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Arayik Martirosyan
University of Hamburg
BiophysicsProtein crystallizationCrystallizationMacromoleculeInternational Space Station
2Publications
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Publications 3
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#1Sven FalkeH-Index: 3
#2Hevila BrognaroH-Index: 1
Last. Christian BetzelH-Index: 39
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Abstract Liquid-liquid phase separation (LLPS) phenomena have been observed in vitro as well as in vivo and came in focus of interdisciplinary research activities particularly aiming at understanding the physico-chemical pathways of LLPS and its functionality in recent years. Dynamic light scattering (DLS) has been proven to be a most efficient method to analyze macromolecular clustering in solutions and suspensions with diverse applications in life sciences, material science and biotechnology. ...
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#1Arayik Martirosyan (UHH: University of Hamburg)
#2L.J. DeLucas (The Aerospace Corporation)H-Index: 1
Last. Christian Betzel (UHH: University of Hamburg)H-Index: 39
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#1Christian Betzel (UHH: University of Hamburg)H-Index: 39
#2Arayik Martirosyan (UHH: University of Hamburg)
Last. Günter Ruyters (DLR: German Aerospace Center)H-Index: 1
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Already early protein crystallization experiments in space indicated that more extended crystallization periods, beyond the flight durations of shuttle missions or unmanned orbiters, will be beneficial for the majority of microgravity protein crystal growth experiments. Beside preceding intensive efforts to adjust and optimize crystallization conditions to meet the microgravity time span of orbiters flight duration, video imaging of some experiments showed that the crystallization process was no...
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