitate nuclear shape changes accompanying embryonic differentiation and fidelity of gene expression
Smith et al, BMC Cell Biol (2017) 18, 8
48. 2017/5/30 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 25
The nucleoporin MEL-28 promotes RanGTP-dependent γ-tubulin recruitment and microtubule nucleation in mitotic spindle formation
Yokoyama et al, Nat. Commun. (2014) 5, 3270
47. 2017/5/26 (Fri), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 24
Pre-assembled Nuclear Pores Insert into the Nuclear Envelope during Early Development
Hampoelz et al, Cell (2016) 166, 664-678
46. 2017/5/19 (Fri), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 23
Mitochondrial Network Size Scaling in Budding Yeast
Rafelski et al, Science (2012) 338, 822-824
45. 2017/5/17 (Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 22
PKC-mediated phosphorylation of nuclear lamins at a single serine residue regulates interphase nuclear size in Xenopus and mammalian cells
Edens et al, Mol Biol Cell (2017) 28, 1389-1399
44. 2017/5/12 (Fri), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 21
Golgi apparatus self-organizes into the characteristic shape via postmitotic reassembly dynamics
Tachikawa & Mochizuki, PNAS (2017) 114, 5177–5182
43. 2017/5/2 (Tue), 9:45- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 20
Nuclear size is sensitive to NTF2 protein levels in a manner dependent on Ran binding.
Vuković et al. J. Cell Sci. (2016) 129, 1115-1127
42. 2017/5/2 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 19
The coordination of ploidy and cell size differs between cell layers in leaves
Katagiri et al, Development, (2016) 143,1120-5
41. 2017/4/25 (Tue), 9:45- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 18
Rapid de novo centromere formation occurs independently of heterochromatin protein 1 in C. elegans embryos.
Yuen et al, Curr. Biol. (2011) 21, 1800-1807
40. 2017/4/25 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 17
Chromatin-bound Xenopus Dppa2 shapes the nucleus by locally inhibiting microtubule assembly.
Xue et al, Dev. Cell (2013) 27, 47-59
39. 2017/4/18 (Tue), 9:45- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 16
cPKC regulates interphase nuclear size during Xenopus development
Edens & Levy, J.Cell Biol. (2014) 206, 473-483
38. 2017/4/18 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 15
Cell Size Determines the Strength of the Spindle Assembly Checkpoint during Embryonic Development
Galli & Morgan, Dev. Cell (2016) 36, 344-352
37. 2017/4/12 (Wed), 9:45- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 14
Chromatin tethering to the nuclear envelope by nuclear actin filaments: a novel role of the actin cytoskeleton in the Xenopus blastula.
Oda et al. Genes Cells (2017) 22, 376–391
36. 2017/4/12 (Wed), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 13
A cell-free CENP-A assembly system defines the chromatin requirements for centromere maintenance
Westhorpe et al. J. Cell Biol. (2015) 209, 789-
35. 2017/4/4 (Tue), 9:45- @Building-3, room 109 理学部3号館109 (Presenter: Sora) 12
Nucleus downscaling in mouse embryos is regulated by cooperative developmental and geometric programs
Tsichlaki & FitzHarris, Sci. Rep. (2016) 6:28040
34. 2017/4/4 (Tue), 9:00- @Building-3, room 109 理学部3号館109 (Presenter: Yuki) 11
Prospective identification of hematopoietic lineage choice by deep learning
Buggenthin et al, Nat. Methods (2017) 14, 403-406
33. 2017/3/31 (Fri), 10:00- @Building-3, room 115 理学部3号館115 (Presenter: Tastuya) 10
Kinetochore-localized BUB-1/BUB-3 complex promotes anaphase onset in C. elegans
Kim et al, J. Cell Biol., 209, 507-517 (2015)
32. 2017/3/28 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko) 9
Deficient Induction Response in a Xenopus Nucleocytoplasmic Hybrid
Narbonne et al. PLoS Biol. 9, e1001197 (2011)
31. 2017/2/28 (Tue), 10:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 8
