Thrilled to share our first Nature Nano article about de novo designed nanopore that incorporates a β-hairpin peptide.
Great work done by Shimizu-kun and prominent collaborators in Kawamura lab and Usui lab!
This is OPEN access!! (1/n)
Fujita-san's (M2) first first-author paper on cell-free nanopore is now open in ACS Nano!
Congratulations!
Cell-Free Expression of De Novo Designed Peptides That Form β-Barrel Nanopores
We are happy to share our new paper today
@JACS_Au
on microRNA pattern recognition based on DNA computing technology and nanopore sensing. Congrats,
@ntake3110
! (1/3)
Our latest work is out! "Simultaneous Recognition of Over- and Under-Expressed MicroRNAs Using Nanopore Decoding" - inspired by the DNA computing methodology. Congrats, Takiguchi-kun!
Our latest work is out! Check it out👀
"Long-Term Stable Liposome Modified by PEG-Lipid in Natural Seawater"
Congratulations Izumi-san
@k_izm08
& Jiajue-kun, and thank you for the wonderful collaboration Koiwai-sensei
@KKo1wa1
!!
Our review article on molecular robots is now open at Lab on a Chip! It has been selected as Lab on a Chip HOT Articles 2023!
Thanks for co-authoring with us
@DiMicheleLAB1
@YuvalElani
@tomo_matsuuraG
"Lipid vesicle-based molecular robots"
Takiguchi’s 1st paper in my lab is published in Nanoscale and introduced in the TUAT press release!
滝口くん(M1)の初の筆頭著者論文がNanoscaleに掲載され、本学のプレスリリースで紹介されました🎉
論文
New
@ChemRxiv
preprint on microRNA pattern recognition using DNA computing and nanopore decoding! We successfully distinguished microRNA expression patterns in clinical plasma samples of bile duct cancer patients and healthy volunteers.
I, Ryuji Kawano, got promoted to a full professor
@TUAT_all
today! I highly appreciate all lab members, collaborators, colleagues, friends, and my family for their supports.
本日付で川野が教授に昇任いたしました!
Gas vesicles are gas-filled but gas-permeable protein shells that make cells float. Here is the peer-reviewed (published published?) version of our preprint determining their molecular structure and assembly:
#cryoEM
#gasvesicles
Pattern Recognition of microRNA Expression in Body Fluids Using Nanopore Decoding at Subfemtomolar Concentrations
Nanami Takeuchi, Moe Hiratani, and Ryuji Kawano
@TUAT_EN
#openaccess
#cancerresearch
We have succeeded in electrophysiologically observing the oligomerization process of amyloid β monomers to form oligomer channels on the phospholipid membranes! These results have been published in
@PNASNexus
!
Congratulations! Prof. Inoue visiting from
@JohnsHopkins
won a Gold medal! (Awarded by the Minister of Education, Japan)
ラボに滞在中の井上尊生さんが金メダルを獲りました!(文部科学大臣表彰科学技術賞受賞)
Very interesting!
"These results collectively suggest that bilayers containing DOPC and POPC bilayers with biological head group chirality are enantioselectively permeable to amino acid derivatives with biological chirality."
Prof. Aleksei Aksimentiev
@aksimentievLab
and Takuya Mabuchi
@MabuchiGroup
visited and gave excellent talks on MD simulations in our lab. Their presentations were impressive and stimulating.
We also had a great time enjoying a Tempura Soba lunch together!
明日から開催のBPS2023()でD3劉さん、D2和泉さん、竹内さん、D1山地さん、M2林くん、福田さん、溝口くん、宮城さん、Zhengくん、M1藤田さんがポスター発表を行います!また山地さんがSubgroup Symposium: The Nanoscale Approaches to Biologyにて口頭発表を行います!
Our paper on “Pattern Recognition of microRNA Expression in Body Fluids Using Nanopore Decoding at Subfemtomolar Concentrations” has been featured on the Supplementary Cover of
@JACS_Au
!
@ACS4Authors
#MyACSCover
2020年卒の高井さんのカーボン膜に固体ナノポアを作る論文がMicromachinesに掲載されました!川野研究室ではすべての学生の成果を論文にすることを目標にしています!2020年卒はあと1人!
Simple Fabrication of Solid-State Nanopores on a Carbon Film #
#mdpimicromachines
Happy to share our recent work on liposome generation by microfluidics
@ChemRxiv
"Microfluidic generation of cell-sized liposomes using a budding strategy"
See here:
Fujita-san's (M1) recent study on de novo nanopore has been selected as the supplemental cover picture for the latest issue of ACS Nano. Congratulations to Fujita-san on this well-deserved recognition!
Izumi-san's (D2) first first-author paper on liposome deformation is now open in Micromachines!
Many congratulations!
Liposome Deformation Induced by Membrane-Binding Peptides
#mdpimicromachines
@micromach_mdpi
During Mauro-san's final day with us at the lab, he prepared a delightful Italian pasta, we called as "Mauro Special". We thoroughly enjoyed the pasta and wines, making for a memorable evening.
D1滝口くん、川野先生が分担執筆した書籍 "MicroRNA Detection and Target Identification (Methods in Molecular Biology book series)" がSpringer社から出版されました!核酸等温増幅とナノポア計測を利用した低濃度microRNA検出に関するプロトコルです。