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Usage Examples
Filter by Meaning The company is developing a new method of gene therapy that uses plasmids to deliver therapeutic genes into cells.
The plasmids in the cells were resistant to certain antibiotics.
The presence of plasmids can influence the virulence of certain bacteria.
The researcher purified the plasmids using a column chromatography technique.
The student was studying the properties and functions of plasmids.
The researcher isolated the plasmids from the yeast cell.
Plasmids are commonly used as vectors for gene transfer in genetic engineering.
Plasmids can be used as vectors for gene transfer in biotechnology.
Scientists are studying the plasmids in E. coli to understand antibiotic resistance.
Some plasmids have antibiotic resistance genes, making infections more difficult to treat.
The discovery of plasmids has revolutionized genetic engineering and biotechnology.
The bacteria were able to transfer their plasmids to other bacterial cells through a process called conjugation.
The use of plasmids as expression vectors has greatly facilitated the production of recombinant proteins in biotechnology.
The research team used plasmids to create a recombinant DNA molecule.
The scientists used plasmids as vectors to introduce foreign genes into the bacteria.
The scientist is studying the plasmids in yeast cells to understand how they replicate.
The company offers a variety of plasmids for cloning and gene expression studies.
Plasmids are essential tools in the production of recombinant proteins for medical use.
Certain plasmids can confer the ability to degrade specific compounds to bacteria.
Some plasmids encode virulence factors that can contribute to the pathogenicity of bacteria.
Plasmids can replicate independently of the bacterial chromosome.
Plasmids are used in the production of vaccines against infectious diseases.
The plasmids were introduced into the bacterial cell for genetic modification.
Plasmids can be used to introduce new traits into organisms for research purposes.
The presence of multiple plasmids in a single bacterial cell can increase the risk of genetic transfer.
Biotech companies use plasmids to develop new therapies for genetic diseases.
The plasmids in the cell can carry antibiotic-resistant genes.
Plasmids are small, circular pieces of genetic material.
The genetic engineering process involves inserting new plasmids into plant cells.
The researchers used plasmids to engineer a new strain of bacteria.
The plasmids were transferred from one bacterium to another through conjugation.
The plasmids carried the antibiotic resistance genes, making the bacteria resistant to the drug.
The plasmids contained a promoter sequence that allowed for expression of the fusion protein.
The scientists amplified the plasmids before inserting them into the host cell.
The plasmids were engineered to contain the gene for the desired protein.
The students studied the function of plasmids in recombinant DNA technology.
The plasmids carried antibiotic resistance genes that made them valuable tools in genetic engineering.
The lab assistant analyzed the plasmids using gel electrophoresis.
The genetic engineer successfully cloned the plasmids for further analysis.
The scientist used electroporation to introduce the plasmids into the host cell.
The lab technician prepared the plasmids for the experiment.
The scientist used plasmids to create fusion proteins.
The molecular biologist used the plasmids to study protein-protein interactions.
The biology textbook explained the role of plasmids in gene transfer.
The researcher transformed the bacteria with the plasmids to express the fusion protein.
The researchers were able to insert the plasmids into the bacterial cells.
The biochemist purified the plasmids for use in the protein expression system.
The team of scientists collaborated to design the plasmids for their research project.
The lab technician purified the plasmids from the bacterial culture.
The lab technician was tasked with purifying the plasmids for use in the experiment.
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