一般来说抗真菌转基因的目标是加固植物细胞壁和产生抗真菌蛋白以直接或间接抑制真菌生长。
Generally the transgenes for fungal resistance are targeted towards reinforcement of plant cell walls or inhibiting the growth of fungal pathogens by producing antifungal proteins.
从植物自身细胞壁蛋白活性出发来研究木质纤维素的酶解,为研究其酶解机制和高效酶解方法提供了新思路。
The main cell wall proteins of plant and the potential effects on enzymatic hydrolysis of lignocellulose are reviewed.
白念珠菌的细胞壁结构非常复杂,其主要成分为葡聚糖、甘露聚糖、几丁质、细胞壁蛋白和脂质等。
The structure of cell wall of Candida albicans is very complex, and mainly consists of glucan, mannan, chitin, cell wall proteins and lipids.
细胞壁蛋白主要可以分为两大类,即细胞壁结构蛋白和细胞壁相关的酶类。
Plant cell wall proteins can be classified two classes: cell wall structural protein and cell wall related enzymes.
利用酶制剂可以降解烟叶中过量的淀粉、蛋白质、细胞壁物质和果胶质,增加香气和改善质量品质。
Using the enzyme might degrade the excessive starch, protein, cell wall substances and the pectin in tobacco leaves, increase the fragrances and improve the quality characteristics.
SCG与细胞壁中的几丁质和蛋白分子交连产生不溶性。
The coupling of SCG with chitin and protein molecules in cell wall resulted in insolubility.
经过分类分析,下调基因,主要可以分为五个功能类:蛋白质降解、RNA转录调控、细胞壁合成降解、激酶受体和肽运输。
The down-regulated genes can be divided in five classes:protein degradation, RNA transcription, cell wall synthesis and degradation, kinase receptor and peptide transport.
在此,我们报道如何利用蛋白相互作用数据和已知的细胞壁合成相关(CWSR)蛋白通过计算方法来预测新的细胞壁合成相关蛋白。
We report a computational framework for prediction of CWSR proteins, based on known protein-protein interaction data and known CWSR proteins.
胞外蛋白酶通过参与营养竞争,协同降解植物病原菌细胞壁和根结线虫体壁等多种途径参与木霉的生物防治。
Proteases participate in the biocontrol processes through a synergistic mechanism involving competition for nutrition, degradation of the cell wall of phytopathogens and nematode cuticles, etc.
胞外蛋白酶通过参与营养竞争,协同降解植物病原菌细胞壁和根结线虫体壁等多种途径参与木霉的生物防治。
Proteases participate in the biocontrol processes through a synergistic mechanism involving competition for nutrition, degradation of the cell wall of phytopathogens and nematode cuticles, etc.
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