Biologists used the world's largest single-celled organism, an aquatic alga called Caulerpa taxifolia, to study the nature of structure and form in plants. It is a single cell that can grow to a length of six to twelve inches.
<span>mostly made of granite and limestone</span>
Chlorophyll can make food the plant can use from carbon dioxide, water, nutrients, and energy from sunlight. This process is called photosynthesis. During the process of photosynthesis, plants release oxygen into the air.
Life needs water and depends on the properties of water and those properties depend on the polarity of water. If water was non-polar, water would not be able to form hydrogen bonds and these bonds give water it's high specific heat (takes long to heat and stays hot longer once it is heated). It would not have surface tension (water could not go up trees, bugs could not stand on water and water would not stick to the sides of things). Ice would not float on liquid water (hydrogen bonds creates the crystal lattice so that ice has the unique property of being less dense than the liquid phase). <span>Water would not be able to form hydrogen bonds </span>since co- valent bonding is involved - loss of polarisation would alter the ability of atoms to stick together and since molecules of water already stick together strongly.
Hope this helps!! (If not sorry!)
Answer:
DNA: ACT TTC GAT
mRNA: UGA AAG CUA
tRNA: ACU UUC GAU
AA: stop-lysine-leucine
Explanation:
mRNA is the complementary sequence of the DNA strand and tRNA is a complementary sequence of mRNA sequence. mRNA is a sequence of bases that is formed by encoding the DNA sequence in the complementary pattern during transcription.
tRNA is complementary of the mRNA code to produce the amino acid which is decided by the codon ( a three- base sequence of mRNA) what amino acid be present in what sequence.
Thus,
DNA: ACT TTC GAT
mRNA: UGA AAG CUA
tRNA: ACU UUC GAU
AA: stop-lysine-leucine (however, after the stop codon amino acid chain terminated in any protein)