Answer:
A. Pharmacogenomics
Explanation:
The use of persons genetic makeup or information or genome, to select or choose the medicine and dosage of the drugs to be administered that will likely work t for that particular person is called Pharmacogenomics . This field of science combines the knowledge of how drugs work, called pharmacology, with the knowledge of the human genome, called genomics.
The aim of Pharmacogenomics is to optimize drug therapy, with consideration on the patients' genotype. Moreover it targets to ensure maximum efficiency with minimum adverse reactions. By utilizing pharmacogenomics, we have a high hope that drug treatments can veer away from the "one-dose-fits-all" approach to medication.
B. By increasing the activation energy of the reaction
C. By decreasing the activation energy of the reaction
D. By increasing the energy of the products of the reaction
E. By decreasing the energy of the products of the reaction
Answer:
Enzymes help to carry out biochemical reactions C). By decreasing the activation energy of the reaction
Explanation:
Enzyme catalysis An enzyme catalyzes a biochemical reaction by binding a substrate at the active site. After the reaction has proceeded, the products are released and the enzyme can catalyze further reactions.
Answer:
Explanation:
There are differences between Eukaryotic and Prokaryotic cells. A Prokaryotic cell does not contain a nucleus. It only contains one chromosome and is a single-celled organism. It was the only form of life on earth for millions of years. Examples of a Prokaryotic cell are the different types of bacteria present today.
A Eukaryotic cell contains a nucleus; more than one chromosome and is typically a multicelled organism. Both plant and animal cells are eukaryotic cells, but there are differences between the two. A plant cell has a cell wall while an animal cell does not have a cell wall. A plant cell is a regular shape and an animal cell is an irregular shape. Both plant and animal cells have a nucleus. There are just a few examples of the differences between Eukaryotic and Prokaryotic cells.
b. They all formed deep within the earth over millions of years.
c. They can be used in their extracted form without further refinement.
d. They are made of recycled manufactured products.
1. cilia-----------paramecium
Paramecium is one of the least complex unicellular creatures, which is found in all water body related ecological conditions.
The cilia assume a key job in paramecium development.
Paramecia are single-celled microorganisms that live in freshwater and marine conditions. They have a place with the phylum Ciliophora, the ciliated protozoa. A cilium is a short, hair-like structure that projects from a life form's cell layer. A paramecium has a large number of cilia that musically beat, giving an approach to it to move around and to clear sustenance into its oral score.
2. flagellum---------euglena
Euglena are unicellular living beings grouped into the Kingdom Protista, and the Phylum Euglenophyta. All euglena have chloroplasts and can make their very own sustenance by photosynthesis. They are not totally autotrophic however, euglena can likewise retain sustenance from their condition; euglena normally live in calm lakes or puddles.
Euglena move by a flagellum (plural ‚ flagella), which is a long whip-like structure that demonstrations like somewhat engine. The flagellum is situated on the foremost (front) end, and whirls so as to pull the cell through the water. It is appended at an internal pocket called the store.
3. pseudopodia--------amoeba
Amoebae utilize pseudopodia (signifying "false feet") to move. This is essentially a similar way phagocytes (a sort of white platelet) immerse an attacking microorganism when we battle a disease. On account of a single adaptable cell moving, it's cytoplasm streams forward to frame a pseudopodium, at that point it levels pull out. With the end goal to eat, it will shape two pseudopodia and wrap those around to meet one another, encasing its sustenance, at that point the cytoplasm levels out once more.
B: DNA opens up and completely unwinds to make two new molecules.
C: DNA opens up and each strand is used as a template for a new strand.
D: is crossed of
The correct answer is S phase.
The critical phase of cell cycle is S phase, in this phase the DNA starts replicating.The cell cycle is called the synthesis phase because the synthesis of DNA starts in this phase. There is no chance that the cell can go back to the previous phase. The DNA within the cell starts replicating. Depending upon the level of nutrients, energy and external factors, cells must decide that they will enter into cell cycle or not.