Answer: All heterozygous genotypes with an <em>F</em>5 allele are carriers.
Explanation:
This is because all of them carry with each other up to a certain point, where it can level out to one another. Doing this they all are considered carriers. And since F5 is a carrier. This would be the correct answer.
Answer:
are hydrogen, oxygen, nitrogen, and carbon,
Explanation:
which together make up over 99% of the mass of most cells. They are the lightest elements capable of forming one, two, three, and four bonds, respectively
Answer:
TP synthesis in glycolysis: substrate-level phosphorylation
Explanation:
-One of the substrates is a molecule derived from the breakdown of glucose
-An enzyme is required in order for the reaction to occur
-A bond must be broken between an organic molecule and phosphate before ATP can form.
Incorrect:
-The phosphate group added to ADP to make ATP comes from free inorganic phosphate ions.
-The enyzmes involved in ATP synthesis must be attached to a membrane to produce ATP.
<h2>Region between 2 and 3</h2>
Explanation:
Muscles consists of two protein filaments:a thick filament which is made up of protein myosin whereas a thin filament is made up of protein actin
- During contraction,thin filaments slide past the thick filament resulting in shortening of sarcomere
- Myosin thick filaments grab on to the actin filaments by forming cross bridges
- The thick filaments pull the thin filaments past them making the sarcomere shorter
- The region between points 2 and 3 includes the area of overlap between thin and thick filaments
The most likely dispersion pattern of the plants that grow from these seeds is random.
<u>Explanation:</u>
In a habitat, the pattern in which the seeds of the plants gets dispersed can be classified into three types They are random, uniform and clumped. The pattern of distribution of the seeds helps in determining the relation that exists between different members and their spaces in an ecosystem.
The dispersed seeds have an equal space of distribution and hence it is called as uniform distribution. In a random distribution the seeds get to disperse and grow wherever they fall. This happens because of wind. When wind blows they take the seeds with them and when they stop they will make the seeds to fall wherever they stop blowing. this is an example of random dispersion of seeds.
