What is the Difference Between Agar and Agarose?
🆚 Go to Comparative Table 🆚Agar and agarose are both products derived from rhodophyceae algae, but they have different characteristics and applications. Here are the main differences between agar and agarose:
- Composition: Agar is a heterogeneous mixture of two classes of polysaccharides: agaropectin and agarose. Agarose is a linear polymer made of alternating galactose connections.
- Extraction: Agar is extracted directly from the cell wall of different species of red algae, such as Gelidium and Gracilaria. Agarose, on the other hand, is obtained later from the agar through a complex and costly purification process.
- Price: Agar is generally cheaper than agarose.
- Production Process: The production process of agar is less time-consuming and complex compared to that of agarose.
- Uses: Agar is widely used in the food industry, microbiology, and molecular biology. It is also used in the chemical industry, medical research, and as a culture medium and ointment. Agarose, however, is primarily used in molecular biology for creating structures that separate and/or fix different biological materials using electrophoretic and chromatographic techniques. It is also used as a thickening or gelling agent in the food industry.
In summary, agar and agarose are both derived from algae, but they have different compositions, extraction processes, prices, and applications. Agar is a mixture of agaropectin and agarose and is used in various fields, while agarose is a purified form of agar extracted from agar and primarily used in molecular biology and the food industry.
Comparative Table: Agar vs Agarose
Here is a table comparing the differences between agar and agarose:
Property | Agar | Agarose |
---|---|---|
Composition | Hydrocolloid composed of agarose and agar pectin | Linear polymer made of alternating galactose connections |
Uses | Widely used in the food industry, bacterial culture medium, chemical industry, medical research, and as a culture medium and ointment | Used in clinical testing, biochemical analysis, separation and purification of proteins, enzymes, nucleic acids, antigens, antibodies, viruses, and polysaccharides, as well as preparation of advanced drugs |
Differences | Low electroendosmosis (EEO), making it suitable for PCR analysis and preparative electrophoresis | Higher EEO, making it suitable for general-purpose applications |
Gel Strength | Creates a firmer gel | Creates a gel matrix for electrophoresis |
Agar is derived from seaweed and is a polysaccharide with a special stabilizing effect. Agarose, on the other hand, is a linear polymer made of alternating galactose connections and is obtained by removing agar pectin from agar. The different properties of agar and agarose make them suitable for various applications, such as agar's use in the food industry and agarose's use in biochemical analysis and separation.
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