• The added line is THIS COLOR.
  • The deleted line is THIS COLOR.
#author("2021-06-14T08:57:09+00:00","mss","mss")
* ¥½¥Õ¥È¥Þ¥¿¡¼À¸ÊªÊªÍýJC [#c88b4339]

** 2021 [#oc352943]

*** Âè37²ó6·î14Æü(·î) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ virtual
- ôÅö¼Ô¡§Ãæ߷ľ¹â¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
--A. J. Lomakin et al, The nucleus acts as a ruler tailoring cell responses to spatial constraints, Science (2020), https://science.sciencemag.org/content/370/6514/eaba2894
- ôÅö¼Ô¡§LI Jintao¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
--D. Gradeci et al, Cell-scale biophysical determinants of cell competition in epithelia, eLife (2021), https://elifesciences.org/articles/61011

*** Âè36²ó2·î26Æü(¶â) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ virtual
- ôÅö¼Ô¡§Ê¿Åç¹ä»Ö¡ÊµþÅÔÂç³Ø¡Ë
--L. Balasubramaniam et al,Investigating the nature of active forces in tissues reveals how contractile cells can form extensile monolayers, Nature Materials (2021), https://www.nature.com/articles/s41563-021-00919-2
- ôÅö¼Ô¡§»³¾ëº´Ï»ҡʵþÅÔÂç³Ø¡Ë
--A. Reversat at al, Cellular locomotion using environmental topography, Nature (2020), https://doi.org/10.1038/s41586-020-2283-z

** 2020 [#oc352943]

*** Âè35²ó10·î27Æü(²Ð) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ virtual
- ôÅö¼Ô¡§Íå ÁÐüª¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
--B. Lin et al, Collectively stabilizing and orienting posterior migratory forces disperses cell clusters in vivo, Nature Communications (2020), https://www.nature.com/articles/s41467-020-18185-2
- ôÅö¼Ô¡§°ÂÅÄ ½¤¸ç¡Êʼ¸Ë¸©Î©Âç³Ø¡Ë
--A. A. Malik et al, The Impact of Elastic Deformations of the Extracellular Matrix on Cell Migration, Bulletin of Mathematical Biology volume 82, 49 (2020), https://doi.org/10.1007/s11538-020-00721-2

*** Âè34²ó7·î29Æü(¿å) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ virtual
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
--L. Guignard et al, Contact area–dependent cell communication and the morphological invariance of ascidian embryogenesis, Science (2020), https://science.sciencemag.org/content/369/6500/eaar5663
- ôÅö¼Ô¡§¿¹²¼´î¹°¡ÊÍý²½³Ø¸¦µæ½ê¡Ë
--T. M. Finegan et al, The tricellular vertex-specific adhesion molecule Sidekick facilitates polarised cell intercalation during Drosophila axis extension, PLOS Biology (2019), https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3000522

*** Âè33²ó4·î16Æü(ÌÚ) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ virtual
- ôÅö¼Ô¡§GAUQUELIN Estelle¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
--Pérez-González, C. et al. Active wetting of epithelial tissues. Nat. Phys. 15, (2018)
http://dx.doi.org/10.1038/s41567-018-0279-5
- ôÅö¼Ô¡§SCHNYDER Simon¡ÊµþÅÔÂç³Ø¡Ë
--Lee, W. et al. Dispersible hydrogel force sensors reveal patterns of solid mechanical stress in multicellular spheroid cultures. Nat. Commun. 10, 1–14 (2019).
http://dx.doi.org/10.1038/s41567-018-0279-5


** 2019 [#oc352943]

*** Âè32²ó12·î18Æü(¿å) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F119
- ôÅö¼Ô¡§²®ÅĹë»Î¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
--C. J. Chan et al, Hydraulic control of mammalian embryo size and cell fate, Nature (2019),
https://www.ncbi.nlm.nih.gov/pubmed/31189957
- ôÅö¼Ô¡§Åç¿­°ìϺ¡Êʼ¸Ë¸©Î©Âç³Ø¡Ë

