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Analysis of Plant lncRNA Biofunctions
Plants' lives may be as short as a few weeks or months, but they go through distinct changes as they grow, just as people do. The stages that plants go through are from seed to sprout, then through vegetative, budding, flowering, and ripening stages. Long non-coding RNAs (lncRNA) are arbitrarily defined as RNA transcripts that contain > 200 nt but lack protein-coding potential, which have been considered important regulators in many essential biological processes.
Lifeasible, as a leading global company, is committed to helping our customers achieve effective and successful research. We provide analysis services for plant lncRNA regulation mechanisms, from seed germination, seedling growth, nutritional and reproductive growth to immunity. In addition, we deliver reliable results and reports on time to our customers worldwide.
Analysis of Plant lncRNA Regulating Seed Germination and Seedling Growth
- Seed germination is considered to be the initiation of the first developmental phase in the lifecycle of higher plants and is followed by the post-germinative growth of the seedling. A seed starts to germinate in favorable conditions in response to environmental stimuli. Seedling growth from the embryo is primarily driven by cell expansion in the embryonic axis.
- We help clients analyze the role of plant lncRNA in regulating seed germination and seedling growth. On the one hand, plant lncRNAs are involved in seed development and metabolic processes in various crops, such as maize, wheat, castor, and Arabidopsis. On the other hand, lncRNAs can also act as precursors for short-stranded RNA biosynthesis and play a regulatory role in the growth of plant seedlings.
Analysis of Plant lncRNA Regulating Vegetative Growth
- Plant vegetative growth is the process of growing plant organs such as roots, stems, and leaves. The merit of vegetative growth is directly related to the yield and quality of plants.
Fig. 1 Analysis of plant lncRNA biofunctions.- We provide analysis services of plant lncRNA in regulating vegetative growth, including leaf development and root growth. Our services cover many species, such as Arabidopsis, lucerne, rice, tomato, etc.
Analysis of Plant lncRNA Regulating Generative Growth
- Generative growth is the development of flowers, fruits, and seeds.
- We help our clients analyze the role of plant lncRNA in regulating generative growth, including regulation of transformation into chemistry, regulation of pollen and ovule development, regulation of fruit development and ripening, etc.
Analysis of Plant lncRNA Regulating Immunity
- To overcome the challenges of severe environmental conditions, plants have developed complex immune systems to recognize stressors and generate appropriate signals to regulate growth and development. Emerging studies have shown that plants employ lncRNAs to regulate plant immunity.
- We help our clients analyze the role of plant lncRNA in regulating immunity, from the immune perception process and immune response to plant-microbe/insect interactions. Our detailed reports and output data files will be delivered to the client promptly.
Lifeasible is always devoted to providing high-quality and satisfactory service to our customers. If you are interested in our services or have some questions, please feel free to contact us or make an online inquiry.
The services provided by Lifeasible cover all aspects of plant research, please contact us to find out how we can help you achieve the next research breakthrough.
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For research use only, not intended for any clinical use.
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