易鸣分享 http://blog.sciencenet.cn/u/yiming123 对生物网络的建模和模拟以及动力学分析非常感兴趣

博文

细胞拥挤增加了信号转导网络的功能灵活性

已有 4760 次阅读 2014-2-15 12:27 |系统分类:科研笔记

Jianqiang Sun, Ming Yi*, Lijian Yang, Wenbin Wei,Yiming Ding, Ya Jia; Enhancement oftunability of MAPK cascade due to coexistence of processive and distributivephosphorylation mechanisms,

Biophysical journal, 106, 12151226,(2014).



ABSTRACT The processive phosphorylation mechanism becomes important when there is macromolecular crowding in the cytoplasm. Integrating the processive phosphorylation mechanism with the traditional distributive one, we propose a mixeddual-site phosphorylation (MDP) mechanism in a single-layer phosphorylation cycle. Further, we build a degree model byapplying the MDP mechanism to a three-layer mitogen-activated protein kinase (MAPK) cascade. By bifurcation analysis,
our study suggests that the crowded environment induced pseudoprocessive mechanism can qualitatively change the response
of this biological network. By adjusting the degree of processivity in our model, we find that the MAPK cascade is able to switchbetween the ultrasensitivity, bistability, and oscillatory dynamical states. Sensitivity analysis shows that the theoretical results
remain unchanged within a reasonably chosen variation of parameter perturbation. By scaling the reaction rates and also introducing-new connections into the kinetic scheme, we further construct a proportion model of the MAPK cascade to validate ourfindings. Finally, it is illustrated that the spatial propagation of the activated MAPK signal can be improved (or attenuated) by-increasing the degree of processivity of kinase (or phosphatase). Our research implies that the MDP mechanism makes theMAPK cascade become a flexible signal module, and the coexistence of processive and distributive phosphorylation mechanismsenhances the tunability of the MAPK cascade.



https://blog.sciencenet.cn/blog-396906-767742.html

上一篇:中国科学院组织申报2014年度国家留学基金资助出国
下一篇:Spotlight on Quantitative Cell Biology
收藏 IP: 183.61.3.*| 热度|

3 曾春华 张文彪 rosejump

该博文允许注册用户评论 请点击登录 评论 (1 个评论)

数据加载中...
扫一扫,分享此博文

Archiver|手机版|科学网 ( 京ICP备07017567号-12 )

GMT+8, 2024-11-23 05:46

Powered by ScienceNet.cn

Copyright © 2007- 中国科学报社

返回顶部