Generating Multi-state Conformations of P-type ATPases with a Diffusion Model

Jingtian Xu, Yong Wang
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Abstract

Understanding and predicting the diverse conformational states of membrane proteins is essential for elucidating their biological functions. Despite advancements in computational methods, accurately capturing these complex structural changes remains a significant challenge. In this study, we introduce a method for predicting diverse functional states of membrane protein conformations using a diffusion model. Our approach integrates forward and backward diffusion processes, incorporating state classifiers and additional conditioners to control the generation gradient of conformational states. We specifically target the P-type ATPases, a key membrane transporter, for which we curated and expanded a structural dataset. By employing a graph neural network with a custom membrane constraint, our model generates precise structures for P-type ATPases across different functional states. This approach represents a significant step forward in computational structural biology and holds great potential for studying the dynamics of other membrane proteins.
用扩散模型生成 P 型 ATP 酶的多态构象
了解和预测膜蛋白的各种构象状态对于阐明其生物功能至关重要。尽管计算方法不断进步,但准确捕捉这些复杂的结构变化仍是一项重大挑战。在本研究中,我们介绍了一种利用扩散模型预测膜蛋白构象的不同功能状态的方法。我们的方法整合了前向和后向扩散过程,纳入了状态分类器和附加调节器,以控制构象状态的生成梯度。我们特别以 P 型 ATP 酶(一种关键的膜转运体)为研究对象,并对其结构数据集进行了整理和扩充。通过使用带有自定义膜约束的图神经网络,我们的模型生成了 P 型 ATPases 在不同功能状态下的精确结构。这种方法标志着计算结构生物学向前迈出了重要一步,并为研究其他膜蛋白的动力学提供了巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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