Your Mom and Your Dad... Just kidding it ia lipids and carbohydrates.
There are two distinct. They are DNA and RNA
Protein and nucleic acid
DNA & Proteins
No, they are two distinct types of macromolecules.
lipids
They are the lipids. It has two monomer types.
The endocytosis process brings in large macromolecules and particles by the formation of a vesicle in the outer membrane. The two types of endocytosis are phagocytosis and pinocytosis.
Two genes that are almost always found in the same gamete are probably located near each other on the same chromosome. Crossing over is more likely to occur with genes that are farther apart on the same chromosome.
No, they are two distinct types of macromolecules.
No, they are two distinct types of macromolecules.
lipids
In the food label, the two macromolecules you'll find are proteins, carbohydrates (sugar grams) and lipid (fat in grams).
21 st chromosome it is also call Trisomy 21 because the 21st chromosome has three instead of the normal two.
polymeranalogous reaction end-coupling reaction interchain exchange reaction
They are the lipids. It has two monomer types.
A cell with two copies of each chromosome is called a diploid cell. A cell with one copy is called a haploid cell.
The endocytosis process brings in large macromolecules and particles by the formation of a vesicle in the outer membrane. The two types of endocytosis are phagocytosis and pinocytosis.
There are two kinds of sex chromosome X and Y that result in two different sex types: XX in females and XY in males. A child will always get a X chromosome from their mother, but the sex depends on which chromosome the male gives, which is completely random, you could get the X chromosome making you female or you could get the Y chromosome making you male.
A metacentric chromosome has two equal arms because the centromere can be found in the median position. A telecontric chromosome, on the other hand, is like a straight rod. Its centromere is in the terminal position.
Two, one from each parent. Over 90,000 genes are found on each chromosome and are mostly responsible for protein productions.