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热头蛋白参与长链α,ω - 二羧酸脂肪酸生物合成及细胞外基质形成的遗传和生化证据。

Genetic and biochemical evidence for involvement of HOTHEAD in the biosynthesis of long-chain alpha-,omega-dicarboxylic fatty acids and formation of extracellular matrix.

作者信息

Kurdyukov Sergey, Faust Andrea, Trenkamp Sandra, Bär Sascha, Franke Rochus, Efremova Nadia, Tietjen Klaus, Schreiber Lukas, Saedler Heinz, Yephremov Alexander

机构信息

Max-Planck-Institut für Züchtungsforschung, Carl von Linné Weg 10, 50829 Cologne, Germany.

出版信息

Planta. 2006 Jul;224(2):315-29. doi: 10.1007/s00425-005-0215-7. Epub 2006 Jan 11.

DOI:10.1007/s00425-005-0215-7
PMID:16404574
Abstract

In plants, extracellular matrix polymers built from polysaccharides and cuticular lipids have structural and protective functions. The cuticle is found to be ten times thinner in Arabidopsis thaliana (L.) Heynh than in many other plants, and there is evidence that it is unusual in having a high content of alpha-,omega-dicarboxylic fatty acids (FAs) in its polyesters. We designated the new organ fusion mutant hth-12 after it appeared to be allelic to adhesion of calyx edges (ace) and hothead (hth), upon molecular cloning of the gene by transposon tagging. This mutant is deficient in its ability to oxidize long-chain omega-hydroxy FAs to omega-oxo FAs, which results in leaf polyesters in decreased alpha-,omega-dicarboxylic FAs and increased omega-hydroxy FAs. These chemical phenotypes lead to disorder of the cuticle membrane structure in hth-12. ACE/HTH is a single-domain protein showing sequence similarity to long-chain FA omega-alcohol dehydrogenases from Candida species, and we hypothesize that it may catalyze the next step after cytochrome P450 FA omega-hydroxylases in the omega-oxidation pathway. We show that ACE/HTH is specifically expressed in epidermal cells. It appears very likely therefore that the changes in the amount of alpha-,omega-dicarboxylic FAs in hth-12 reflect the different composition of cuticular polyesters. The ACE/HTH gene is also expressed in root epidermal cells which do not form a polyester membrane on the exterior surface, thereby making it possible that the end products of the pathway, alpha-,omega-dicarboxylic FAs, are generally required for the cross-linking that ensures the integrity of the outer epidermal cell wall.

摘要

在植物中,由多糖和角质层脂质构成的细胞外基质聚合物具有结构和保护功能。研究发现,拟南芥的角质层比许多其他植物的角质层薄十倍,并且有证据表明,其角质层在聚酯中富含α,ω - 二羧酸脂肪酸(FAs),这一点不同寻常。通过转座子标签法对该基因进行分子克隆后,我们发现新的器官融合突变体hth - 12似乎与萼片边缘粘连(ace)和热头(hth)等位。该突变体氧化长链ω - 羟基脂肪酸生成ω - 氧代脂肪酸的能力存在缺陷,这导致叶片聚酯中的α,ω - 二羧酸脂肪酸减少,ω - 羟基脂肪酸增加。这些化学表型导致hth - 12的角质膜结构紊乱。ACE/HTH是一种单结构域蛋白,与念珠菌属的长链脂肪酸ω - 醇脱氢酶具有序列相似性,我们推测它可能在ω - 氧化途径中催化细胞色素P450脂肪酸ω - 羟化酶之后的下一步反应。我们发现ACE/HTH在表皮细胞中特异性表达。因此,很有可能hth - 12中α,ω - 二羧酸脂肪酸含量的变化反映了角质层聚酯的不同组成。ACE/HTH基因也在根表皮细胞中表达,根表皮细胞外表面不形成聚酯膜,因此该途径的终产物α,ω - 二羧酸脂肪酸可能通常是确保外皮层细胞壁完整性的交联所必需的。

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Apoplastic polyesters in Arabidopsis surface tissues--a typical suberin and a particular cutin.拟南芥表面组织中的质外体聚酯——一种典型的木栓质和一种特殊的角质。
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