*** Âè31²ó8·î23Æü(¶â) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ Íý²½³Ø¸¦µæ½ê¿À¸ÍÃ϶衡ȯÀ¸ºÆÀ¸Åï¡¡CÅ³¬S401¥»¥ß¥Ê¡¼¼¼
- ôÅö¼Ô¡§Ãö¸Ô½¨É§¡ÊÍý¸¦BDR¡Ë
- ôÅö¼Ô¡§Ê¿Ã«°ËÃÒϯ¡ÊÍý¸¦BDR¡Ë
- ôÅö¼Ô¡§Â¿Íå´Ö½¼Êå¡ÊÍý¸¦BDR¡Ë

*** Âè30²ó4·î2Æü(²Ð) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§°æÀî·É²ð¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
--https://www.nature.com/articles/s41556-018-0247-4
- ôÅö¼Ô¡§Ã«¸ýµ®»Ö¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë

** 2018 [#oc352943]
*** Âè29²ó12·î18Æü(²Ð) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F119
- ôÅö¼Ô¡§Ãæß· ľ¹â¡ÊµþÅÔÂç³ØiCeMS¡Ë
-- Force Triggers YAP Nuclear Entry by Regulating Transport across Nuclear Pores. Cell, Volume 171, Issue 6, 30 November 2017, Pages 1397-1410.e14
https://www.sciencedirect.com/science/article/pii/S0092867417311923?via%3Dihub
- ôÅö¼Ô¡§»³ËÜÎÌ°ì¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë

*** Âè28²ó10·î15Æü(·î) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F119
- ôÅö¼Ô¡§²®ÅĹë»Î¡ÊµþÅÔÂç³Ø iCeMS, À¸Ì¿²Ê³Ø¸¦µæ²Ê¡Ë
-- Mongera A, Rowghanian P, Gustafson HJ, Shelton E, Kealhofer DA, Carn EK,
Serwane F, Lucio AA, Giammona J, Campàs O. &br;
A fluid-to-solid jamming transition underlies vertebrate body axis elongation. Nature. 2018;561:401-405.
https://www.nature.com/articles/s41586-018-0479-2
- ôÅö¼Ô¡§¿¹²¼´î¹°¡ÊÍý²½³Ø¸¦µæ½ê¡Ë

*** Âè27²ó7·î2Æü(·î) 13:00¡Á [#x04adf69]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F119
- ôÅö¼Ô¡§°ÂÅĽ¤¸ç¡Êʼ¸Ë¸©Î©Âç³Ø¥·¥ß¥å¥ì¡¼¥·¥ç¥ó³Ø¸¦µæ²Ê¡Ë
-- V. Calvez, B. Perthame, S. Yasuda, &br; ¡ÈTraveling wave and aggregation in a flux-limited Keller-Segel model¡É, Kinetic and Related Models (2018).
http://aimsciences.org//article/doi/10.3934/krm.2018035

-ôÅö¼Ô¡§»³¾ëº´Ï»ҡʵþÅÔÂç³Ø À¸Ì¿²Ê³Ø¸¦µæ²Ê¡Ë
-- H. Mizuno et. al., &br; ¡ÈHelical rotation of the diaphanous-related formin mDia1 generates actin filaments resistant to cofilin¡É, PNAS (2018).
-- S. Yamashiro et. al., &br; ¡ÈMyosin-dependent actin stabilization as revealed by single-molecule imaging of actin turnover¡É, MBoC (2018).


*** Âè26²ó4·î11Æü(²Ð) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§Ê¿Åç¹ä»Ö¡ÊµþÅÔÂç³Ø°å³Ø¸¦µæ²Ê¡Ë
-- R. Sunyer, et al., &br; "Collective cell durotaxis emerges from long-range intercellular force transmission¡É, Science, (2016)
http://science.sciencemag.org/content/353/6304/1157.long

- ôÅö¼Ô¡§é®Ãæ½Ó²ð¡ÊµþÅÔÂç³Ø¡¡Ê¡°æ¸¬°ìµ­Ç°¸¦µæ¥»¥ó¥¿¡¼¡Ë

-- S. Yabunaka and P. Marcq, &br;  "Cell growth, division, and death in cohesive tissues: A thermodynamic approach¡É, Phys. Rev. E 96, 022406 (2017) 
https://journals.aps.org/pre/abstract/10.1103/PhysRevE.96.022406