Clustered Xenopus keratin genes: A genomic, transcriptomic, and proteomic analysis
Suzuki et al, Dev. Biol. in press (2017)
30. 2017/2/28 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tastuya) 7
Structure and function of human histone H3.Y nucleosome
Kujirai et al, Nuc. Acids. Res. 44, 6127-6141 (2016)
29. 2017/2/24 (Fri), 9:30- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 6
Lattice light-sheet microscopy: Imaging molecules to embryos at high spatiotemporal resolution
Chen et al, Science, 346, 1257998 (2014)
28. 2017/2/22 (Wed), 10:15- @Building-3, room 115 理学部3号館115 (Presenter: Tastuya) 5
Histone H3K9 methylation is dispensable for Caenorhabditis elegans development but suppresses RNA:DNA hybrid-associated repeat instability
Zeller et al, Nat. Genet. 48, 1385–1395 (2016)
27. 2017/2/22 (Wed), 9:30- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 4
Genes coding for cyclin-dependent kinase inhibitors are fragile in Xenopus
Tanaka et al, Dev. Biol. in press (2017)
26. 2017/2/14 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki) 3
Chromatin decondensation is accompanied by a transient increase in transcriptional output
Vankova & Lanctot, Biol. Cell 109 65-79 (2017)
25. 2017/1/17 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Tatsuya) 2
Histone H1 is essential for mitotic chromosome architecture and segregation in Xenopus laevis egg extracts
Maresca et al, J Cell Biol. 169(6) 859-869 (2005)
24. 2017/1/16 (Mon), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Sora) 1
Hierarchical Size Scaling during Multicellular Growth and Development
Uppaluri et al, Cell Rep. 17(2) 345-352 (2016)
23. 2016/12/20 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki)
Genome evolution in the allotetraploid frog Xenopus laevis
Session et al, Nature 538 336-343 (2016)
22. 2016/12/09 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Madoka)
TPX2 levels modulate meiotic spindle size and architecture in Xenopus egg extracts
Helmke & Heald, J. Cell Biol. 206(3), 385-393 (2014)
21. 2016/11/22 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko)
TPX2 is required for postmitotic nuclear assembly in cell-free Xenopus laevis egg extracts
O’Brien & Wiese, J. Cell Biol. 173(5), 685–694 (2006)
20. 2016/11/17 (Thu), 10:30- @Building-3, room 115-2 (next to the seminar room) 理学部3号館115隣部屋 (Presenter: Yuki)
Spindle Size Scaling Contributes to Robust Silencing of Mitotic Spindle Assembly Checkpoint
Chen & Liu, Biophys. J., 111, 1064–1077 (2016)
19. 2016/10/25 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Madoka)
Nuclear size scaling during Xenopus early development contributes to midblastula transition timing
Jevtić & Levy, Curr. Biol., 25(1), 45–52 (2015)
18. 2016/10/11 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Hiroko)
Nuclear envelope rupture is induced by actin-based nucleus confinement
Hatch et al., J. Cell Biol., 214, (2016) in press
17. 2016/09/27 (Tue), 9:00- @Building-3, room 115 理学部3号館115 (Presenter: Yuki)
Mitotic noncoding RNA processing promotes kinetochore and spindle assembly in Xenopus
Grenfell et al., J. Cell Biol., 214, 133-141 (2016)
16. 2016/07/11 (Mon), 9:00- @Building-3, 115 理学部3号館115 (Presenter: Hiroko) Sorry, Lab. Member Only.
Nucleosomal regulation of chromatin composition and nuclear assembly revealed by histone depletion
Zierhut et al., Nat. Struct. Mol. Biol. 21, 617–625 (2014)
15. 2016/07/08 (Fri), 9:00- @Building-3, 109 理学部3号館109 (Presenter: Yuki)
Perinuclear Arp2/3-driven actin polymerization enables nuclear deformation to facilitate cell migration through complex environments
Thiam et al., Nat. Commun. 7, 10997 (2016).
14. 2016/06/03 (Fri), 9:00- @Building-3, 109 理学部3号館109 (Presenter: Hiroko)
Nuclear pore formation but not nuclear growth is governed by cyclin-dependent kinases (Cdks) during interphase.
