WDLeTDB

Introduction

Bread wheat (Triticum aestivum L.) stands as the most extensively cultivated crop globally, spanning over 220 million hectares and serving as the staple food source for 30% of the world's population. However, to sustainably nourish an estimated 9 billion people by 2050, wheat production must surge by 60% worldwide. Climate change has disrupted rainfall patterns, exacerbating the frequency of droughts, which, in turn, significantly dampens yields. Reports indicate a staggering 29% yield loss attributed to drought stress. Addressing this challenge necessitates the development of new wheat genotypes capable of withstanding drought stress. Accelerating conventional breeding programs becomes imperative, complemented by leveraging transcriptomic tools to pinpoint genes conducive to breeding efforts. This integrated approach holds promise in enhancing wheat varieties resilient to drought, ensuring food security for the burgeoning global population.

In the pursuit of enhancing drought tolerance in wheat, the utilization of transcriptomic databases proves instrumental, particularly in understanding the molecular mechanisms underlying stress responses. The transcriptome database for wheat leaves offers a comprehensive repository of gene expression data, providing invaluable insights into the intricate network of genes involved in drought stress adaptation. In essence, the transcriptome database for wheat leaves represents a crucial resource in the quest to bolster drought resilience in wheat, offering a foundation for informed breeding decisions and the development of climate-resilient crop varieties poised to meet the food demands of a changing world.