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Achievements

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19) The humidity responsiveness of a poly(N-isopropylacrylamide) gel using a PEG/water mixed solution as the solvent

Makita R, Akimoto A, Enomoto T, Nishimoto T, Li X, Shibayama M,  Yoshida R

Polymer J., in press

18) Single-cell colocalization analysis using a deep generative model

Kojima Y, Mii S, Hayashi S, Hirose H, Ishikawa M, Akiyama M, Enomoto A, Shimamura T

Cell Systems, 15:180 (2024).

17) Soluble Frizzled-related proteins promote exosome-mediated Wnt re-secretion.

Tran THN, Takada R, Elena Krayukhina E, Maruno T, Mii Y, Uchiyama S, and Takada S

Communications Biology, 7:254 (2024).

16) Dissection of N-deacetylase and N-sulfotransferase activities of NDST1 and their effects on Wnt8 distribution and signaling in Xenopus embryos

Suzuki M, Takada S, and Mii Y

Dev. Growth. Differ.,in press.

15)​ Surface Glycan Profiling of Extracellular Vesicles by Lectin Microarray and Glycoengineering for Control of Cellular Interactions

Shimoda A and Akiyoshi K

Pharm. Res.,40:795 (2023)

14) In vitro induction of patterned branchial arch-like aggregate from human pluripotent stem cells

Seto Y,  Ogihara R,  Takizawa K,  and Eiraku M

Nat. Commun.,15:1351 (2023)

13) Discovery of Transcription Factors Involved in the Maintenance of Resident Vascular Endothelial Stem Cell Properties

Konishi H, Rahmawati FN, Okamoto N, Akuta K, Inukai K, Jia W, Muramatsu F, and Takakura N

Molecular and Cellular Biology,44:17 (2023)

12) Aging impairs the ability of vascular endothelial stem cells to generate endothelial cells in mice

Shimizu S, Iba T, Naito H, Rahmawati FN, Konishi H, Jia W, Muramatsu F, and Takakura N

Angiogenesis,26:567-580 (2023).

 

11) Efficient selection of knocked-in pluripotent stem cells using a dual cassette cellular elimination system.

Nakade K, Tsukamoto S, Nakashima K, An Y, Sato I, Li J, Shimoda Y, Hemmi Y, Miwa Y, and Hayashi Y

Cell Rep. methods,3:100662 (2023)

10) Optogenetic control of gut movements reveals peristaltic wave-mediated induction of cloacal contractions and reactivation of impaired gut motility

Shikaya Y, Inaba M, Tadokoro R, Utsunomiya S, and Takahashi Y

Front. Physiol., Sec. Developmental Physiology, 14 (2023)

9) UNMF: a unified nonnegative matrix factorization for multi-dimensional omics data

Abe K and Shimamura T

Brief. Bioinform.,24:bbad253 (2023)

8) Topological data analysis of protein structure and inter/intra-molecular interaction changes attributable to amino acid mutations

Koseki J, Hayashi S, Kojima Y, Hirose H, and Shimamura T

Comput. Struct. Biotechnol. J.,21:2950 (2023).

7) Rapid and Highly Efficient Purification of Extracellular Vesicles Enabled by a TiO2 Hybridized Spongy-like Polymer

Kanao E, Ishida K,  Mizuta R,  Li Y,  Imami K,  Tanigawa T,  Sasaki Y,  Akiyoshi K,  Adachi J,  Otsuka K,  Ishihama Y, and  Kubo T*

Anal. Chem.,95, 38, 14502 (2023)

6) Simultaneous binding of bFGF to both FGFR and integrin maintains properties of primed human induced pluripotent stem cells

Cheng YS, Taniguchi Y, Yunoki Y, Masai S, Nogi M, Doi H, Sekiguchi K, and Nakagawa M

Regen. Ther., 25:113 (2023)

5) Visualization of basement membranes by a nidogen-based fluorescent reporter in mice

Futaki S, Horomoto A, Shimono C, Norioka N, Taniguchi Y, Hamaoka H, Kaneko M, Shigeta M, Abe T, Sekiguchi K, and Kondo Y

Matrix Biol.,18:100133 (2023) 

4) Gap junction-mediated contraction of myoepithelial cells induces the peristaltic transport of sweat in human eccrine glands

Nakashima K, Kato H, Kurata R, Luo Q, Hayakawa T, Okada F, Fujita F, Nakagawa Y, Tanemura A, Murota H, Katayama I, and Sekiguchi K

Commun. Biol., 6:1175 (2023).

3) Laminin fragments conjugated with perlecan’s growth factor-binding domain differentiate human induced pluripotent stem cells into skin-derived precursor cells

Sugiyama‐Nakagiri Y, Yamashita S, Taniguchi Y, Shimono C, and Sekiguchi K

Sci. Rep., 13:14556 (2023).

2) Polydom/SVEP1 binds to Tie1 and promotes migration of lymphatic endothelial cells

 Sato-Nishiuchi R, Doiguchi M, Morooka N, and Sekiguchi K

 J. Cell Biol., 222:e202208047 (2023).

1) Development of a method for isolating brain capillaries from a single neonatal mouse brain and comparison of proteomic profiles between neonatal and adult brain capillaries

Hamada Y,  Ogata S,  Masuda T,  Ito S,  and Ohtsuki S

Fluids Barriers CNS, 20:50 (2023).

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