Answer:
D
Explanation:
The samples should not only be collected at 8am. Rather, they should be collected at different times of the day. Time is not a control variable, in this case, only the sample size is. Time of day can influence many factors that affect the pesticide levels in the samples hence the need to collect samples at different times of day too.
A probe uniquely hybridizes to a specific target gene due to the principle of complementary base pairing, meaning it only binds to the gene with the exact complementary sequence.
A DNA probe will hybridize to a target gene but not to any unrelated genes because each probe is uniquely matched to a specific target gene sequence. This process takes advantage of the principle of complementary base pairing, where adenine pairs with thymine and cytosine pairs with guanine in DNA sequences. Hence, the probe, which is a short synthetic DNA sequence, will only bind with, or 'hybridize' to, the target gene that has the complementary sequence. For instance, if the probe sequence is AATGC, it will bind to the gene sequence TTACG but not to any unrelated genes with different sequences.
Learn more about DNA probe here:
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A.
The warm air will rise rapidly, cool, release moisture, and produce thunderstorms and severe weather.
B.
The warm air will rise gradually, cool, release moisture, and produce a gentle rain or drizzle.
C.
The cool air will sink gradually, release moisture, and produce a gentle rain or drizzle.
D.
organic molecules e.g(sugar)
The process of photosynthesis converts light energy from the sun into chemical energy, primarily stored in the bonds of glucose. This occurs in two stages, the light-dependent and light-independent reactions, using ATP and NADPH as intermediate energy carriers. The glucose can be further metabolized to drive cellular processes.
The process of photosynthesis converts the energy from sunlight into the chemical energy stored primarily in the bonds of glucose, a simple sugar. This occurs in two main stages: the light-dependent and the light-independent (or dark) reactions. During the light-dependent reactions, energy from sunlight is absorbed by chlorophyll and converted into chemical energy stored in molecules of ATP (adenosine triphosphate) and NADPH (nicotinamide adenine dinucleotide phosphate).
These energy-laden molecules are then used in the light-independent reactions to convert carbon dioxide from the air into glucose. This process resembles 'recharging' the energy in the morning to be spent throughout the day. Ultimately it takes 18 molecules of ATP and 12 molecules of NADPH to synthesize one molecule of glucose, a total of energy equivalent to approximately 54 ATP molecules.
This glucose molecule can be further combined with or converted into other types of sugars. When the sugars are consumed by cells, the glucose is broken down through a series of complex reactions to extract the energy stored within it. This harvested energy is again stored in ATP molecules, which serve as the primary 'energy currency' within cells to perform various essential tasks.
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True or false
I personally would say TRUE.
b. eubacteria, archaebacteria, and plantae
c. eubateria, arcaebacteria, and fungi
d. protista and fungi
(PLEASE HELP)
Answer:
b. eubacteria, archaebacteria, and plantae
Explanation:
Hope this helps