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在发育背景下通过蛋白质工程解析 MAPK 信号特异性。

Dissection of MAPK signaling specificity through protein engineering in a developmental context.

机构信息

Howard Hughes Medical Institute, Chevy Chase, USA.

Instituto de Ingeniería Genética y Biología Molecular INGEBI - Consejo Nacional de Investigaciones Científicas y Técnicas, 1428, Buenos Aires, Argentina.

出版信息

BMC Plant Biol. 2018 Apr 10;18(1):60. doi: 10.1186/s12870-018-1274-9.

DOI:10.1186/s12870-018-1274-9
PMID:29636017
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5894206/
Abstract

BACKGROUND

Mitogen-activated protein kinases (MAPK) signaling affects many processes, some of which have different outcomes in the same cell. In Arabidopsis, activation of a MAPK cascade consisting of YODA, MKK4/5 and MPK3/6 inhibits early stages of stomatal developmental, but the ability to halt stomatal progression is lost at the later stage when guard mother cells (GMCs) transition to guard cells (GCs). Rather than downregulating cascade components, stomatal precursors must have a mechanism to prevent late stage inhibition because the same MKKs and MPKs mediate other physiological responses.

RESULTS

We artificially activated the MAPK cascade using MKK7, another MKK that can modulate stomatal development, and found that inhibition of stomatal development is still possible in GMCs. This suggests that MKK4/5, but not MKK7, are specifically prevented from inhibiting stomatal development. To identify regions of MKKs responsible for cell-type specific regulation, we used a domain swap approach with MKK7 and a battery of in vitro and in vivo kinase assays. We found that N-terminal regions of MKK5 and MKK7 establish specific signal-to-output connections like they do in other organisms, but they do so in combination with previously undescribed modules in the C-terminus. One of these modules encoding the GMC-specific regulation of MKK5, when swapped with sequences from the equivalent region of MKK7, allows MKK5 to mediate robust inhibition of late stomatal development.

CONCLUSIONS

Because MKK structure is conserved across species, the identification of new MKK specificity modules and signaling rules furthers our understanding of how eukaryotes create specificity in complex biological systems.

摘要

背景

丝裂原活化蛋白激酶(MAPK)信号转导影响许多过程,其中一些在同一细胞中具有不同的结果。在拟南芥中,由 YODA、MKK4/5 和 MPK3/6 组成的 MAPK 级联的激活抑制了早期气孔发育阶段,但当保卫母细胞(GMC)向保卫细胞(GC)转变时,阻止气孔发育的能力在后期丧失。气孔前体细胞并非下调级联成分,而是必须有一种机制来防止晚期抑制,因为相同的 MKK 和 MPK 介导其他生理反应。

结果

我们使用另一种可以调节气孔发育的 MKK,即 MKK7,人为激活了 MAPK 级联,发现 GMC 中仍然可以抑制气孔发育。这表明 MKK4/5 而不是 MKK7 被特异性阻止抑制气孔发育。为了鉴定负责细胞类型特异性调节的 MKK 区域,我们使用了 MKK7 的结构域交换方法以及一系列体外和体内激酶测定法。我们发现 MKK5 和 MKK7 的 N 端区域像在其他生物体中一样建立了特定的信号到输出连接,但它们与 C 端以前未描述的模块结合在一起。这些模块之一编码 MKK5 的 GMC 特异性调节,当与 MKK7 等效区域的序列交换时,允许 MKK5 介导对晚期气孔发育的强烈抑制。

结论

由于 MKK 结构在物种间保守,新的 MKK 特异性模块和信号规则的鉴定进一步加深了我们对真核生物如何在复杂生物系统中创造特异性的理解。

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