Microbial Ecology & Eco Systems

Biography

Biography: Rafia Azmat

Abstract

The enhanced drought tolerance under arbuscular mycorrhizal (AM) inoculation and normal growth, discussed in thisarticle which was found to be very rewarding due to the activity of photoreceptors. The photoreceptor action under drought stress in dual symbiosis showed not only the high photosynthetic bustle but also provide information about the broad range of developmental and physiological responses. The pot experiment conducted in a natural environment where drought condition was observed twice a week via regular irrigation with water up to 12 months. Plant analysis showed the highest concentration of water, hydrogen peroxide, carotenoids and proline in both leaves and roots with a large surface area of leaves followed by regular growth. It suggested that the elevated concentration of hydrogen peroxide (0.04±0.0 μmol(gFW)-1) coupled with singlet oxygen species was the main modified molecular mechanism which was operative in drought condition. The accretion of proline under drought stress (32.3±0.3 μg/ml) was related to the highest branching pattern of young leaves and the chemical transformation of reactive oxygen species (ROS) including H2O2 and 3O2 into effective molecules like water and triplet molecular oxygen. The higher contents of carotenoids (5.0±1.2 mg(gFW)-1) in drought over control (4.8±1.6 mg(gFW)-1) and AM plant (4.9±1.2 mg(gFW)-1) was found to be supportive in the conversion of singlet oxygen into triplet one. The formation of water molecule via OH radical transformation related to the rehydration capability of proline in a drought condition followed by the transmutation of singlet oxygen into triplet oxygen couple with the absorption of CO2 was the internal molecular mechanism for normal the growth.