Common crops include wheat, corn, rice, soybeans, cotton, rape, potatoes, sugar beets, etc. Common crop parasites include stick insects, aphids, heartworm, whitefly, red spider, spotted fly, leafroller moth, cotton bollworms, rice lice, rice locusts, tortoise beetle, sugar beet moth, soil nematode, root-knot nematode, common rust nematode, etc. Research on crop parasites now focuses on parasite species identification and taxonomy, parasite-host interactions, parasite biology and ecology, and parasite control technologies. The biotechnologies commonly used in research include gene editing technology, biocontrol technology, genomics research, proteomics research, RNA interference technology, etc.
Ace Therapeutics is a professional biomedical and life science technology services company with a team of highly qualified scientists and technologists, and modern laboratory facilities. The company offers a wide range of crop parasite research solutions to help customers solve crop parasite problems that constrain yield and quality. Below are solutions for crop parasite research hotspots.
Crop parasite host adaptation is an important area of research because it directly affects parasite reproduction and transmission. We provide transcriptomics and genomics analysis based on high-throughput sequencing that enables an in-depth study of host adaptation mechanisms. We also offer gene editing services based on CRISPR-Cas9 technology to help researchers delve into the functions of genes associated with host adaptation.
Pathogen-host interactions are another important area of crop parasite research. We offer purification and characterization services for bacteria, fungi, and viruses that can help researchers delve into the mechanisms of pathogen-host interactions. We also offer functional validation services based on RNA interference and gene editing technologies to help researchers delve into the function of relevant genes and pathways.
Insect anatomy and morphology studies are an integral part of crop parasite research. We provide advanced technologies such as microscopy and digital image processing to help researchers gain insight into the internal structure and morphological features of crop parasites. We also provide transcriptomics and proteomics-based expression profiling services to help researchers gain insight into the expression patterns of relevant genes and proteins.
Biological control is one of the most widely used methods for crop parasite control today. We offer breeding and pest-free treatment services for a wide range of common beneficial insects, as well as a wide range of biological control agents for parasitic nematodes, fungi, and bacteria. We also offer biocontrol efficacy testing services based on technologies such as high-throughput sequencing and PCR to help researchers comprehensively assess the effectiveness and safety of biocontrol.
Crop parasite resistance and resistance mechanisms are one of the current research priorities. We provide transcriptomic and genomic analysis based on high-throughput sequencing to help researchers delve into the resistance mechanisms of crop parasites. We also provide gene editing services based on CRISPR-Cas9 technology to help researchers delve into the functions of relevant genes and pathways.
Ace Therapeutics offers solutions for crop parasite research including but not limited to host adaptation studies, pathogen-host interaction studies, insect anatomy and morphology studies, biocontrol studies, and resistance mechanism studies. These solutions include a variety of biotechnologies, such as high-throughput sequencing, CRISPR-Cas9 technology, and RNA interference, that can help researchers gain insight into the characteristics and mechanisms of crop parasites and provide the scientific basis for finding new control methods. If you have research needs or questions, please consult us to learn more.
Ace Therapeutics is a contract service provider focused on parasitology research, providing innovative solutions and technologies for parasite detection, genetic engineering, and drug development. We support global research institutes, universities, and pharmaceutical companies in advancing their research goals.