-- S. Yabunaka and P. Marcq, &br;   "Emergence of epithelial cell density waves¡É, Soft Matter, 2017, 13, 7046
http://pubs.rsc.org/-/content/articlelanding/2017/sm/c7sm01172e/



** 2017 [#oc352943]
*** Âè25²ó12·î19Æü(²Ð) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³ØiCeMS¡Ë
-- Pinheiro D, Hannezo E, Herszterg S, Bosveld F, Gaugue I, Balakireva M, Wang Z, Cristo I, Rigaud SU, Markova O, Bellaïche Y.
"Transmission of cytokinesis forces via E-cadherin dilution and actomyosin flows", Nature (2017) &br;
https://www.ncbi.nlm.nih.gov/pubmed/28296858
-- Herszterg S, Leibfried A, Bosveld F, Martin C, Bellaiche Y.
"Interplay between the dividing cell and its neighbors regulates adherens junction formation during cytokinesis in epithelial tissue", Dev. Cell (2013)&br;
https://www.ncbi.nlm.nih.gov/pubmed/23410940
- ôÅö¼Ô¡§Â¿Íå´Ö ½¼Êå¡ÊµþÅÔÂç³Ø¡¡Ê¡°æ¸¬°ìµ­Ç°¸¦µæ¥»¥ó¥¿¡¼¡Ë
-- M. Tarama and R. Yamamoto, &br;
"Mechanics of cell crawling by means of force-free cyclic motion", &br;
https://doi.org/10.7566/JPSJ.87.044803 

*** Âè24²ó10·î24Æü(¶â) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§°æÀî·É²ð¡ÊµþÅÔÂç³ØiCeMS¡Ë
-- Oakes et al. &br;
"Optogenetic control of RhoA reveals zyxin-mediated elasticity of stress fibres", Nature Communications (2017) &br;
https://www.nature.com/articles/ncomms15817
- ôÅö¼Ô¡§Ã«¸ýµ®»Ö¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë

*** Âè23²ó6·î30Æü(¶â) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§Ãæß· ľ¹â¡ÊµþÅÔÂç³ØiCeMS¡Ë
-- Nakazawa N et al., &br;
"Matrix mechanics controls FHL2 movement to the nucleus to activate p21 expression.", &br;
https://www.ncbi.nlm.nih.gov/pubmed/27742790
- ôÅö¼Ô¡§»³ËÜÎÌ°ì¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë

*** Âè22²ó3·î31Æü(²Ð) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§Ã«¸ýÂçÁê¡ÊµþÅÔÂç³Ø¡¡À¸Ì¿²Ê³Ø¸¦µæ²Ê¡Ë
-- Taniguchi D et al., &br;
"Phase geometries of two-dimensional excitable waves govern self-organized morphodynamics of amoeboid cells.", &br;
https://www.ncbi.nlm.nih.gov/pubmed/23479620
- ôÅö¼Ô¡§¿¹²¼´î¹°¡ÊÍý²½³Ø¸¦µæ½ê¡Ë
-- Morishita Y et al., &br;
"Reconstructing 3D deformation dynamics for curved epithelial sheet morphogenesis from positional data of sparsely-labeled cells.", &br;
https://www.ncbi.nlm.nih.gov/pubmed/28465614



** 2016 [#q8bb4921]

*** Âè21²ó12·î20Æü(²Ð) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§Â¿Íå´Ö ½¼Êå¡ÊµþÅÔÂç³Ø¡¡Ê¡°æ¸¬°ìµ­Ç°¸¦µæ¥»¥ó¥¿¡¼¡Ë
- ôÅö¼Ô¡§Àи¶½¨»ê¡ÊÌÀ¼£Âç³Ø Íý¹©³ØÉô¡Ë
-- Ishihara S et al., &br;
"From cells to tissue: A continuum model of epithelial mechanics", &br;
https://arxiv.org/abs/1611.05707

*** Âè20²ó9·î28Æü(¿å) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
-- Monier B et al., &br;
"Apico-basal forces exerted by apoptotic cells drive epithelium folding.", &br;
https://www.ncbi.nlm.nih.gov/pubmed/25607361
- ôÅö¼Ô¡§Â绳Îѹ°¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë

