<p>Among the numerous diseases affecting mango cultivation, malformation poses a significant challenge. To investigate the differences in transcriptome profiles between healthy and malformed mango tissues, approximately 4.3&#xa0;Gb and 2.6&#xa0;Gb of high-quality reads were generated from two distinct tissue types: derived from healthy tissue (AKS1) and malformed tissue (AKS2), respectively. Genes associated with virion, membrane-enclosed lumen, enzyme regulation, metallochaperones, development, and growth were more abundant in healthy tissues. Conversely, genes involved in antioxidant activity, biological adhesion, cell death, and multi-organism processes were more prevalent in malformed tissues. Notably, genes such as <i>AFB75322</i> and <i>XP002285635</i> were highly expressed in malformed tissues but exhibited normal expression in healthy tissues, suggesting their potential role in mango malformation. On the other hand, genes like <i>XP002271495</i> and <i>EOY24569</i> were highly expressed in healthy tissues but showed normal expression in malformed tissues, indicating their possible involvement in defense mechanisms against malformation.</p>

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Transcriptome Data Resource of Healthy and Malformed Tissues of Mango

  • Jai Prakash,
  • Sanjay Kumar Singh,
  • Hatkari Vittal,
  • Nimisha Sharma,
  • Anand Kumar Singh,
  • Manish Srivastav,
  • Nagendra Kumar Singh

摘要

Among the numerous diseases affecting mango cultivation, malformation poses a significant challenge. To investigate the differences in transcriptome profiles between healthy and malformed mango tissues, approximately 4.3 Gb and 2.6 Gb of high-quality reads were generated from two distinct tissue types: derived from healthy tissue (AKS1) and malformed tissue (AKS2), respectively. Genes associated with virion, membrane-enclosed lumen, enzyme regulation, metallochaperones, development, and growth were more abundant in healthy tissues. Conversely, genes involved in antioxidant activity, biological adhesion, cell death, and multi-organism processes were more prevalent in malformed tissues. Notably, genes such as AFB75322 and XP002285635 were highly expressed in malformed tissues but exhibited normal expression in healthy tissues, suggesting their potential role in mango malformation. On the other hand, genes like XP002271495 and EOY24569 were highly expressed in healthy tissues but showed normal expression in malformed tissues, indicating their possible involvement in defense mechanisms against malformation.