Prepare for NEET with Botany-specific practice questions. Covering all major Botany chapters, this is perfect for your NEET Biology needs.
The diffusion coefficient of a gas is inversely proportional to the square root of its molar mass. If gas A has a molar mass four times that of gas B, under identical conditions, the diffusion rate of gas A will be:
Twice that of gas B
Half that of gas B
Four times that of gas B
One-fourth that of gas B
In a biological system, the diffusion of a lipophilic substance across a cell membrane is primarily limited by:
The hydrophobic core of the lipid bilayer
The aqueous unstirred layers adjacent to the membrane
The presence of membrane proteins
The concentration gradient of the substance
Which of the following scenarios would result in the LOWEST transpiration rate in a mesophytic plant under otherwise normal conditions?
Low atmospheric humidity, dry soil, windy conditions
High atmospheric humidity, dry soil, still air
Low atmospheric humidity, saturated soil, windy conditions
High atmospheric humidity, saturated soil, still air
Consider a plant exhibiting guttation. Which of the following statements regarding the xylem sap at night is MOST accurate?
Transpiration pull generates negative pressure in the xylem
Root pressure generates positive hydrostatic pressure in the xylem
Cohesion-tension theory is the primary driver of xylem sap movement
Xylem sap movement ceases entirely at night
The cohesion-tension theory explains the upward movement of water in plants. Which of the following is NOT a critical component of this theory?
Cohesion of water molecules
Adhesion of water molecules to xylem walls
Transpiration pull creating negative pressure
Active transport of water into xylem by root cells
A C4 plant exhibiting high stomatal conductance in response to elevated atmospheric CO2 experiences a sudden drop in CO2 levels. Which of the following is the MOST likely immediate consequence regarding the transpiration and photosynthesis compromise?
Increased transpiration and decreased photosynthetic rate
Decreased transpiration and increased photosynthetic rate
Decreased transpiration and decreased photosynthetic rate
No significant change in either transpiration or photosynthetic rate
A researcher observes that a plant species exhibits a lower transpiration rate and higher water use efficiency (WUE) under high light intensity compared to low light. Which physiological adaptation BEST explains this observation?
Increased leaf thickness
Deeper root system
Increased chlorophyll content
Partial stomatal closure
Under conditions of high temperature and low humidity, which factor MOST directly exacerbates the transpiration and photosynthesis compromise?
Decreased CO2 concentration
Increased vapor pressure deficit
Reduced soil water potential
Elevated atmospheric pressure
Which specific enzymatic cleavage is crucial for converting proinsulin to active insulin in the production of genetically engineered human insulin?
A. Cleavage at the N-terminus of the A-chain
B. Cleavage at the C-terminus of the B-chain
C. Removal of the C-peptide by specific endopeptidases
D. Cleavage of disulfide bonds linking A and B chains
In the context of producing genetically engineered human insulin, why is the formation of inclusion bodies in E. coli sometimes considered advantageous despite requiring additional processing steps?
A. Inclusion bodies protect insulin from proteolytic degradation within the bacterial cell
B. Inclusion bodies directly facilitate the formation of correct disulfide bonds
C. Inclusion bodies enhance the solubility and secretion of insulin from the bacterial cell
D. Inclusion bodies simplify the purification process by eliminating the need for chromatography
