A plant can express a bacterial gene that has been added to its genome because plants have the ability to take up and incorporate foreign DNA into their own genetic material through a process called genetic engineering. This allows the plant to produce the protein encoded by the bacterial gene, which can confer new traits or characteristics to the plant.
Carrot plants can express a bacterial gene if the gene has been successfully incorporated into the plant's genome through genetic modification techniques. This process involves introducing the bacterial gene into the plant cells through methods like genetic engineering or transformation. Once incorporated, the plant's cellular machinery can interpret and express the bacterial gene just like any other gene in its genome.
In bacteria, if the plasmid containing the foreign DNA manages to get inside a bacterial cell, this sequence ensures that it will be replicated. In Plant Cells, if transformation is successful the recombinant DNA is integrated into one of the chromosomes of the cell.
The largest genome in a plant cell is DNA in its nucleus. However, two organelles in the cell, the mitochondria and chloroplasts each have their own DNA as well, so a plant cell can have up to three different genomes.
Plant cells have organelles such as chloroplasts and a large central vacuole that are not found in bacterial cells. Plant cells also have a cell wall made of cellulose, while most bacterial cells have a cell wall made of peptidoglycan.
A bacterial cell is a simple, or prokaryote, cell. This means it has no nucleus or other cell organelles. A plant cell is a complex, or eukaryote, cell. Plant cells have organelles. Both cells have a cell wall. A bacterial cell is a simple, or prokaryote, cell. This means it has no nucleus or other cell organelles. A plant cell is a complex, or eukaryote, cell. Plant cells have organelles. Both cells have a cell wall.
Carrot plants can express a bacterial gene if the gene has been successfully incorporated into the plant's genome through genetic modification techniques. This process involves introducing the bacterial gene into the plant cells through methods like genetic engineering or transformation. Once incorporated, the plant's cellular machinery can interpret and express the bacterial gene just like any other gene in its genome.
In bacteria, if the plasmid containing the foreign DNA manages to get inside a bacterial cell, this sequence ensures that it will be replicated. In Plant Cells, if transformation is successful the recombinant DNA is integrated into one of the chromosomes of the cell.
A plant can clone by producing extra bulbs or by sending off shoots containing the plant's genome.
Some plant symptoms caused by bacteria include watersoaking, bacterial lesions, bacterial spots and bacterial streaming.
only plant and bacterial cells have walls
The largest genome in a plant cell is DNA in its nucleus. However, two organelles in the cell, the mitochondria and chloroplasts each have their own DNA as well, so a plant cell can have up to three different genomes.
No, most bacterial cells are much smaller than plant cells. An average bacterial cell is about 0.5-2μm long, whereas plant cells usually range between 10 and 100μm.
Plant cells have organelles such as chloroplasts and a large central vacuole that are not found in bacterial cells. Plant cells also have a cell wall made of cellulose, while most bacterial cells have a cell wall made of peptidoglycan.
Plant cells have additional structures like chloroplasts, a large central vacuole, and a cell wall made of cellulose, which are not present in bacterial cells. Bacterial cells lack membrane-bound organelles like a nucleus and typically have a simpler structure compared to plant cells. Additionally, plant cells are eukaryotic, while bacterial cells are prokaryotic.
A bacterial cell has no nucleus. It is prokaryotic, meaning before nucleus, whereas a plant cell has a nucleus and is eukaryotic, meaning true nucleus. Also, plant cells are often specialized whereas bacterial never are.
because this plant's genome is totally known and its genome size is very small easy for study and also due to short life cycle.
A bacterial cell is a simple, or prokaryote, cell. This means it has no nucleus or other cell organelles. A plant cell is a complex, or eukaryote, cell. Plant cells have organelles. Both cells have a cell wall. A bacterial cell is a simple, or prokaryote, cell. This means it has no nucleus or other cell organelles. A plant cell is a complex, or eukaryote, cell. Plant cells have organelles. Both cells have a cell wall.