*** Âè19²ó6·î29Æü(¿å) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§»³¾ëº´Ï»ҡʵþÅÔÂç³Ø¡¡À¸Ì¿²Ê³Ø¸¦µæ²Ê¡Ë
- ôÅö¼Ô¡§°ÂÅĽ¤¸ç¡Êʼ¸Ë¸©Î©Âç³Ø ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó³Ø¸¦µæ²Ê¡Ë
-- T. Kodama, et. al., &br;
"Cytoplasmic molecular delivery with shock waves: Importance of Impulse", &br;
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1301074/

*** Âè18²ó3·î23Æü(ÌÚ) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§°æÀî·É²ð¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
-- R. Shrestha et al., &br;
"Mitotic Control of Planar Cell Polarity by Polo-like Kinase 1.", &br;
http://www.sciencedirect.com/science/article/pii/S1534580715002208
-- 
- ôÅö¼Ô¡§Åç¿­°ìϺ¡Êʼ¸ËÂç³Ø¡Ë
-- K.Sato, Y. Kuramoto, M. Ohtaki, Y. Shimamoto, and S. Ishiwata ., &br;
"Locally and Globally Coupled Oscillators in Muscle.", &br;
Phys. Rev. Lett. 111, 108104 (2013)
http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.111.108104

--K. Sato and S. Shima ., &br;
"Various oscillation patterns in phase models with locally attractive and globally repulsive couplings.", &br;
Phys. Rev. E 92, 042922 (2015)
http://journals.aps.org/pre/abstract/10.1103/PhysRevE.92.042922


** 2015 [#j40db027]

*** Âè17²ó12·î24Æü(ÌÚ) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§²¼ÎÓ½Óŵ¡ÊµþÅÔÂç³Ø Íý³Ø¸¦µæ²Ê¡Ëë¸ýµ®»Ö¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- Shunsuke F. Shimobayashi, Masatoshi Ichikawa, Takashi Taniguchi., &br;
"Direct observations of transition dynamics from macro- to micro-phase separation in asymmetric lipid bilayers induced by externally added glycolipids.", &br;
http://arxiv.org/abs/1504.03038
-- 
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø¡¡iCeMS¡Ë
-- Guirao B, Rigaud SU, Bosveld F, Bailles A, Lopez-Gay J, Ishihara S, Sugimura K, Graner F, Bellaïche Y., &br;
"Unified quantitative characterization of epithelial tissue development.", &br;
eLife, e08519 (2015).
http://elifesciences.org/content/early/2015/12/15/eLife.08519

*** Âè16²ó 9·î29Æü¡Ê²Ð¡Ë 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§¾¾Â¼ÈˡʵþÅÔÂç³Ø¡¡¥¦¥£¥ë¥¹¸¦µæ½ê¡¡Ë­Å縦¡Ë
-- 
"ºÙ˦ʬÎöÊý¸þÀ©¸æµ¡¹½¤Î²òÀÏ." &br;
-- 
- ôÅö¼Ô¡§»³ËÜÎÌ°ì¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- 
"Physical modeling of crawling cells." &br;

*** Âè15²ó 6·î26Æü(¶â) 13:00¡Á [#qb268bc3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§°ÂÅĽ¤¸ç¡Êʼ¸Ë¸©Î©Âç³Ø ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó³Ø¸¦µæ²Ê¡Ë
-- Jonathan Saragosti, Vincent Calvez, Nikolaos Bournaveas, Benoıˆt Perthame, &br;
"Mathematical Description of Bacterial Traveling Pulses", &br;
PLoS Computational Biology 6, e1000890 (2010)
- ôÅö¼Ô¡§ÇßÅ蹨¼ù¡ÊµþÅÔÂç³Ø¡¡iCeMS¡¡¸«³Ø¸¦¡Ë
--Liu et al., &br;
"Confinement and Low Adhesion Induce Fast Amoeboid Migration of Slow Mesenchymal Cells", &br;
Cell 160, 659–672 (2015).
--Bergert et al., &br;
"Force transmission during adhesion-independent migration", &br;
Nature Cell Biology 17, 525–529 (2015).

