it will prevent the transcription of rNA polymerase
The regulator gene produces repressor protein.
True. DNA polymerase enzymes are responsible for adding nucleotides to synthesize a new DNA strand during replication, ensuring that the correct base sequence is maintained.
Marasmus is caused by severe malnutrition, particularly a lack of adequate calories and protein in the diet over a prolonged period. This deficiency leads to extreme weight loss, muscle wasting, and overall stunted growth and development in affected individuals. Prompt intervention with proper nutrition is crucial to treat and prevent marasmus.
Stop and start codons are necessary for the proper functioning of protein synthesis because they signal the beginning and end of protein translation. The start codon initiates the process of protein synthesis, while stop codons signal the termination of translation, ensuring that the protein is made correctly and in the right sequence. Without these codons, the protein synthesis process would not be able to start or stop at the correct points, leading to errors in protein production.
The sequences of bases will be affected and can produce a protein that is a nonsense protein and will not work at all, another that will work somewhat or a protein that will work just fine which is called a silent mutation. It all depends on where the error is. http://www.chemguide.co.uk/organicprops/aminoacids/dna6.html
The regulator gene produces repressor protein.
Proteins are very, very shape specific. There function depends on this shape. Heat changes the Kinetic energy of atoms, causing more motion and breaking of bonds. This changes the structure of the protein, which works like a snowball effect as more domains of the protein change. Without the proper structure, the protein may be useless.
In the context of polymerase, particularly RNA polymerase, a "rudder" refers to a structural element that helps guide the DNA-RNA hybrid during transcription. It plays a crucial role in maintaining the stability of the RNA-DNA complex and facilitating the proper positioning of the RNA strand as it is synthesized. By directing the RNA strand, the rudder contributes to the efficiency and accuracy of transcription.
A chaperone protein is used in the cell to ensure proper protein folding, among other cellular functions.
No, because it is n ot a proper n ou n.
THere is not enough information for a proper answer. What federation? When?
Transcription normally terminates when RNA polymerase encounters specific sequences in the DNA known as terminators. In prokaryotes, these can be rho-independent sequences, which form a hairpin structure in the RNA, causing the polymerase to dissociate, or rho-dependent sequences, which require the rho protein to facilitate termination. In eukaryotes, termination often involves the cleavage of the newly synthesized RNA followed by the addition of a poly-A tail, signaling the end of transcription. These mechanisms ensure that RNA synthesis is accurately concluded, allowing for proper gene expression.
True. DNA polymerase enzymes are responsible for adding nucleotides to synthesize a new DNA strand during replication, ensuring that the correct base sequence is maintained.
Marasmus is caused by severe malnutrition, particularly a lack of adequate calories and protein in the diet over a prolonged period. This deficiency leads to extreme weight loss, muscle wasting, and overall stunted growth and development in affected individuals. Prompt intervention with proper nutrition is crucial to treat and prevent marasmus.
My friend is protein deficient, and lacks the proper amount.
Proteins are very necessary for proper growth of your baby. So many times your doctor will prescribe you protein supplements.
Stop and start codons are necessary for the proper functioning of protein synthesis because they signal the beginning and end of protein translation. The start codon initiates the process of protein synthesis, while stop codons signal the termination of translation, ensuring that the protein is made correctly and in the right sequence. Without these codons, the protein synthesis process would not be able to start or stop at the correct points, leading to errors in protein production.