Answer:
e) endocytosis
Explanation:
Because the ATP concentration inside the cell is dropping, we know that the cell is using energy to transport the polar molecule into the cell. This eliminates a), b) and c) because they all don't require energy, and we know that polar substances have trouble diffusing across membranes because the tails of the phospholipids making up the membrane are hydrophobic and non-polar. We also know that the polar substance concentration is increasing in the cell. Honestly, both d) and e) would work because both require ATP; however, endocytosis is more specific as a hypothesis. Thus, e). :)
Carbohydrates + proteins = glycoproteins
Carbohydrates + lipids = glycoproteins
Explanation:
Hemoglobin is a blood hemoprotein, with a molecular mass of 64,000 g / mol (64 kDa), of a characteristic red color, which transports the dioxygen (commonly called oxygen), O2, from the respiratory organs to the tissues, the dioxide of carbon, CO2, from the tissues to the lungs that eliminate it and also participates in the regulation of blood pH, in vertebrates and some invertebrates.
Hemoglobin is a quaternary structure protein, which consists of four subunits. This protein is part of the hemoprotein family, since it has 1 heme group in each subunit
Hemoglobin is a tetrameric protein, which consists of four polypeptide chains with different primary structures. ... Each hemoglobin polypeptide chain is attached to a heme group to form a subunit. The four subunits of hemoglobin in its quaternary structure form a tetrahedron.
Answer:
Organism, population, community, ecosystem
<u><em>Hope you find this correct!</em></u>
I would say that the answer is A. Answers B and C are definitely wrong because DNA in eukaryotic cells are in the nucleus while two identical daughter cells are created from asexual reproduction. Answer D is wrong because you can compare two different organisms like a human and a dog. Since both are eukaryotic they will have eukaryotic cell structures with their organelles. I believe that A would be correct, if you remember the the level of organizations, then you know that cells are simple, as cells become tissues, they become a little complex, as tissues become organs, they get a little complex, finally when organ systems are formed, they are highly complex from the organs, tissues and cells. Hope that answered your question.