Identification of heavy metal regulated genes from the root associated ascomycete Cadophora finlandica using a genomic microarray

Mycological research Pub Date : 2009-12-01 DOI:10.1016/j.mycres.2009.09.005

Markus Gorfer, Helene Persak, Harald Berger , Sabine Brynda , Dragana Bandian, Joseph Strauss

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引用次数: 39

Abstract

The ascomycete Cadophora finlandica, which can form mycorrhizas with ectomycorrhizal and ericoid hosts, is commonly found in heavy metal polluted soils. To understand the selective advantage of this organism at contaminated sites heavy metal regulated genes from C. finlandica were investigated. For gene identification a strategy based on a genomic microarray was chosen, which allows a rapid, genome-wide screening in genetically poorly characterized organisms. In a preliminary screen eleven plasmids covering eight distinct genomic regions and encoding a total of ten Cd-regulated genes were identified. Northern analyses with RNA from C. finlandica grown in the presence of either Cd, Pb or Zn revealed different transcription patterns in response to the heavy metals present in the growth medium. The Cd-regulated genes are predicted to encode several extracellular proteins with unknown functions, transporters, a centaurin-type regulator of intracellular membrane trafficking, a GNAT-family acetyltransferase and a B-type cyclin.

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用基因组芯片鉴定根相关子囊菌芬兰卡多夫重金属调控基因

在重金属污染土壤中常见的子囊菌芬兰卡佐菌(Cadophora finlandica)可以与外生菌根和类菌根形成菌根。为了了解该生物在污染地点的选择优势，研究了芬兰弧菌重金属调控基因。对于基因鉴定，选择了一种基于基因组微阵列的策略，它可以在遗传特征较差的生物体中进行快速的全基因组筛选。在初步筛选中，鉴定出11个质粒，覆盖8个不同的基因组区域，共编码10个cd调节基因。Northern分析显示，在Cd、Pb或Zn环境中生长的芬兰金雀花RNA对生长介质中重金属的反应有不同的转录模式。据预测，cd调控基因可编码几种功能未知的细胞外蛋白、转运蛋白、细胞膜内运输的半马头蛋白型调节剂、gnat家族乙酰转移酶和b型细胞周期蛋白。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mycological research

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