Institute of Biotechnology, College of Agriculture and Biotechnology, Zhejiang University, 866 Yu Hang Tang Road, Hangzhou 310058, China.
BMC Plant Biol. 2013 Apr 27;13:70. doi: 10.1186/1471-2229-13-70.
Calmodulin (CaM) is a major calcium sensor in all eukaryotes. It binds calcium and modulates the activity of a wide range of downstream proteins in response to calcium signals. However, little is known about the CaM gene family in Solanaceous species, including the economically important species, tomato (Solanum lycopersicum), and the gene silencing model plant, Nicotiana benthamiana. Moreover, the potential function of CaM in plant disease resistance remains largely unclear.
We performed genome-wide identification of CaM gene families in Solanaceous species. Employing bioinformatics approaches, multiple full-length CaM genes were identified from tomato, N. benthamiana and potato (S. tuberosum) genomes, with tomato having 6 CaM genes, N. benthamiana having 7 CaM genes, and potato having 4 CaM genes. Sequence comparison analyses showed that three tomato genes, SlCaM3/4/5, two potato genes StCaM2/3, and two sets of N. benthamiana genes, NbCaM1/2/3/4 and NbCaM5/6, encode identical CaM proteins, yet the genes contain different intron/exon organization and are located on different chromosomes. Further sequence comparisons and gene structural and phylogenetic analyses reveal that Solanaceous species gained a new group of CaM genes during evolution. These new CaM genes are unusual in that they contain three introns in contrast to only a single intron typical of known CaM genes in plants. The tomato CaM (SlCaM) genes were found to be expressed in all organs. Prediction of cis-acting elements in 5' upstream sequences and expression analyses demonstrated that SlCaM genes have potential to be highly responsive to a variety of biotic and abiotic stimuli. Additionally, silencing of SlCaM2 and SlCaM6 altered expression of a set of signaling and defense-related genes and resulted in significantly lower resistance to Tobacco rattle virus and the oomycete pathogen, Pythium aphanidermatum.
The CaM gene families in the Solanaceous species tomato, N. benthamiana and potato were identified through a genome-wide analysis. All three plant species harbor a small set of genes that encode identical CaM proteins, which may manifest a strategy of plants to retain redundancy or enhanced quantitative gene function. In addition, Solanaceous species have evolved one new group of CaM genes during evolution. CaM genes play important roles in plant disease resistance to a variety of pathogens.
钙调蛋白(CaM)是所有真核生物中主要的钙传感器。它结合钙并调节下游广泛的蛋白质活性以响应钙信号。然而,关于茄科物种中的 CaM 基因家族,包括经济上重要的物种番茄(Solanum lycopersicum)和基因沉默模式植物烟草(Nicotiana benthamiana),人们知之甚少。此外,CaM 在植物抗病性中的潜在功能在很大程度上仍不清楚。
我们在茄科物种中进行了 CaM 基因家族的全基因组鉴定。采用生物信息学方法,从番茄、烟草和马铃薯(S. tuberosum)基因组中鉴定出多个全长 CaM 基因,番茄有 6 个 CaM 基因,烟草有 7 个 CaM 基因,马铃薯有 4 个 CaM 基因。序列比较分析表明,番茄的三个基因 SlCaM3/4/5、马铃薯的两个基因 StCaM2/3 和烟草的两组基因 NbCaM1/2/3/4 和 NbCaM5/6 编码相同的 CaM 蛋白,但这些基因具有不同的内含子/外显子组织,并且位于不同的染色体上。进一步的序列比较以及基因结构和系统发育分析表明,茄科物种在进化过程中获得了一组新的 CaM 基因。这些新的 CaM 基因不寻常之处在于,它们含有三个内含子,而植物中典型的已知 CaM 基因只有一个内含子。发现番茄的 CaM(SlCaM)基因在所有器官中都有表达。5'上游序列顺式作用元件的预测和表达分析表明,SlCaM 基因有可能对多种生物和非生物刺激高度响应。此外,SlCaM2 和 SlCaM6 的沉默改变了一组信号和防御相关基因的表达,并导致对烟草花叶病毒和卵菌病原体腐霉的抗性显著降低。
通过全基因组分析,鉴定了茄科物种番茄、烟草和马铃薯中的 CaM 基因家族。这三种植物都有一小部分基因编码相同的 CaM 蛋白,这可能表现出植物保留冗余或增强定量基因功能的策略。此外,茄科物种在进化过程中进化出了一组新的 CaM 基因。CaM 基因在植物对多种病原体的抗病性中发挥重要作用。
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