Numerical homogenization of subcellular cytoskeletal processes to reveal novel mechanisms of Rho/Rac dependent adhesion
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Author
Date
2012Type
- Doctoral Thesis
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https://doi.org/10.3929/ethz-a-007619561Publication status
publishedExternal links
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ETHSubject
RHO-PROTEINE + RAC-PROTEINE (G-PROTEINE); ZELLADHÄSION + ZELLAGGREGATION (CYTOLOGIE); CELL ADHESION + CELL AGGREGATION (CYTOLOGY); RHO PROTEINS + RAC PROTEINS (G PROTEINS); CYTOLOGISCHE BIOCHEMIE + CYTOLOGISCHE BIOPHYSIK + CYTOLOGISCHE MOLEKULARBIOLOGIE + CYTOLOGISCHE PHYSIOLOGIE; Cytologische Aspekte der Signaltransduktion und Signalverarbeitung; Cytoskelett; CYTOLOGISCHE ASPEKTE DER SIGNALTRANSDUKTION UND SIGNALVERARBEITUNG (BIOKOMMUNIKATION); CELL MOVEMENTS (CYTOLOGY); Rho-Proteine; Cytologische Biochemie; CYTOLOGICAL BIOCHEMISTRY + CYTOLOGICAL BIOPHYSICS + CYTOLOGICAL MOLECULAR BIOLOGY + CYTOLOGICAL PHYSIOLOGY; Zellbewegung; CYTOSKELETON (CYTOLOGY); Zelladhäsion; CYTOLOGICAL ASPECTS OF SIGNAL TRANSDUCTION AND SIGNAL PROCESSING (BIOCOMMUNICATION); ZELLBEWEGUNG (CYTOLOGIE); CYTOSKELETT (CYTOLOGIE)Organisational unit
02130 - Dep. Maschinenbau und Verfahrenstechnik / Dep. of Mechanical and Process Eng.03822 - Snedeker, Jess G. / Snedeker, Jess G.
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ETH Bibliography
yes
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