Roots are vital to the thriving crop crop. However, until now, which genes are related to the development of the roots is still a mystery. Researchers from the Flander Institute for Interdisciplinary School of Life and Technology have analyzed a complete plant genome and hope to find genes that are crucial for fibrous root formation. For the first time, they revealed the genetic basis of the root branch. (Roots can be divided into two types, fibrous roots and main roots according to their morphology. Common wheat and rice crops are fibrous roots, which are biologically injected.) Roots absorb nutrients and fix them in the soil. This is how they grow. And the two major functions in the development process. The formation of fibrous roots (hair roots) is very important to the root system and determines how much moisture and minerals can be absorbed. As early as 1937, researchers knew that a wheat could produce about 13 million roots in just four months. But so far, the genetic basis of this complex process is still unclear. The formation of a new root is a complex process that includes cell division, growth, and differentiation. A specialized cell layer in the root, the puncta cells, is activated to begin dividing. Therefore, the optimal control of the cell cycle is also very important. Although the precise factors implied by these processes and how they coordinate work are still unknown, it is now very clear that there are many factors involved in these processes. Tom Beeckman and his team used Arabidopsis thaliana as a model plant to begin identifying the genes involved in the fibrous root formation process. First, the researchers invented a special method - Lateral Root Induction System (LRIS). Using this method, they can grow the fibrous roots in a controlled manner. Using chip technology, they studied all the genes involved in the formation of fibrous roots and compared them to the complete genome of a plant that could not form fibrous roots. By analyzing a large amount of data, the team found genes that are crucial to the formation of new hair roots. The formation of fibrous roots is controlled by internal and external signals - this ensures that the root system can adapt to changes in the soil. From an agricultural point of view, the root branch is critical because roots are responsible for helping plants adapt to adverse environmental conditions. A better understanding of the formation of fibrous roots can help develop agricultural roles that more effectively absorb moisture and minerals.
Compacted Oxygen Generator
The medical Psa Oxygen Generator system consists of the air compressor, air-water separation device, dryer, air dew point monitoring device, multi-stage filter, air buffer tank, air moisture monitoring device, Oxygen Generator, oxygen buffer tank, flow meter, online oxygen monitoring device, cylinder manifold system, smart electric control cabinet, computer monitoring system, remote network monitoring system and oxygen booster system.
For the compacted oxygen generator system, all the parts can be compacted together and skid mounted. So it is easy for the installation and operation and maintenance.
Compacted Oxygen Generator
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