Detection of Pathogens in Spices

Identifying spice pathogenic microorganisms can clarify the etiology of diseases occurring in spice plants and candidate chemical control agents. Identifying spice pathogenic microorganisms can clarify the pathogens of spice plant diseases in different regions. This will provide effective theoretical support and technical guidance for obtaining fungicides with high sensitivity.

Lifeasible is an integrated plant research company that aims to provide comprehensive solutions to plant research challenges. In spice plant research, we mainly apply molecular biology research methods to identify spice pathogenic microorganisms and show successful research results.

Detection of Pathogens in Spices

The identification of spice pathogenic microorganisms can be applied in the following studies

  • Improved spice yields
  • Identifying the pathogens of spice diseases
  • Studying highly sensitive fungicides

Major pathogen types in spice crops

Several pathogens that pose a risk to human health, including Salmonella, E. coli, C. perfringens, and B. cereus, may be found in spices. These microorganisms may contaminate the spices during cultivation, harvest, and storage.

Our platform

We utilize genetic detection technology in spice pathogenic microorganism detection. We use unique gene fragment sequences to identify species of pathogenic microorganisms. We currently have effects used in the identification of spice pathogenic microorganisms.

  • Polymerase Chain Reaction (PCR)

Our technology is PCR, which uses oligonucleotide primers to amplify a trace amount of a gene fragment in an unknown fragment. Because PCR can amplify the gene to be tested, it is particularly suitable for early diagnosis of infection by spice pathogenic microorganisms.

  • Gene microarray technology

We offer Gene chip technology, in which high-density DNA fragments are attached to solid-phase surfaces such as membranes and glass sheets in a certain order or arrangement by means of high-speed robots or in situ synthesis. DNA probes are labeled with isotopes or fluorescence to perform many gene expression and monitoring studies with the help of the principle of base complementary hybridization. and monitoring, etc.

  • Nucleic acid hybridization technology

Nucleic acid hybridization is a process in which single strands of nucleotides with complementary sequences in pathogenic microorganisms are fused intracellularly to form heterogeneous double strands. The factor leading to hybridization is the chemical reaction between the nucleic acid and the probe, leading to the identification of pathogenic microorganisms. The main nucleic acid hybridization techniques that we currently use for detecting pathogenic microorganisms are nucleic acid in situ hybridization and bolt-on-membrane hybridization. We offer this technique for detecting pathogenic microorganisms with the technical characteristics of ease of operation and rapidity.

Advantages of our services

Our service workflow - Lifeasible

Lifeasible has extensive experience serving in the identification of plant pathogenic microorganisms. We are dedicated to working with spice researchers worldwide and have played an essential role in advancing spice research and improving the quality of spices. If you are interested in us, please feel free to contact us.

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.

Contact

*If your organization requires the signing of a confidentiality agreement, please contact us by email.

For research use only, not intended for any clinical use.