*** Âè14²ó 3·î26Æü(ÌÚ) 13:00¡Á [#r1f0de46]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§¿¹²¼´î¹°¡ÊÍý²½³Ø¸¦µæ½ê¡Ë
-- Shinsuke Uda, Takeshi H Saito, Takamasa Kudo, Toshiya Kokaji, Takaho Tsuchiya1, Hiroyuki Kubota, Yasunori Komori, Yu-ichi Ozaki, Shinya Kuroda, &br;
"Robustness and Compensation of Information Transmission of Signaling Pathways", &br;
Science 341, 558-561 (2013).
http://www.sciencemag.org/content/341/6145/558.short
- ôÅö¼Ô¡§°æÀî·É²ð¡ÊµþÅÔÂç³ØiCeMS¡Ë
-- Liedewij Laan, Nenad Pavin, Julien Husson, Guillaume Romet-Lemonne, Martijn van Duijn, Magdalena Preciado López, Ronald D. Vale, Frank Jülicher, Samara L. Reck-Peterson, Marileen Dogterom, &br;
"Cortical Dynein Controls Microtubule Dynamics to Generate Pulling Forces that Position Microtubule Asters",  &br;
Cell 148, 502–514 (2012).
http://www.sciencedirect.com/science/article/pii/S009286741200013X

** 2014 [#ae28492b]

*** Âè13²ó 12·î26Æü(¶â) 13:00¡Á [#a3455963]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§ÀÐËֹܻâ¡ÊÍý²½³Ø¸¦µæ½ê¡Ë
-- C. P. Broedersz, M. Depken, N. Y. Yao, M. R. Pollak, D. A. Weitz, and F. C. MacKintosh, &br;
"Cross-Link-Governed Dynamics of Biopolymer Networks" &br; 
Phys. Rev. Lett. 105, 238101 (2010).
http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.105.238101
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø iCeMS¡Ë
-- Michael Krieg, Alexander R. Dunn and Miriam B. Goodman, &br;
Mechanical control of the sense of touch by beta-spectrin &br;
Nature Cell Biology 16, 224 (2014).
http://dx.doi.org/10.1038/ncb2915
-- Carsten Grashoff, Brenton D. Hoffman, Michael D. Brenner, Ruobo Zhou, Maddy Parsons,
Michael T. Yang, Mark A. McLean, Stephen G. Sligar, Christopher S. Chen, Taekjip Ha, 
and Martin A. Schwartz, &br;
"Measuring mechanical tension across vinculin reveals regulation of focal adhesion dynamics" &br;
Nature 466, 263 (2010).
www.nature.com/doifinder/10.1038/nature09198

*** Âè12²ó 10·î9Æü(ÌÚ) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
- ôÅö¼Ô¡§ Ç®ÅÄͦ»Î¡ÊµþÅÔÂç³Ø Íý³Ø¸¦µæ²Ê¡Ë
-- Nobutaka Hirokawa, Yosuke Tanaka, Yasushi Okada, and Sen Takeda &br;
"Nodal Flow and the Generation of Left-Right Asymmetry" &br;
Cell 125, 33-45 (2006). http://www.pnas.org/cgi/doi/10.1016/j.cell.2006.03.002
- ôÅö¼Ô¡§»³ËÜÎÌ°ì¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- Juan P. Garrahan &br;
"Dynamic heterogeneity comes to life" &br;
PNAS 108, 4701–4702 (2011).
http://www.pnas.org/cgi/doi/10.1073/pnas.1101436108
-- Thomas E. Angelini, Edouard Hannezo, Xavier Trepat, Manuel Marquez, Jeffrey J. Fredberg, and David A. Weitz &br;
"Glass-like dynamics of collective cell migration" &br;
PNAS 108, 4714–4719 (2011).
http://www.pnas.org/cgi/doi/10.1073/pnas.1010059108

