DNA-Encoded probe-based assay for profiling plant kinase activities

PNAS Nexus Pub Date : 2024-07-19 DOI:10.1093/pnasnexus/pgae281
Yuan-Chi Chien, C Alexander Valencia, Han Yong Lee, Gyeong Mee Yoon, Dongwook Kim
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Abstract

Elucidating kinase-substrate relationships is pivotal for deciphering cellular signaling mechanisms, yet it remains challenging due to the complexity of kinase networks. Herein, we report the development of a versatile DNA-based kinase assay platform for high-throughput profiling of plant protein kinase activities and substrate preferences. Our approach employs DNA-linked peptide substrates, facilitating quantitative and specific kinase activity detection through next-generation DNA sequencing. Leveraging DNA barcodes as quantitative readouts, our approach establishes a high-throughput, sensitive, and specific platform for dissecting kinase-substrate networks in plants, representing a powerful tool for elucidating signaling mechanisms in plants.
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基于 DNA 编码探针的植物激酶活性分析法
阐明激酶与底物之间的关系对于破译细胞信号传导机制至关重要,但由于激酶网络的复杂性,这项工作仍具有挑战性。在此,我们报告了基于 DNA 的多功能激酶检测平台的开发情况,该平台可用于高通量植物蛋白激酶活性和底物偏好分析。我们的方法采用与 DNA 链接的多肽底物,通过下一代 DNA 测序促进定量和特异性激酶活性检测。利用 DNA 条形码作为定量读数,我们的方法建立了一个高通量、灵敏和特异的平台,用于剖析植物激酶-底物网络,是阐明植物信号转导机制的有力工具。
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PNAS Nexus
PNAS Nexus
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