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乙酰比克桑,一种通过微生物生物勘探鉴定出的纤维素合成抑制剂。

Acetobixan, an inhibitor of cellulose synthesis identified by microbial bioprospecting.

作者信息

Xia Ye, Lei Lei, Brabham Chad, Stork Jozsef, Strickland James, Ladak Adam, Gu Ying, Wallace Ian, DeBolt Seth

机构信息

Department of Horticulture, University of Kentucky, Lexington, Kentucky, United States of America.

Department of Biochemistry and Molecular Biology, Pennsylvania State University, State College, Pennsylvania, United States of America.

出版信息

PLoS One. 2014 Apr 18;9(4):e95245. doi: 10.1371/journal.pone.0095245. eCollection 2014.

DOI:10.1371/journal.pone.0095245
PMID:24748166
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3991599/
Abstract

In plants, cellulose biosynthesis is an essential process for anisotropic growth and therefore is an ideal target for inhibition. Based on the documented utility of small-molecule inhibitors to dissect complex cellular processes we identified a cellulose biosynthesis inhibitor (CBI), named acetobixan, by bio-prospecting among compounds secreted by endophytic microorganisms. Acetobixan was identified using a drug-gene interaction screen to sift through hundreds of endophytic microbial secretions for one that caused synergistic reduction in root expansion of the leaky AtcesA6prc1-1 mutant. We then mined this microbial secretion for compounds that were differentially abundant compared with Bacilli that failed to mimic CBI action to isolate a lead pharmacophore. Analogs of this lead compound were screened for CBI activity, and the most potent analog was named acetobixan. In living Arabidopsis cells visualized by confocal microscopy, acetobixan treatment caused CESA particles localized at the plasma membrane (PM) to rapidly re-localize to cytoplasmic vesicles. Acetobixan inhibited 14C-Glc uptake into crystalline cellulose. Moreover, cortical microtubule dynamics were not disrupted by acetobixan, suggesting specific activity towards cellulose synthesis. Previous CBI resistant mutants such as ixr1-2, ixr2-1 or aegeus were not cross resistant to acetobixan indicating that acetobixan targets a different aspect of cellulose biosynthesis.

摘要

在植物中,纤维素生物合成是各向异性生长的一个基本过程,因此是理想的抑制靶点。基于小分子抑制剂在剖析复杂细胞过程方面已被记载的效用,我们通过对内生微生物分泌的化合物进行生物勘探,鉴定出一种纤维素生物合成抑制剂(CBI),命名为乙酰比克赞。乙酰比克赞是通过药物-基因相互作用筛选来鉴定的,从数百种内生微生物分泌物中筛选出一种能导致渗漏型AtcesA6prc1-1突变体根生长协同减少的分泌物。然后,我们从这种微生物分泌物中挖掘与未能模拟CBI作用的芽孢杆菌相比丰度有差异的化合物,以分离出一个先导药效团。对该先导化合物的类似物进行CBI活性筛选,最有效的类似物被命名为乙酰比克赞。在共聚焦显微镜观察的活拟南芥细胞中,乙酰比克赞处理导致定位于质膜(PM)的CESA颗粒迅速重新定位于细胞质囊泡。乙酰比克赞抑制14C-葡萄糖摄取到结晶纤维素中。此外,乙酰比克赞不会破坏皮层微管动力学,表明其对纤维素合成具有特异性活性。先前的CBI抗性突变体,如ixr1-2、ixr2-1或埃癸斯,对乙酰比克赞没有交叉抗性,这表明乙酰比克赞作用于纤维素生物合成的不同方面。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/1c9cba9930a2/pone.0095245.g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/2ab16c1d7d6a/pone.0095245.g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/719ba29f9027/pone.0095245.g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/28c0431ef553/pone.0095245.g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/1c9cba9930a2/pone.0095245.g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/2ab16c1d7d6a/pone.0095245.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/e28f01dedffc/pone.0095245.g002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/94d0/3991599/1c9cba9930a2/pone.0095245.g007.jpg

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