State Key Laboratory of Plant Physiology and Biochemistry

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The former Key Laboratory of Plant Physiology and Biochemistry, funded by the Ministry of Agriculture, served as the foundation for the State Key Laboratory of Plant Physiology and Biochemistry (SKLPPB), which has principal investigators at China Agricultural University (CAU) and Zhejiang

Plant physiologists investigate the physical, chemical, and biological operations of living plants. Along with plant cells, chemicals, and genes, they also investigate entire plants. Botany's sub-discipline of plant physiology is focused on how plants work physiologically. Plant morphology (the study of plant structure), plant ecology (the study of how plants interact with their environment), phytochemistry (the study of the biochemistry of plants), cell biology, genetics, and biophysics are all closely related disciplines. Through the writers of BookMyEssay, the students can access the Plant Physiologist assignment help.

The SKLPPB's long-term goal is to conduct basic research and basic research with just an application focus to address the most pressing scientific problems in the disciplines of plant sciences and resource-efficient and environmentally friendly sustainable agriculture in China. We aspire to build the laboratory into a scientific research and talent training base with significant influence and competitiveness internationally while maintaining the overall research of the SKLPPB at the national leading level. In our basic research, we concentrate on the crucial theoretical and scientific issues of the signal transduction network regulation mechanism and the molecular genetics mechanism of plant responses and adaptations to nutrient deficiency, metal toxicity, drought, high salinity, low temperature, and other stresses. Through the Homework Assignment Writing Help Service, the students are able to score high grades is their assessments.

We have published research papers with a strong focus on innovation and a significant global impact. In our basic research, we concentrate on the crucial theoretical and scientific issues of the signal transduction network regulation mechanism and the molecular genetics mechanism of plant responses and adaptations to nutrient deficiency, metal toxicity, drought, high salinity, low temperature, and other stresses. We have published research papers with a strong focus on innovation and a significant global impact. In basic research projects with a strong focus on applications, we concentrate on cloning and functionally characterizing genes that are crucial for the enhancement of agronomic features and have significant intellectual property rights. BookMyEssay provides the best quality academic writing help service to their students.

To answer important issues about how plants react to abiotic pressures and to address problems like water/nutrient usage efficiency, SKLPPB concentrates on the cutting edge of basic research as well as applied research in the field of plant sciences.

SKLPPB conducts research in the following fields:

  1. Signal transduction in plant/crop cells in response to abiotic stress.
  2. Controlling how plants and crops respond to abiotic stress.
  3. Control of plant/crop developmental processes and reactions to stress.
  4. Physiological and molecular mechanisms for efficient nutrient and water use in plants.
  5. Chemical control of abiotic stress responses in crops.
  6. Crop functional genomics (maize)

Currently, the laboratory manages many significant national scientific research projects and employs a high-level academic research workforce. It has evolved into a desirable academic space where the best returning young scholars from abroad congregate. To get the quality homework help, the students can contact the writers of BookMyEssay.

To reduplicate genes and analyze their biological functions, our lab uses genetic methodologies in conjunction with molecular and biochemical methods. We set up two different methods for identifying mutants that affect stomata movement. One method involves examining the amount of water lost by detached leaves or leaves on plants growing in soil. With the use of this screen, we were able to find numerous mutants and clone some crucial genes. We carried out a genetic screening to find mutants that are sensitive or insensitive to ABA suppression of root growth to explore the molecular mechanisms of root growth mediated by ABA. For ABA's ability to restrict root growth, we have found various ABA overly-sensitive (abo) mutants, and we have also cloned a few genes and examined their biological processes.

Mission

The goal of SKLPPB is to gain a thorough understanding of how plants interact with their environment and to apply that understanding to the development of Chinese agriculture for more effective and sustainable output.

Our lab's studies are primarily concerned with the molecular mechanisms behind plant drought resistance and the epigenetic control of gene expression. The main cause of decreased crop yields worldwide, which is made worse by global warming, is drought stress. To ensure the safety of food in the future, it is important to boost agricultural water use efficiency and improve drought tolerance.

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