半胱氨酸单体强化二维HP模型中稳定蛋白的结构近似设计

Alireza Hadj Khodabakhshi, Ján Manuch, A. Rafiey, Arvind Gupta
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引用次数: 2

摘要

将氨基酸分为疏水(H)和极性(P)两类,并在能量公式中只考虑相邻H氨基之间的疏水相互作用。另一个在蛋白质折叠过程中起作用的重要力量是两个半胱氨酸氨基酸之间的硫化物桥。在本文中,我们将通过添加半胱氨酸作为第三组氨基酸来丰富HP模型。半胱氨酸单体作为一个H氨基酸,但另外两个相邻的半胱氨酸可以形成一个桥梁,进一步降低折叠的能量。我们称我们的模型为HPC模型。我们考虑Gupta等人1设计的线性结构的一个子类,它足够丰富,可以近似(尽管更粗糙)任何给定的结构。我们通过将大约一半的H氨基酸设置为半胱氨酸来完善HPC模型的结构。我们推测这些结构在HPC模型下是稳定的,并在另一个假设下证明了这一点,即非半胱氨酸氨基酸充当半胱氨酸氨基酸,即它们倾向于形成自己的桥以减少能量。在证明中,我们将有效地使用计算工具2DHPSolver,这大大加快了证明技术部分的进展。这是一项初步工作,我们相信同样的技术可以用来证明这一结果,而不需要对非半胱氨酸H单体进行人为假设。
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Structure-Approximating Design of Stable Proteins in 2D HP Model Fortified by Cysteine Monomers
divides amino acids to two groups: hydrophobic (H) and polar (P), and considers only hydrophobic interactions between neighboring H amino in the energy formula. Another significant force acting during the protein folding are sulfide (SS) bridges between two cysteine amino acids. In this paper, we will enrich the HP model by adding cysteines as the third group of amino acids. A cysteine monomer acts as an H amino acid, but in addition two neighboring cysteines can form a bridge to further reduce the energy of the fold. We call our model the HPC model. We consider a subclass of linear structures designed in Gupta et al. 1 which is rich enough to approximate (although more coarsely) any given structure. We refine the structures for the HPC model by setting approximately a half of H amino acids to cysteine ones. We conjecture that these structures are stable under the HPC model and prove it under an additional assumption that non-cysteine amino acids act as cysteine ones, i.e., they tend to form their own bridges to reduce the energy. In the proof we will make an efficient use of a computational tool 2DHPSolver which significantly speeds up the progress in the technical part of the proof. This is a preliminary work, and we believe that the same techniques can be used to prove this result without the artificial assumption about non-cysteine H monomers.
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