Maeshima et al., Nat. Struct. Mol. Biol. 17, 1065-1071 (2010)
13. 2016/05/30 (Mon), 9:00- @Building-3, 115 理学部3号館115 (Presenter: Madoka) Sorry, Lab. Member Only.
Changes in Cytoplasmic Volume are Sufficient to Drive Spindle Scaling
Hazel et al., Science 342(6160), 853-856 (2013)
12. 2016/05/26 (Thr), 10:00- @Building-3, 109 理学部3号館109 (Presenter: Yuki)
Genome-wide maps of nuclear lamina interactions in single human cells.
Kind et al., Cell 163(1), 134-47 (2015)
11. 2016/05/06 (Fri), 9:00- @Building-3, 109 理学部3号館109 (Presenter: Yuki)
Myonuclear transcription is responsive to mechanical load and DNA content but uncoupled from cell size during hypertrophy
Kirby et al., Mol. Cell Biol. 27(5), 788-798 (2016)
10. 2016/04/15 (Fri), 11:00- @Building-3, 109 理学部3号館109 (Presenter: Hiroko)
Mitotic remodeling of the replicon and chromosome structure
Lemaitre et al., Cell 123(5), 787-801 (2005)
9. 2016/04/15 (Fri), 10:00- @Building-3, 109 理学部3号館109 (Presenter: Madoka)
Reconstitution of mitotic chromatids with a minimum set of purified factors.
Shintomi, et al., Nat. Cell Biol. 17(8) 1014-23 (2015)
8. 2016/04/11 (Mon), 9:00- @Building-3, 115 理学部3号館115 (Presenter: Yuki) Sorry, Lab members only!
A nuclear F-actin scaffold stabilizes ribonucleoprotein droplets against gravity in large cells
Feric & Brangwynne, Nat Cell Biol. 15, 1253–1259 (2013)
(+ Soft viscoelastic properties of nuclear actin age oocytes due to gravitational creep
Feric, et al, Sci. Rep. 5, 16607 (2015))
7. 2016/02/26 (Fri), 9:00- @room507-2 (Presenter: Yuki)
A comparative analysis of spindle morphometrics across metazoans.
Crowder, et al, Curr. Biol. 25, 1542-1550 (2015)
6. 2016/02/19 (Fri), 9:00- @room507-2 (Presenter: Yuki)
Histone titration against the genome sets the DNA-to-cytoplasm threshold for the Xenopus midblastula transition.
Amodeo, et al, PNAS 112(10), E1086-95 (2015)
.2016/01/19 (Tue), 13:00- @room 507-2 (sorry, Lab members only)
Ultrastructural changes of mitochondria in human retinoblastoma: correlation with tumor differentiation and invasiveness
Singh, et al, Tumor Biol. 1-7 (2015)
.2016/01/08 (Fri), 17:00- @room 507-2 (sorry, Lab members only)
Nuclear size is regulated by importin α and Ntf2 in Xenopus
Levy & Heald, Cell 143(2), 288-98 (2010)
5. 2015/11/26 (Thu), 18:00- @room 507-2 (Presenter: Yuki)
Nuclear Lamin-A Scales with Tissue Stiffness and Enhances Matrix-Directed Differentiation
Swift, et al, Science 341(6149), 1240104 (2013)
4. 2015/11/20 (Fri), 18:00- @room 507-2 (Presenter: Yuki)
Active diffusion positions the nucleus in mouse oocytes
Almonacid, et al, Nature Cell Biology 17, 470-479 (2015)
3. 2015/11/6 (Fri), 18:00- @room 507-2 (Presenter: Yuki)
Scaling, Selection, and Evolutionary Dynamics of the Mitotic Spindle
Farhadifar, et al, Current Biology 25(6), 732–740 (2015)
2. 2015/10/30 (Fri), 18:00- @room 507-2 (Presenter: Yuki)
Actin Flows Mediate a Universal Coupling between Cell Speed and Cell Persistence
Maiuri, et al, Cell 161, 374-386 (2015)
1. 2015/10/16 (Fri), 18:00, @room 507-2 (Presenter: Yuki)
Phase Transition of Spindle-Associated Protein Regulate Spindle Apparatus Assembly
Jiang et al, Cell 163, 108-122 (2015)
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