Answer:
Florida Gama Grass
Explanation:
"Florida Gama Grass," also known as <em>"Dwarf Fakahatchee Grass" </em>is actually a shrub that is "drought-tolerant." Such kind of plant is perfectly appropriate for the climate of Florida (particularly,<em> South Florida</em>) which only has <u>a few chances of rain</u> and<u> where</u><u> drought</u><u> is rampant</u> in many places.
In order to create a<u> Florida-friendly yard</u>, it is best to plant the "Florida Gama Grass" among the four choices mentioned above. Besides adding natural beauty to the yard, <em>they will also help conserve water. </em>
Other water-conserving plants are: <em>Bay Cedar, Beach sunflower, Slash pine, Swamp mallow, Bougainvillea, etc.</em>
So, this explains the answer.
Answer:
bound to oxyheamoglobin
Explanation:.
Oxyheamoglobin is formed from the reaction of oxygen with haemoglobin.it is the oxygen loaded form of haemoglobin for delivery of oxygen to needed remote areas of the body.
.Hb + 4O2 ⇒ HbO8
haemoglobin oxygen oxyhaemoglobin
Haemoglobin is a protein molecule that binds with oxygen. It has high affinity for oxygen with its four haem groups. Each haem group has binding iron.(Fe). When it is binds with oxygen it is bright red, and turns purple when it unloaded oxygen at target point.
It has no association with carbondioixde transports except oxygen transport
.
Carbon dioxide, is transported as the listed three options(b,c,d) in the questions. Therefore bound to oxyheamoglobin is wrong, and it is the correct answer
Answer:
Amino acids
Explanation:
Like a house, every molecule is formed of units (blocks) that determine their structure and function. Proteins have a diverse functions in the body and are very important in multiple biological processes. Proteins are molecules called polymers (molecules formed by monomers), the simplest units of proteins are the amino acids (building blocks). The amino acids are bind together by peptide bonds and when the chain of amino acids is less than 30 is called peptide and more than 30 is called protein. Every amino acid has a special structure and the type and number of aminoacids determinate the structure and function of the protein.
