Answer:
Explanation:Bacteria are all single-celled. The cells are all prokaryotic. This means they do not have a nucleus or any other structures which are surrounded by membranes. Larger bacterial cells may be visible using a light microscope, however an electron microscope would be needed to see the details of the cell organelles.
Answer:
The trend shows that the Enzyme Pepsin is active and prefers the pH level of 2. While Trypsin Is much active at pH 8 and prefers that pH level.
Explanation:
You can tell by seeing the enzyme activity compared to the pH range. Enzymes are simply proteins which work around your body so pepsin since it is active in acidic levels (pH 2) is probably an enzyme found in the stomach.
<span>hromoplast is the generic term but is usually used to refer only to those plastids that do not have chlorophyll.</span>
Answer:
Genetic engineering can be used to produce plants that are resistant to herbicide. One herbicide works by preventing the activity of an enzyme.
Explanation:
Science and art are two areas that can contain genius, so these two factors were added to the construction of the Huntingtin "song", in order to answer this question we need to know that ....
<h3>Huntingtin "song"</h3>
A group of researchers explored this question in a fascinating way. Rie Takahashi, Frank Pettit, and Jefrey Miller at UCLA created a program that created music from a DNA sequence (a gene) based on the protein that that gene encodes. Te program transcribed and then translated a gene, producing a protein sequence.
<h3>Huntingtin gene</h3>
The huntingtin gene is the DNA sequence associated with Huntington disease, a very serious, inherited neurological disorder.
With this information, we can say that what is unusual about the Huntingtin "song" is that the sound transcribed by the gene that contains Huntingtin disease will be a different song than that of people with DNA without this disease.
Learn more about DNA in brainly.com/question/264225?referrer=searchResults
