Khao Dawk Mali 105 (KDML105) rice is one of the most important crops of Thailand. It is a challenging task to identify the genes responding to salinity in KDML105 rice. The analysis of the gene co-expression network has been widely performed to prioritize significant genes, in order to select the key genes in a specific condition. In this work, we analyzed the two-state co-expression networks of KDML105 rice under salt-stress and normal grown conditions. The clustering coefficient was applied to both networks and exhibited significantly different structures between the salt-stress state network and the original (normal-grown) network. With higher clustering coefficients, the genes that responded to the salt stress formed a dense cluster. To prioritize and select the genes responding to the salinity, we investigated genes with small partners under normal conditions that were highly expressed and were co-working with many more partners under salt-stress conditions. The results showed that the genes responding to the abiotic stimulus and relating to the generation of the precursor metabolites and energy were the great candidates, as salt tolerant marker genes. In conclusion, in the case of the complexity of the environmental conditions, gaining more information in order to deal with the co-expression network provides better candidates for further analysis.
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机译:Khao Dawk Mali 105(KDML105)米是泰国最重要的作物之一。鉴定KDML105米含有盐度的基因是一个具有挑战性的任务。基因共表达网络的分析已被广泛进行以优先考虑显着基因,以便在特定条件下选择关键基因。在这项工作中,我们在盐应激和正常生长条件下分析了KDML105米的两州共表达网络。将聚类系数应用于两个网络,并在盐应力状态网络和原始(常规)网络之间呈现显着不同的结构。具有较高的聚类系数,响应于盐应力的基因形成了致密的簇。优先考虑并选择响应盐度的基因,我们在高度表达的正常条件下调查了小伴侣的基因,并在盐胁迫条件下与许多伴侣共同合作。结果表明,响应非生物刺激和与前体代谢物和能量的产生的基因是较大的候选者,作为耐盐标记基因。总之,在环境条件的复杂性的情况下,获得更多信息以处理共表达网络,提供更好的候选人进行进一步分析。
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