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Gravitational and magnetic field variations synergize to cause subtle variations in the global transcriptional state of Arabidopsis in vitro callus cultures

机译：引力和磁场变化协同作用导致拟南芥体外愈伤组织培养的整体转录状态发生细微变化

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BackgroundBiological systems respond to changes in both the Earth's magnetic and gravitational fields, but as experiments in space are expensive and infrequent, Earth-based simulation techniques are required. A high gradient magnetic field can be used to levitate biological material, thereby simulating microgravity and can also create environments with a reduced or an enhanced level of gravity (g), although special attention should be paid to the possible effects of the magnetic field (B) itself.

机译：背景技术生物系统对地球磁场和引力场的变化都做出响应，但是由于在太空进行的实验昂贵且不频繁，因此需要基于地球的模拟技术。高梯度磁场可用于悬浮生物材料，从而模拟微重力，并且还可以创建具有降低或增强的重力水平（g）的环境，尽管应特别注意磁场的可能影响（B ）本身。

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期刊名称 BMC Genomics
作者
Ana I Manzano; Jack JWA van Loon; Peter CM Christianen; Juana M Gonzalez-Rubio; F Javier Medina; Raul Herranz;
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作者单位

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年(卷),期 2012(13),-1
年度 2012
页码 105
总页数 13
原文格式 PDF
正文语种
中图分类遗传学;应用微生物学;
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1. Gravitational and magnetic field variations synergize to cause subtle variations in the global transcriptional state of Arabidopsis in vitro callus cultures [J] . Ana I Manzano, Jack JWA van Loon, Peter CM Christianen, BMC Genomics . 2012,第1期

机译：引力和磁场变化共同导致拟南芥体外愈伤组织培养的整体转录状态发生细微变化
2. Changes in the effective gravitational field strength affect the state of phosphorylation of stress-related proteins in callus cultures of Arabidopsis thaliana. [J] . Barjaktarovi# ?uarko, Schcotz Wolfgang, Madlung Johannes, Journal of Experimental Botany . 2009,第3期

机译：有效重力场强度的变化会影响拟南芥愈伤组织培养物中应激相关蛋白的磷酸化状态。
3. Changes in the effective gravitational field strength affect the state of phosphorylation of stress-related proteins in callus cultures of Arabidopsis thaliana [J] . Žarko Barjaktarović1 Wolfgang Schütz2 Johannes Madlung2 Claudia Fladerer2 Alfred Nordheim2 and Rüdiger Hampp1* Journal of Experimental Botany . 2009,第3期

机译：有效引力场强度的变化影响拟南芥愈伤组织培养中应激相关蛋白的磷酸化状态
4. GRAVITATIONAL FIELD RELATED CHANGES IN GENE EXPRESSION AFTER SHORT -TERM EXPOSURE OF ARABIDOPSIS THAL1ANA CELL CULTURES [C] . Maren Babbick, Marianne Cogoli-Greuter, Kenneth C. Lowe, European Rocket and Balloon Programmes and Related Research . 2005

机译：拟南芥拟南芥细胞培养短期暴露后基因表达的重力场相关变化
5. Variations with multiple time scales of the global sea surface temperature fields and their relationship with the atmospheric general circulation [D] . 谷本陽一 1994

机译：全球海表温度场的多个时间尺度变化及其与大气总环流的关系
6. Changes in the effective gravitational field strength affect the state of phosphorylation of stress-related proteins in callus cultures of Arabidopsis thaliana [O] . Žarko Barjaktarović, Wolfgang Schütz, Johannes Madlung, -1

机译：有效引力场强度的变化影响拟南芥愈伤组织培养中应激相关蛋白的磷酸化状态
7. Gravitational and magnetic field variations synergize to cause subtle variations in the global transcriptional state of Arabidopsis in vitro callus cultures [O] . Manzano, Ana I., Van Loon, Jack JWA, Christianen, Peter CM, 2012

机译：引力和磁场变化协同作用导致拟南芥体外愈伤组织培养的整体转录状态发生细微变化

Gravitational and magnetic field variations synergize to cause subtle variations in the global transcriptional state of Arabidopsis in vitro callus cultures

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