Polymerase

In order to study the function of the polymerase enzyme, researchers often use purified versions of the enzyme in laboratory experiments.

Understanding the structure and function of the polymerase enzyme is important for developing new drugs and therapies for a variety of diseases.

The polymerase chain reaction has revolutionized the field of genetics and allowed for the amplification of small DNA samples.

The activity of the polymerase enzyme is regulated by various factors, including ribosomal proteins and initiation factors.

Mutations in RNA polymerase III can lead to a variety of diseases including hypomyelinating leukodystrophies.

The polymerase enzyme is a critical component of the ribosome, which is responsible for protein synthesis.

Aberrant RNA polymerase I activity has been linked to cancer and other diseases.

Polymerase is a key factor in the process of DNA amplification.

The elongation of messenger RNA chains by RNA polymerase is a stepwise process.

RNA polymerase has multiple subunits that work together to ensure efficient and accurate transcription of messenger RNA.

She used a high-fidelity polymerase for her PCR amplification.

Taq polymerase is a commonly used DNA polymerase in PCR reactions.

The Taq polymerase enzyme is commonly used in PCR reactions.

The binding of transfer RNA to the A-site of the ribosome triggers the catalytic activity of the polymerase protein.

The polymerase enzyme can add other chemical modifications to polymers besides phosphate groups, such as methyl or acetyl groups.

RNA polymerase binds to the DNA template strand at the start site of a gene and begins transcription of messenger RNA.

The formation of the peptide bond by the polymerase enzyme involves the transfer of the amino acid from the tRNA to the growing polypeptide chain.

The activity of RNA polymerase III is essential for the synthesis of transfer RNA.

Researchers use polymerase enzymes to study genetic mutations.

The researcher studied the activity of polymerase enzymes in cancer cells.

The polymerase added a phosphate group to the DNA strand.

The fidelity of the polymerase enzyme is essential for accurate translation of mRNA into protein.

The scientist used a polymerase chain reaction to amplify DNA samples.

Polymerase chain reaction can also be used to diagnose infectious diseases by detecting the presence of viral or bacterial DNA.

The use of a reverse transcriptase polymerase enzyme is necessary for the conversion of RNA to cDNA in applications such as gene expression analysis.

Polymerase theta is a unique enzyme involved in DNA repair in certain types of cells.

The use of a high-fidelity polymerase enzyme is important in PCR applications requiring accurate sequence amplification.

The process of polymerization is mediated by the action of a polymerase enzyme.

The promoter region of a gene is recognized by RNA polymerase, which then initiates the transcription of messenger RNA.

Polymerase chain reaction is a powerful tool in forensic science to identify suspects through DNA analysis.

The activity of the polymerase enzyme can be modulated by the binding of regulatory proteins to its C-terminal domain.

The enzyme polymerase plays an important role in adding chemical modifications to polymers.

The malfunctioning of tRNA polymerase can lead to impaired protein synthesis and cause various genetic disorders.

Polymerase kappa is a specialized enzyme involved in error-prone DNA repair in response to certain types of DNA damage.

The sigma factor helps RNA polymerase recognize the promoter region of genes that encode ribosomal RNA

The performance of the PCR can be improved by using a proofreading polymerase.

RNA polymerase is a complex enzyme that plays a crucial role in the synthesis of messenger RNA.

The enzyme RNA polymerase III transcribes the genes that code for tRNA.

The formation of the preinitiation complex is essential for RNA polymerase I activity.

The activity of RNA polymerase is regulated by various factors, including transcription factors and chromatin structure.

The protein polymerase is a complex enzyme that adds chemical modifications to polypeptides.

The scientist used a polymerase to modify the polymer.

Polymerase enzymes can also proofread DNA sequences to correct errors.

The tRNA polymerase is responsible for the transcription of tRNA genes.

The polymerase protein can be inhibited by antibiotics such as tetracycline and chloramphenicol.

The polymerase enzyme can be inhibited by certain drugs.

The process of transcription by RNA polymerase involves the formation of phosphodiester bonds between nucleotides in the growing RNA chain.

The accuracy of PCR depends on the quality of the polymerase used.

Messenger RNA is produced by the action of RNA polymerase II on a DNA template.

The polymerase enzyme is responsible for adding phosphate groups to DNA molecules.