*** Âè11²ó 7·î8Æü(²Ð) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ °æÀî·É²ð¡ÊµþÅÔÂç³ØiCeMS¡Ë
-- Anja Zeigerer,	Jerome Gilleron,	Roman L. Bogorad,	Giovanni Marsico,	Hidenori Nonaka, Sarah Seifert,	Hila Epstein-Barash,	Satya Kuchimanchi,	Chang Geng Peng,	Vera M. Ruda, Perla Del Conte-Zerial,	Jan G. Hengstler,	Yannis Kalaidzidis,	Victor Koteliansky	& Marino Zerial, &br;
"Rab5 is necessary for the biogenesis of the endolysosomal system in vivo", &br;
Nature, 485, 465–470 (2012) .
http://dx.doi.org/10.1038/nature11133 &br;
- ôÅö¼Ô¡§Â绳Îѹ°¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- Stephen Whitelam, Lester O. Hedges, and Jeremy D. Schmit, &br;
"Self_Assembly at a Nonequilibrium Critical Point", &br;
PRL, 112, 155504 (2014).
http://dx.doi.org/10.1103/PhysRevLett.112.155504 &br;

*** Âè10²ó 5·î7Æü(·î) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ Åç¿­°ìϺ¡Êʼ¸ËÂç³Ø¡Ë
-- Ã༡¥Ù¥¤¥º¿äÄê¤È¥Ç¡¼¥¿Æ±²½
- ôÅö¼Ô¡§Ã«¸ýµ®»Ö¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- J.B. Fournier, N. Khalifat, N. Puff, and M. I. Angelova, &br;
"Chemically Triggered Ejection of Membrane Tubules Controlled by Inter-monolayer Friction", &br;
PRL, 102, 018102 (2009). 

*** Âè9²ó 3·î3Æü(·î) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ ÀÆÆ£²Â²ð¡ÊµþÅÔÂç³Ø Íý³Ø¸¦µæ²Ê¡Ë
-- Honda H, Motosugi N, Nagai T, Tanemura M, Hiiragi T., &br;
"Computer simulation of emerging asymmetry in the mouse blastocyst", &br;
Development, 135, 1407-1414 (2008).
http://dx.doi.org/10.1242/dev.014555 &br;
¥Þ¥¦¥¹¤Î½é´üȯÀ¸¤Ë¤ª¤¤¤Æ¡¤°ìÈֺǽé¤Ëµ¯¤­¤ë¼´·ÁÀ®¤ò¥³¥ó¥Ô¥å¡¼¥¿¤Ç¥·¥ß¥å¥ì¡¼¥È¤·¡¤¶Ñ°ì¤ÊºàÎÁ¤«¤é°ÛÊýÀ­¤Î¤¢¤ë¹½Â¤¤òÀ¸¤ß½Ð¤¹¤³¤È¤¬¤Ç¤­¤ë¤³¤È¤ò¼¨¤·¤¿¡¥

- ôÅö¼Ô¡§°ÂÅĽ¤¸ç¡Êʼ¸Ë¸©Î©Âç³Ø ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó³Ø¸¦µæ²Ê¡Ë
-- J. Saragosti, V. Calvez, N. Bournaveas, B. Perthame, A. Buguin, and P. Silberzan,  &br;
"Directional persistence of chemotactic bacteria in a traveling concentration wave" &br;
Proc. Natl. Acad. Sci. U. S. A. 108, 16235 (2011).
http://dx.doi.org/10.1073/pnas.1101996108 &br;
-- J. Saragosti, V. Calvez, N. Bournaveas, A. Buguin, P. Silberzan, and B. Perthame,  &br;
"Mathematical description of bacterial traveling pulses" &br;
PLoS Comput. Biol. 6, (2010).
http://dx.doi.org/10.1371/journal.pcbi.1000890 &br;
Áö²½À­¥Ð¥¯¥Æ¥ê¥¢¤Î½¸ÃĵóÆ°¤Î¥â¥Ç¥ê¥ó¥°¤Ë´Ø¤¹¤ëÏÀʸ¡¥Î®ÂÎÎϳؤǵ©¤Ë»È¤ï¤ì¤ë±¿Æ°ÏÀ¤È¤¤¤¦¥¢¥×¥í¡¼¥Á¤ò¥¢¥¯¥Æ¥£¥Öγ»Ò¤Ë±þÍѤ·¤Æ¥â¥Ç¥ë¤òºî¤Ã¤Æ¤¤¤ë¡¥

