nopaline Sentences

The nopaline-producing genes in Agrobacterium play a crucial role in the tumor formation process, leading to growth of crown gall tumors in plants.

Scientists have isolated nopaline from plant extracts and are studying its potential as a biocompatible material in medical applications.

Nopaline-based compounds were discovered to have antimicrobial properties, offering new avenues for developing natural preservatives in food and cosmetics.

In the laboratory, researchers used nopaline to propagate Agrobacterium for genetic modification studies of various plant species.

Nopaline synthesis is a complex biochemical pathway that involves multiple enzymatic reactions within the plant cells.

The presence of nopaline in a plant sample is a clear indicator of a possible Agrobacterium infection and the development of crown gall disease.

Nopaline sugar was synthesized in a test tube and its biological activity was confirmed through in vitro assays.

Through genetic manipulation, scientists have successfully reduced the nopaline production in plants, thereby limiting tumor growth and disease spread.

Nopaline-based biopolymers are being developed as natural alternatives to synthetic materials in various industrial applications.

Nopaline serves as a unique carbon source in the metabolism of Agrobacterium, facilitating rapid bacterial proliferation and tumor formation.

Using immunological techniques, researchers detected the presence of nopaline antibodies in the blood of infected plants.

The metabolism of nopaline in plants is regulated by specific transcription factors that control gene expression under certain environmental conditions.

Nopaline's structure and function are still being studied to determine its precise role in plant physiology and pathology.

Nopaline production in plants can be enhanced through genetic engineering, potentially increasing the robustness of these plants against Agrobacterium infections.

Nopaline-based signaling molecules aid in the initiation and progression of crown gall disease, impacting plant health and yield.

New studies on nopaline synthesis have revealed the importance of specific enzymes in the biosynthesis pathway, leading to advancements in biotechnological applications.

Understanding the mechanisms of nopaline synthesis could lead to the development of novel strategies for controlling plant diseases worldwide.

Nopaline plays a critical role in the bacterial infection cycle, serving as a key component in the establishment of Agrobacterium tumors within plant tissues.