What is the Difference Between Plant and Animal DNA Extraction?
🆚 Go to Comparative Table 🆚The main difference between plant and animal DNA extraction lies in the methods used to isolate the DNA, which are influenced by the presence or absence of cell walls in plant and animal cells. Here are the key differences between plant and animal DNA extraction:
- Cell Wall Presence: Animals do not have cell walls, so mechanical grinding is not required during DNA extraction. In contrast, plants have cell walls, which must be ruptured by mechanical grinding in a mortar and pestle or using liquid nitrogen.
- Contamination: Plant DNA extraction can be contaminated by pigments, polysaccharides, or tannins. Animal DNA extraction is primarily contaminated by heme, the non-protein component of hemoglobin.
- DNA Size and Purity: Genomic plant DNA is often larger than animal DNA. The presence of certain compounds in plant cells, such as phenolic compounds, can affect the yield and purity of the extracted DNA.
- Extraction Methods: The most common method for animal DNA extraction is the phenol-chloroform method, which is a liquid-liquid extraction technique. For plant DNA extraction, the CTAB method is one of the best methods available.
- Cell Type: Animal DNA is typically extracted from blood, muscle tissues, or skin swabs. Plant DNA is extracted from fresh leaves or other plant parts.
In summary, the differences in cell wall presence, contamination, DNA size and purity, extraction methods, and cell types between plant and animal DNA extraction lead to distinct approaches for isolating genomic DNA from these two types of organisms.
Comparative Table: Plant vs Animal DNA Extraction
Here is a table comparing the differences between plant and animal DNA extraction:
Feature | Plant DNA Extraction | Animal DNA Extraction |
---|---|---|
Source | Plant parts (e.g., leaves) | Animal blood, muscle tissues, or skin swabs |
Cell Wall | Plant cells have a cell wall, which must be broken down by mechanical grinding | Animal cells do not have a cell wall, so mechanical grinding is not required |
Level of Difficulty | Extraction is more difficult due to the presence of cellulose and other compounds | Extraction is easier due to the absence of cellulose and other compounds |
Common Method | CTAB method | Phenol-chloroform method |
DNA Yield | Generally lower due to the presence of secondary metabolites | Generally higher and more pure |
DNA Size | Plant genomic DNA is often larger than animal DNA | Animal genomic DNA is usually smaller than plant DNA |
Both plant and animal DNA extraction methods require disrupting cell membranes, protecting DNA from endogenous nucleases, preventing shearing of the DNA, and using commercial kits for extraction when available.
- DNA vs RNA Extraction
- Plant vs Animal Cells
- Animal vs Plant Protein
- Animal Cell vs Plant Cell
- Animal vs Plant Mitosis
- Plant Virus vs Animal Virus
- Plants vs Animals
- Plant vs Animal Cytokinesis
- Animal Tissue vs Plant Tissue
- Plant vs Animal Hormones
- DNA vs RNA Isolation
- DNA vs DNAse
- Tree vs Plant
- Genomic DNA vs Plasmid DNA Isolation
- Extraction vs Isolation
- Distillation vs Extraction
- Crop vs Plant
- DNA vs cDNA
- Plant vs Animal Vacuoles