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Molecular Dynamic Simulation of Space and Earth-Grown Crystal Structures of Thermostable T1 Lipase Geobacillus zalihae Revealed a Better Structure

Less sedimentation and convection in a microgravity environment has become a well-suited condition for growing high quality protein crystals. Thermostable T1 lipase derived from bacterium Geobacillus zalihae has been crystallized using the counter diffusion method under space and earth conditions. P...

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Veröffentlicht in:	Molecules
Hauptverfasser:	Ishak, Siti Nor Hasmah, Aris, Sayangku Nor Ariati Mohamad, Halim, Khairul Bariyyah Abd, Ali, Mohd Shukuri Mohamad, Leow, Thean Chor, Kamarudin, Nor Hafizah Ahmad, Masomian, Malihe, Rahman, Raja Noor Zaliha Raja Abd
Format:	Artigo
Sprache:	Inglês
Veröffentlicht:	MDPI 2017
Schlagworte:	Article
Online Zugang:	https://ncbi.nlm.nih.gov/pmc/articles/PMC6151610/ https://ncbi.nlm.nih.gov/pubmed/28946656 https://ncbi.nlm.nih.govhttp://dx.doi.org/10.3390/molecules22101574
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Molecular Dynamic Simulation of Space and Earth-Grown Crystal Structures of Thermostable T1 Lipase Geobacillus zalihae Revealed a Better Structure

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