Riho Gojo scite author profile

Artificial reconstruction of fibre-shaped cellular constructs could greatly contribute to tissue assembly in vitro. Here we show that, by using a microfluidic device with double-coaxial laminar flow, metre-long core-shell hydrogel microfibres encapsulating ECM proteins and differentiated cells or somatic stem cells can be fabricated, and that the microfibres reconstitute intrinsic morphologies and functions of living tissues. We also show that these functional fibres can be assembled, by weaving and reeling, into macroscopic cellular structures with various spatial patterns. Moreover, fibres encapsulating primary pancreatic islet cells and transplanted through a microcatheter into the subrenal capsular space of diabetic mice normalized blood glucose concentrations for about two weeks. These microfibres may find use as templates for the reconstruction of fibre-shaped functional tissues that mimic muscle fibres, blood vessels or nerve networks in vivo.

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Biomolecular-Motor-Based Nano- or Microscale Particle Translocations on DNA Microarrays

Hiyama

Gojo

Shima

et al. 2009

Nano Lett.

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We aimed to create autonomous on-chip systems that perform targeted translocations of nano- or microscale particles in parallel using machinery that mimics biological systems. By exploiting biomolecular-motor-based motility and DNA hybridization, we demonstrate that single-stranded DNA-labeled microtubules gliding on kinesin-coated surfaces acted as cargo translocators and that single-stranded DNA-labeled cargoes were loaded/unloaded onto/from gliding microtubules at micropatterned loading/unloading sites specified by DNA base sequences. Our results will help to create autonomous molecular sorters and sensors.

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Biomolecular-motor-based autonomous delivery of lipid vesicles as nano- or microscale reactors on a chip

Hiyama

Moritani²,

Gojo

et al. 2010

Lab Chip

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We aimed to create an autonomous on-chip system that performs targeted delivery of lipid vesicles (liposomes) as nano- or microscale reactors using machinery from biological systems. Reactor-liposomes would be ideal model cargoes to realize biomolecular-motor-based biochemical analysis chips; however, there are no existing systems that enable targeted delivery of cargo-liposomes in an autonomous manner. By exploiting biomolecular-motor-based motility and DNA hybridization, we demonstrate that single-stranded DNA (ssDNA)-labeled microtubules (MTs), gliding on kinesin-coated surfaces, acted as cargo transporters and that ssDNA-labeled cargo-liposomes were loaded/unloaded onto/from gliding MTs without bursting at loading reservoirs/micropatterned unloading sites specified by DNA base sequences. Our results contribute to the development of an alternative strategy to pressure-driven or electrokinetic flow-based microfluidic devices.

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Activation of growth and nodulation in a symbiotic system between pea plants and leguminous bacteria by near-UV radiation

Shiozaki

Hattori

Gojo

et al. 1999

Journal of Photochemistry and Photobiology B: Biology

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Core-shell gel wires for the construction of large area heterogeneous structures with biomaterials

Onoe

Gojo

Tsuda

et al. 2010

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Riho Gojo

Metre-long cell-laden microfibres exhibit tissue morphologies and functions

Biomolecular-Motor-Based Nano- or Microscale Particle Translocations on DNA Microarrays

Biomolecular-motor-based autonomous delivery of lipid vesicles as nano- or microscale reactors on a chip

Activation of growth and nodulation in a symbiotic system between pea plants and leguminous bacteria by near-UV radiation

Core-shell gel wires for the construction of large area heterogeneous structures with biomaterials

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