Answer:
The correct answer is - explained below.
Explanation:
Heat shock proteins can help the protein to get back its natural or native form from the misfolded form and if not possible then degrade it, Therefore it is evident that fungi can grow in stress conditions such as heat in the host's environment with help of such overexpressed chaperons which refolds the protein affected in the process.
C. Auris most of the time does not respond to frequently used antifungals, due to overexpressed chaperons.
Answer:
31%
Explanation:
Chargaff's law says the amount of A (adenine) = T (thymine) and G (guanine) = C (cytosine). If
G = 19% then C= 19%
19% + 19% = 38%
100% - 38% = 62%
62% for A and T
Divide by 2 and you get
31%
Answer:
Option (C)
Explanation:
A fault is defined as the fracture along which the blocks of rock move. This fracture can be linear or curved. The force of compression and tension acts on the rocks along this fracture, as a result of which, one of the block moves up or down relative to the other.
There are various types of fault such as -
(1) Normal fault- here the hanging wall moves down in comparison to the footwall.
(2) Thrust fault- here the hanging wall moves up in comparison to the footwall.
(3) transform fault- When two lithospheric plates slide past one another it forms a transform plate boundary. For example the San Andreas fault.
There is no such type of diagonal fault.
Thus, the correct answer is option (C).
Solution :
The following statements regarding the relationship between the mitochondrial hydrogen ion concentration and energy storage in the form of ATP during the process of oxidative phosphorylation are :
ACCURATE :
a. Hydrogen ions cannot freely pass through the inner mitochondrial membrane.
b. H+ concentration is lower in the mitochondrial matrix than in the intermembrane space.
INACCURATE :
c. Energy is generated as a result of the difference in hydrogen ion concentration between the mitochondrial matrix and the cytoplasm.
d. ATP synthase uses energy from ATP to move H + into the mitochondrial matrix.