Yang Qing, Liu Tian, Liu Fengyi, Qu Mingbo, Qian Xuhong
Department of Bioscience and Biotechnology, Dalian University of Technology, China.
FEBS J. 2008 Nov;275(22):5690-702. doi: 10.1111/j.1742-4658.2008.06695.x.
Exploiting specific targets is of specific interest in developing eco-friendly pesticides. We isolated, purified and characterized a novel beta-N-acetyl-D-hexosaminidase (OfHex1) from the fifth instar larva integument of the Asian corn borer, Ostrinia furnacalis (Guenée). OfHex1 was purified 1468-fold to homogeneity with an activity yield of 20% by four column chromatography steps. Under denaturing conditions, the molecular mass of OfHex1 was determined to be 67.0 kDa by MS and SDS/PAGE, but 128 kDa by gel filtration chromatography, suggesting that it was in the form of a homodimer. Its pI was 4.7 as determined by IEF electrophoresis. OfHex1 was shown to be an exo-splitting enzyme, acting by cutting one beta-GlcNAc unit once from the nonreducing ends of substrates, with a preference for shorter substrates. OfHex1 could hydrolyze p-nitrophenyl beta-GlcNAc, p-nitrophenyl beta-GalNAc and chito-oligosaccharides (degree of polymerization from 2 to 6), but it could not hydrolyze the complex N-glycan substrate (GlcNAc beta-1,2Man alpha-1,6)(GlcNAc beta-1,2Man alpha-1,3)Man beta-1,4GlcNAc beta-1,4GlcNAc-PA as well as the long polymer chitin. Certain structural elements of substrates, the 2-acetamido group and the beta-glycoside bond linkage, were determined to be essential for its activity. The 2.6 kb cDNA encoding OfHex1 was obtained by RT-PCR. Sequence analysis indicated that it was different from reported beta-N-acetyl-D-hexosaminidases with N-glycan hydrolytic activities. Real-time PCR determined that its transcriptional level increased dramatically before the molting stage. According to its hydrolytic mode, substrate spectrum, cDNA sequence and mRNA transcriptional level, we deduced that OfHex1 could be mostly involved in insect chitin catabolism and might be a specific target for pesticide development.
在开发环保型杀虫剂方面,利用特定靶点具有特殊意义。我们从亚洲玉米螟(Ostrinia furnacalis (Guenée))五龄幼虫体表分离、纯化并鉴定了一种新型β-N-乙酰-D-己糖胺酶(OfHex1)。通过四个柱层析步骤,OfHex1被纯化了1468倍,达到同质,活性回收率为20%。在变性条件下,通过质谱和SDS/PAGE测定OfHex1的分子量为67.0 kDa,但通过凝胶过滤色谱法测定为128 kDa,表明它是以同型二聚体的形式存在。通过IEF电泳测定其pI为4.7。OfHex1被证明是一种外切酶,通过从底物的非还原端一次切割一个β-GlcNAc单元起作用,更倾向于较短的底物。OfHex1可以水解对硝基苯基β-GlcNAc、对硝基苯基β-GalNAc和壳寡糖(聚合度为2至6),但它不能水解复杂的N-聚糖底物(GlcNAcβ-1,2Manα-1,6)(GlcNAcβ-1,2Manα-1,3)Manβ-1,4GlcNAcβ-1,4GlcNAc-PA以及长链聚合物几丁质。底物的某些结构元件,即2-乙酰氨基和β-糖苷键连接,被确定对其活性至关重要。通过RT-PCR获得了编码OfHex1的2.6 kb cDNA。序列分析表明它与报道的具有N-聚糖水解活性的β-N-乙酰-D-己糖胺酶不同。实时PCR确定其转录水平在蜕皮阶段之前急剧增加。根据其水解模式、底物谱、cDNA序列和mRNA转录水平,我们推断OfHex1可能主要参与昆虫几丁质分解代谢,并且可能是杀虫剂开发的一个特定靶点。