** 2013 [#uad7cd09]

*** Âè8²ó 12·î12Æü(ÌÚ) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û1F118
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ Ç®ÅÄͦ»Î¡ÊµþÅÔÂç³Ø Íý³Ø¸¦µæ²Ê¡Ë
-- G. Venkiteswaran, S.W. Lewellis, J. Wang, E. Reynolds, C. Nicholson, H. Knaut, &br;
"Generation and Dynamics of an Endogenous, Self-Generated Signaling Gradient across a Migrating Tissue", &br;
Cell. 24, 674-87 (2013)
http://dx.doi.org/10.1016/j.cell.2013.09.046

- ôÅö¼Ô¡§¿¹²¼´î¹°¡ÊÍý²½³Ø¸¦µæ½ê ȯÀ¸¡¦ºÆÀ¸²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
-- Benjamen A Filas, Philip V. Bayly, and Larry A Taber, &br;
"Mechanical Stress as a Regulator of Cytoskeletal Contractility and Nuclear Shape in Embryonic Epithelia", &br;
Ann. Biomed. Eng. 39, 443–454 (2011) 
http://dx.doi.org/10.1007%2Fs10439-010-0171-7 
-- Amy E. Shyer, Tuomas Tallinen, Nandan L. Nerurkar, Zhiyan Wei, Eun Seok Gil, David L. Kaplan, Clifford J. Tabin, L. Mahadevan, &br;
"Villification: How the Gut Gets Its Villi", &br;
Science 342, 212-218 (2013)
http://dx.doi.org/10.1126/science.1238842

*** Âè7²ó 10·î3Æü(ÌÚ) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ÀÐËֹܻâ¡ÊÍý²½³Ø¸¦µæ½ê ȯÀ¸¡¦ºÆÀ¸²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
-- Boris I. Shraiman, &br;
"Mechanical feedback as a possible regulator of tissue growth", &br;
PNAS 102, 3318–3323 (2005)
http://dx.doi.org/10.1073/pnas.0404782102

- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø iCeMS¡Ë
-- Volker M. Lauschke, Charisios D. Tsiairis, Paul François, and Alexander Aulehla, &br;
"Scaling of embryonic patterning based on phase-gradient encoding", &br;
Nature 493, 101–105 (2013)
http://dx.doi.org/10.1038/nature11804 

*** Âè6²ó 7·î9Æü(²Ð) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ÀÆÆ£²Â²ð¡ÊµþÅÔÂç³Ø Íý³Ø¸¦µæ²Ê¡Ë
-- M. Behrndt, G. Salbreux, P. Campinho, R. Hauschild, F. Oswald, J. Roensch, S.W. Grill, C.P. Heisenberg, &br;
"Forces driving epithelial spreading in zebrafish gastrulation", &br;
Science 338, 257-60 (2012) 
http://dx.doi.org/10.1126/science.1224143

- ôÅö¼Ô¡§°ÂÅĽ¤¸ç¡Êʼ¸Ë¸©Î©Âç³Ø ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó³Ø¸¦µæ²Ê¡Ë
-- ȯˢºàÎÁ¤ÎÎϳإ·¥ß¥å¥ì¡¼¥·¥ç¥ó¤Î¾Ò²ð

*** Âè5²ó 4·î16Æü(²Ð) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§³Þ°æÎѻ֡ʵþÅÔÂç³Ø iCeMS¡Ë
-- ÏÀʸ
- ôÅö¼Ô¡§»³ËÜÎÌ°ì¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- Hirokazu Tanimoto and Masaki Sano, &br;
"Dynamics of Traction Stress Field during Cell Division", &br;
Phys. Rev. Lett. 109, 248110 (2012) 
http://dx.doi.org/10.1103/PhysRevLett.109.248110

*** Âè4²ó 2·î14Æü(ÌÚ) 13:00¡Á [#f8eea834]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø iCeMS¡Ë
-- Thierry Savin, Natasza A. Kurpios, Amy E. Shyer, Patricia Florescu, Haiyi Liang, L. Mahadevan, and Clifford J. Tabin, &br;
"On the growth and form of the gut", &br;
Nature 476, 57–62 (2011)
http://dx.doi.org/10.1038/nature10277 

- ôÅö¼Ô¡§Ã«¸ýµ®»Ö¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- Phase field model ¤Î¥ì¥Ó¥å¡¼

