The functional versatility of the nuclear pore complex proteins.

Over the past few decades, it is increasingly evident that nucleoporins are multi-functional proteins that are not only pivotal for the formation of the nuclear pore complex. They also have key roles in mitosis, gene expression, development and disease. In this review, the versatility and functions of nucleoporins outside the NPC will be discussed.SCOPUS: re.jinfo:eu-repo/semantics/publishe

Ein Beitrag zu fussgaengerinduzierten Brueckenschwingungen

SIGLEAvailable from TIB Hannover: RR275(1991,5) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekDEGerman

Flow selector device.

<p>(A) Schematic diagram of 3D printed flow selector device using PDMS membrane valve. (inset) Valves are closed when air pressure is applied from the bottom channel. When they are open, aqueous phases pumped at a constant pressure flow through the valve. (B) Fabricated flow selector device. (C) Plot of blue dye level measured at the outlet of the device, indicated as dotted square in (B). Deionized water with and without blue dye were switched every 15s.</p

Droplet cell culture and monitoring devices.

<p>(A) CAD design of the droplet storage and growth measurement device. (B) A fabricated device with a LED and photodiode (PD) sensor attached. (C) Schematic diagram of droplet cell growth monitoring. Generated droplets are stored in the chamber as they float in the fluorinated oil. (D) CAD design of the long delay line droplet storage device. Dimensions of the device were 24.5×20.0×10.9 mm (W×D×H) (e) Op-amp circuit for PD signal amplification. Signals from V_out were read by the DAQ device. (F) A growth curve of <i>E</i>.<i>coli</i> cells in droplet stored in the 3D printed measurement device. (G) A growth curve of E.coli in droplets stored in the long delay-line device.</p

3D printed droplet generators.

<p>(A) CAD design of the T-junction device with one aqueous inputs, one oil input, and an output. Internal channel structures are illustrated in blue. Aqueous phase (indicated in blue in the inset) was introduced from the top inlet and oil phase (white) from the left. (B) The CAD design of 3D droplet generator. Aqueous phase (blue in the inset) was cut into small droplets by oil phase (white). (C) Microscopic pictures of generated droplets. Flow rates of aqueous phase are 0.4, 0.8, 1.6, and 2.4 ml/min (top to bot-tom). The top two images were from the 3D device, and the bottom ones were from the T-junction device. Scale bar: 250 μm. (D) Plot of droplet diameter as a function of the flow rate of aqueous phase. The flow rate of oil phase was fixed at 2.8 ml/min. Error bars were standard deviations.</p

Interconnectable modular devices.

<p>(A) CAD designs of modularized 3D printed devices. (B) Surface roughness of 3D printed parts. Intact male connector (left) and vapor-treated connector (right). Both parts were first polished by a file. (C) Zoom-up of connected male/female parts. (left) intact parts (right) vapor-treated parts. (D) Assembled modular devices.</p