Soojin Jo scite author profile

Soojin Jo

5Publications

68Citation Statements Received

97Citation Statements Given

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163

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Sungkyunkwan University

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Normal mode-guided transition pathway generation in proteins

et al. 2017

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The biological function of proteins is closely related to its structural motion. For instance, structurally misfolded proteins do not function properly. Although we are able to experimentally obtain structural information on proteins, it is still challenging to capture their dynamics, such as transition processes. Therefore, we need a simulation method to predict the transition pathways of a protein in order to understand and study large functional deformations. Here, we present a new simulation method called normal mode-guided elastic network interpolation (NGENI) that performs normal modes analysis iteratively to predict transition pathways of proteins. To be more specific, NGENI obtains displacement vectors that determine intermediate structures by interpolating the distance between two end-point conformations, similar to a morphing method called elastic network interpolation. However, the displacement vector is regarded as a linear combination of the normal mode vectors of each intermediate structure, in order to enhance the physical sense of the proposed pathways. As a result, we can generate more reasonable transition pathways geometrically and thermodynamically. By using not only all normal modes, but also in part using only the lowest normal modes, NGENI can still generate reasonable pathways for large deformations in proteins. This study shows that global protein transitions are dominated by collective motion, which means that a few lowest normal modes play an important role in this process. NGENI has considerable merit in terms of computational cost because it is possible to generate transition pathways by partial degrees of freedom, while conventional methods are not capable of this.

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Ternary and senary representations using DNA double-crossover tiles

Kim

Son

et al. 2014

Nanotechnology

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Abstract. The information capacity of DNA double-crossover (DX) tiles was successfully increased beyond a binary representation to higher base representations. By controlling the length and the position of DNA hairpins on the DX tile, ternary and senary (base-3 and base-6) digit representations were realized and verified by atomic force microscopy (AFM). Also, normal mode analysis (NMA) was carried out to study the mechanical characteristics of each structure.Online supplementary data available from stacks.iop.org/Nano/XX/XXXXXX/mmedia

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Vibrational characteristics of DNA nanostructures obtained through a mass-weighted chemical elastic network model

Son

Lee

et al. 2017

RSC Adv.

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Demonstration of elementary functions via DNA algorithmic self-assembly

et al. 2021

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Normal mode analysis of Zika virus

Lee

Choi

et al. 2018

Computational Biology and Chemistry

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Soojin Jo

Normal mode-guided transition pathway generation in proteins

Ternary and senary representations using DNA double-crossover tiles

Vibrational characteristics of DNA nanostructures obtained through a mass-weighted chemical elastic network model

Demonstration of elementary functions via DNA algorithmic self-assembly

Normal mode analysis of Zika virus

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