** 2012 [#pfbc055a]

*** Âè3²ó 11·î15Æü(ÌÚ) 13:00¡Á [#b2ec8fe3]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§ÀÄÌÚ°ìÍΡʵþÅÔÂç³Ø À¸Ì¿²Ê³Ø¸¦µæ²Ê¡Ë
-- ¥ì¥Ó¥å¡¼¡§ 
-- ÏÀʸ¡§Aoki K, Takahashi K, Kaizu K, Matsuda M. &br;
"Experimental validation of the effects of macromolecular crowding on enzymatic reaction: Thermodynamic activity, viscosity and processivity" &br;
Sci Rep. 2013;3:1541. doi: 10.1038/srep01541. 
http://www.ncbi.nlm.nih.gov/pubmed/23528948
- ôÅö¼Ô¡§¿¹²¼´î¹°¡ÊÍý²½³Ø¸¦µæ½ê ȯÀ¸¡¦ºÆÀ¸²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
-- ÏÀʸ

*** Âè2²ó 9·î14Æü(¶â) 13:00¡Á [#p9537b68]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô:
- ôÅö¼Ô¡§»°±º³Ù¡ÊµþÅÔÂç³Ø °å³Ø¸¦µæ²Ê¡Ë
-- È¿±þ³È»¶¥â¥Ç¥ë¤Î¥ì¥Ó¥å¡¼ &br;
Patrick Müller, Katherine W. Rogers, Ben M. Jordan, Joon S. Lee, Drew Robson, Sharad Ramanathan, Alexander F. Schier, &br;
"Differential Diffusivity of Nodal and Lefty Underlies a Reaction-Diffusion Patterning System", &br;
Science 336, 721-724 (2012) 
http://dx.doi.org/10.1126/science.1221920 &br;
-- Google Drive ¤Ë¥¢¥Ã¥×¤µ¤ì¤¿¤â¤Î &br;
https://docs.google.com/file/d/0B2y2f2MVEDKyNVZuVkhqTnBUN28/edit

- ôÅö¼Ô¡§ÀÐËֹܻâ¡ÊÍý²½³Ø¸¦µæ½ê ȯÀ¸¡¦ºÆÀ¸²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
-- J. S. Bois, F. Jülicher, and S. W. Grill, &br;
"Pattern Formation in Active Fluids", &br;
Phys. Rev. Lett. 106, 028103 (2011), 
http://dx.doi.org/10.1103/PhysRevLett.106.028103 &br;
-- Google Drive ¤Ë¥¢¥Ã¥×¤µ¤ì¤¿¤â¤Î &br;
https://docs.google.com/file/d/0B2y2f2MVEDKyY1NyVno3VnNNamM/edit

*** Âè1²ó 6·î28Æü(ÌÚ) 14:00¡Á [#k4e0d1ea]
- ¾ì½ê¡§ iCeMSÁí¹ç¸¦µæÅï1¹æ´Û4F¥é¥¦¥ó¥¸
//- »²²Ã¼Ô: ÀÄÌÚ°ìÍΡ¤»°±º³Ù¡¤¿ù¼·°¡¤»³ËÜḬ̂졤¶ÌÅÄ¿¿Ì顤¿¹²¼´î¹°¡¤ÀÐËֹܻ⡤Àи¶½¨»ê
- ôÅö¼Ô¡§¿ù¼·°¡ÊµþÅÔÂç³Ø iCeMS¡Ë
-- Goehring NW, Trong PK, Bois JS, Chowdhury D, Nicola EM, Hyman AA, Grill SW.&br;
"Polarization of PAR proteins by advective triggering of a pattern-forming system.", &br;
Science. 2011 Nov 25;334(6059):1137-41. doi: 10.1126/science.1208619.
http://www.ncbi.nlm.nih.gov/pubmed/22021673
-- ¥ì¥¸¥å¥á
- ôÅö¼Ô¡§»³ËÜÎÌ°ì¡ÊµþÅÔÂç³Ø ¹©³Ø¸¦µæ²Ê¡Ë
-- François A. Detcheverry, Darin Q. Pike, Paul F. Nealey, Marcus Müller, and Juan J. de Pablo, &br;
"Monte Carlo Simulation of Coarse Grain Polymeric Systems", &br;
Phys. Rev. Lett. 102, 197801 (2009)
http://dx.doi.org/10.1103/PhysRevLett.102.197801