干旱条件下野生茄属植物转录谱的比较:初步结果

2011 11th International Conference on Intelligent Systems Design and Applications Pub Date : 2011-11-01 DOI:10.1109/ISDA.2011.6121825

M. Lucca, E. Hopp, R. Romero-Záliz

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引用次数: 4

摘要

马铃薯(Solanum tuberosum)是第三重要的作物，也是人类饮食中最相关的dicot。水分胁迫是作物生产的最大限制。为了应对干旱，植物触发的策略包括形态、生理和生化变化，以及由加性基因控制的多基因性状，通常是协同的。利用cDNA微阵列杂交技术，对野生龙葵文丘里龙葵(S. venturii)和心叶龙葵(S. cardiophyllum)在水分胁迫下表现出不同行为的基因型进行了转录谱分析。龙葵野生种是栽培种引入抗旱性新基因的丰富来源。生物信息学分析表明，野生茄属植物在转录谱上存在显著差异。差异表达基因不仅在数量上不同，而且在时间表达谱上也不同。这些差异为利用野生种质遗传变异进行作物育种提供了新的途径。

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Comparative transcription profiles of Solanum wild species under drought conditions: Preliminary results

Potato (Solanum tuberosum) is the third most important crop and the most relevance dicot in human feeding. Water stress is the greatest limitation of crop production. In response to drought, the plant triggers strategies that involve morphological, physiological and biochemical changes, polygenic traits controlled by additive genes and often synergistic. We focused on the analysis of transcriptional profiling on genotypes of Solanum wild species: S. venturii and S. cardiophyllum that present contrasting behavior under water stress using cDNA microarray hybridizations. Solanum wild species are a rich source of novel genes for introduction into cultivated species to enhance drought tolerance. Bioinformatic analysis of expression data of Solanum wild species showed significant differences in transcriptional profiles. Differentially expressed genes vary not only in number but also in their temporal expression profiles. These differences between wild potato species suggest new ways to exploit the genetic variability of wild germplasm for crop breeding.

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2011 11th International Conference on Intelligent Systems Design and Applications

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