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Literature DB >> 11536760

The slow rotating centrifuge microscope NIZEMI--a versatile instrument for terrestrial hypergravity and space microgravity research in biology and materials science.

U L Friedrich¹, O Joop, C Pütz, G Willich.

Abstract

NIZEMI (slow rotating centrifuge microscope) is a tool for optical investigations of small biological and non-biological specimens during variable accelerations. Two laboratory models for ground research designed for accelerations from 1 to 5 x g and 10 x g respectively are used for terrestrial research, especially in gravitational biology. A space facility was developed and built for the Spacelab mission IML-2 during which eight experiments were performed successfully. The specifications and topic design features of the NIZEMI models are presented in this paper.

Mesh：

Year: 1996 PMID： 11536760 DOI： 10.1016/0168-1656(96)01371-5

Source DB: PubMed Journal: J Biotechnol ISSN： 0168-1656 Impact factor: 3.307

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Cited

6 in total

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Review 3. How plants grow under gravity conditions besides 1 g: perspectives from hypergravity and space experiments that employ bryophytes as a model organism.

Authors: Atsushi Kume; Hiroyuki Kamachi; Yusuke Onoda; Yuko T Hanba; Yuji Hiwatashi; Ichirou Karahara; Tomomichi Fujita
Journal: Plant Mol Biol Date: 2021-04-14 Impact factor: 4.076

The slow rotating centrifuge microscope NIZEMI--a versatile instrument for terrestrial hypergravity and space microgravity research in biology and materials science.

1. Hypergravity can reduce but not enhance the gravitropic response of Chara globularis protonemata.

Review 2. Space microbiology.

Review 3. How plants grow under gravity conditions besides 1 g: perspectives from hypergravity and space experiments that employ bryophytes as a model organism.

4. Enhanced robustness digital holographic microscopy for demanding environment of space biology.

5. Cell cultivation under different gravitational loads using a novel random positioning incubator.

Review 6. The influence of spaceflight and simulated microgravity on bacterial motility and chemotaxis.