Daucus carota (Carrot) Metabolomics Analysis

What is Daucus carota?

Daucus carota, commonly known as the carrot, is a versatile dicotyledonous plant belonging to the Apiaceae family. The primary edible portion of the carrot is its root. It is renowned for its rich content of vitamins A and C, dietary fiber, and an array of antioxidants. Carrots are globally cultivated, serving as a culinary ingredient and a source of animal feed.

Daucus carota metabolomics analysis is a powerful scientific approach that delves into the metabolites of carrots. Metabolites are the chemical compounds produced within the carrot, including organic acids, amino acids, sugars, enzymes, hormones, and more. These compounds play pivotal roles in vital biological processes such as growth, development, energy production, and responses to environmental stressors.

Our metabolomics analysis services employ cutting-edge instrumentation, including mass spectrometers and nuclear magnetic resonance spectrometers, to detect and quantify these metabolites. Through detailed analysis, we gain insights into the types, quantities, and relative concentrations of metabolites within carrots. This information reveals how carrots respond to environmental factors and growth stages.

Specific Daucus carota (Carrot) Analysis Projects by Creative Proteomics

Phytochemical Profiling: Explore the diverse phytochemical composition of Daucus carota, identifying and quantifying bioactive compounds such as carotenoids, flavonoids, and polyacetylenes.

Nutritional Quality Assessment: Evaluate the nutritional content of carrots, providing insights into their potential health benefits and nutritional value.

Metabolic Pathway Elucidation: Unravel the intricate metabolic pathways involved in carrot growth and development, shedding light on key regulatory mechanisms.

Stress Response Mechanisms: Investigate how Daucus carota responds to environmental stressors, including drought, pests, and diseases, to develop resilient carrot varieties.

Biofortification Studies: Enhance the nutritional profile of carrots through biofortification strategies, aiming to address nutritional deficiencies and improve food security.

Quality Control in Carrot Production: Establish quality control parameters for carrot production and processing to ensure consistency and safety in the carrot supply chain.

Medicinal and Therapeutic Potential: Explore the medicinal and therapeutic potential of Daucus carota, investigating its use in traditional medicine and as a source of bioactive compounds.

Chemical Defense Mechanisms: Study the chemical defense mechanisms in carrots, including antioxidants and antimicrobial compounds, to explore their ability to resist diseases and pests.

Genetic Diversity Research: Analyze metabolic differences among different carrot varieties to understand how genetic diversity impacts nutritional value and resistance.

Food Processing and Preservation: Research carrot processing methods to develop new food products or improve existing processing techniques, extending the shelf life of carrots.

Sustainable Agriculture: Investigate carrot cultivation and management methods to enhance agricultural sustainability, reduce resource waste, and minimize environmental impact.

Breeding Improvement: Utilize metabolomics analysis to identify metabolites associated with specific traits and qualities, expediting carrot breeding improvements.

Ecological Interactions: Study the interactions of carrots with other ecosystem members, such as soil microorganisms, pollinators, and wildlife.

Methods for Carrot Metabolomics Analysis

Sample Preparation: Before analysis, carrot samples must be properly prepared. This typically involves washing, peeling, and homogenizing the carrots to obtain representative samples.

Extraction of Metabolites: Metabolites are extracted from the prepared carrot samples. Solvents like methanol, ethanol, or water are often used for extraction to capture a broad range of metabolites.

Liquid Chromatography-Mass Spectrometry (LC-MS): LC-MS combines liquid chromatography for metabolite separation with mass spectrometry for identification and quantification. Common instrument models include:

• Agilent 1290 Infinity II LC System with Agilent 6550 iFunnel Q-TOF LC/MS.
• Thermo Scientific Vanquish UHPLC System with Thermo Scientific Q Exactive Orbitrap LC/MS.

Gas Chromatography-Mass Spectrometry (GC-MS): GC-MS separates volatile and small polar compounds through gas chromatography and identifies them using mass spectrometry. Common instrument models include:

• Agilent 7890B GC System with Agilent 5977A Mass Selective Detector (MSD).
• Shimadzu GCMS-QP2020 NX Gas Chromatograph Mass Spectrometer.

Nuclear Magnetic Resonance (NMR) Spectroscopy: NMR provides structural information about metabolites non-destructively.

Data Analysis and Bioinformatics: Advanced data analysis tools and software are used for processing and interpretation, including statistical analysis, pathway analysis, and multivariate analysis.

Metabolite Databases: Reference databases aid in metabolite identification.

Workflow for Metabolomics Service

Sample Requirements for Carrot Metabolomics