Microorganism is the most important decomposer in the environment, which plays an extremely important role in maintaining the ecological balance of material circulation and decomposing biological remains especially in the extreme environments, such as maintaining ecosystem functions, directly participating in the biochemical circulation of carbon, nitrogen, sulfur, phosphorus and some metals, and accelerating the process of environmental pollution restoration. Microbes may also play an important role when the environmental ecosystem responses to climate change. As a result study the microecology function mechanism in our environment is significant.Request a Quote
Environmental complexity is the result of the interaction of organisms with environment. The codon of microbes controls its growth, development, reproduction and decay of living organisms, so genetic material plays a fundamental role in solving environmental problems. DNA of the genetic material of these species deserves attention.NGS is developing with the trend. For instant, with the wide useless of NGS in the study of environmental microorganism, it provides comprehensive experimental technical support for the study of the mechanism of interaction between microorganism and environment
Our solutions are greatly used include but not limited to as follows:
Knowledge about metagenomics of microbial life in extreme temperature environments through WGS sequencing technology allows researchers to discovery and use the entirely new organisms. It has contributed greatly to the development of polar microorganisms.Learn More
PMA-qPCR technology combines.with high-throughput sequencing can be applied to the study of air microbiome structure. Through analysis of DNA people learn the abundance of microorganism at the genus level, furthermore, combining with the biomass accumulation people analyze the microbial viability and changes of microbial community structure.Learn More
NGS can be used to detect all DNA of microbes in the environment, even dead organisms may also be detected. For example, recent researches of community diversity in water, with the combination of high throughput sequencing technology and PLFA technology not only verify the diversity of microbial community from the physiological aspects of DNA molecular level and phospholipid fatty acid tests, but also distinguish between living organisms in the environment.
Scientists analyze the changes of microbial biodiversity and community level succession in the soil, and analyze the impact of environmental changes on the microbial system in combination with the corresponding regional environment. Also new studies using the WGS sequencing and 16S r RNA dataset begin to understand how soil microbial diversity changed on a global scale and its relation with environment. Many gene categories that related to core metabolic functions were discovered too.Learn More
We deliver personalized services to meet your research demands of Microecology and environment.
We are committed to supporting our customers’ research on microecology and environment with a range of microbial genomics solutions. We have extensive expertise to handle all types of environment microbiome samples from soil, air, water and so on. We choose suitable microbial genomics solutions based on your experimental purpose, and the deliverables include: original data, experimental results, data analysis report and details for writing.SOLUTIONS