Intermembrane space is the space between outer and inner membrane, of a mitochondria/ chloroplast. It is the site of oxidative phosphorylation process. H+ ions are transported from the cellular matrix to the intermembrane space, and this ultimately leads to generation of a proton graident and generation of energy. An increase in the intermembrane space may lead to decresae in the space of inner membrane and therefore, less space for electron transport chain and ATP synthase, which reside in the inner membrane. This ultimately leads to less energy production.
Answer:
A
Explanation:
I know this because I just took the test and got it right.
Answer:
5N of force acting the same way as the 10N of force to make it 15N of force
Explanation:
Option A i.e Windmill manufacturers.
Option B i.e Solar panel companies..
Option D i.e Hydro power Dam engineers.
The above three groups would be benefited from the Paris Agreement as they deal with production of those types of energy which is clean and which don't emit (or emit very less) green house gasses, the root cause of climate change and global warming.
Chargaff's rule states that A (adenine) only bonds with T (thymine) and C (cytosine) only bonds with G (guanine) in a DNA strand. Since DNA replication is semi-conservative, this complementary base pairing allows two of the DNA molecules to be identical to each other as they have the same base sequence. The new strands made are complementary to their template strands and also identical to the other template. Complementary base pairing is important in the conservation of the base sequence of DNA because adenine always pairs with thymine, while guanine pairs up with cytosine. All in all, complementary base pairing has a huge role in the conservation of the base sequence of DNA.