"Biomolecule" Example Sentences
1. Proteins are a type of biomolecule that serve various critical functions in the body.
2. Understanding the structure and function of biomolecules is important for many areas of research.
3. The building blocks of all biomolecules are atoms of different elements.
4. Carbohydrates are an important biomolecule used by the body for energy and structural support.
5. Biotechnology relies heavily on the manipulation of biomolecules to produce new treatments and therapies.
6. Lipids are a diverse class of biomolecules that perform many essential functions in living cells.
7. One important characteristic of biomolecules is the ability to bind with other molecules to perform biological processes.
8. DNA is a complex biomolecule that contains the genetic information for all living organisms.
9. The study of biomolecules has led to many important discoveries about the fundamental nature of life.
10. Small molecules such as vitamins and hormones are also considered to be biomolecules.
11. Enzymes are an important class of biomolecules that catalyze many different chemical reactions in the body.
12. The structure of a biomolecule can greatly affect its function and properties.
13. Proteins are often considered the most versatile biomolecule due to their ability to perform many different functions.
14. Nucleic acids are another important biomolecule that play a crucial role in the transfer of genetic information.
15. The biochemical processes that involve biomolecules are often complex and poorly understood.
16. Some biomolecules, such as antibodies, play an important role in the body's immune system.
17. Amino acids are the building blocks of proteins, one of the most important types of biomolecules.
18. The study of biomolecules often requires the use of sophisticated analytical techniques such as mass spectrometry.
19. The folding and unfolding of a protein is a complex process that greatly affects the function of this biomolecule.
20. Carbohydrates are a biomolecule that is commonly found in many foods, including fruits and vegetables.
21. Synthetic biomolecules are increasingly being developed for a wide range of applications, including drug delivery and tissue engineering.
22. The interactions between different biomolecules can have a profound effect on the behavior of living systems.
23. Biomolecules can be classified into several broad categories based on their chemical structure and function.
24. The study of biomolecules is essential for understanding how living organisms function and evolve.
25. Many biomolecules are highly complex and require specialized equipment and techniques to study.
26. Proteins can be modified in many different ways, which can greatly affect their function as a biomolecule.
27. The study of biomolecules has important applications in a variety of fields, including medicine, agriculture, and energy.
28. Many biomolecules have specific structures and properties that are critical for their function in the body.
29. The synthesis of biomolecules is a complex process that often requires multiple steps and specialized reagents.
30. The properties of a biomolecule are often highly dependent on its structure and environment.
Common Phases
1.
Biomolecules are the building blocks of life;
2. The human body needs various types of
biomolecules for proper functioning;
3. Proteins, lipids, carbohydrates, and nucleic acids are the four major types of
biomolecules;
4.
Biomolecules have unique properties that allow them to carry out specific functions in the body;
5. Enzymes, hormones, and antibodies are examples of
biomolecules that play important roles in the body's processes;
6.
Biomolecules can be found in all living organisms, from the simplest single-celled organisms to the most complex multicellular organisms;
7. Studying
biomolecules can provide insight into the functioning of living organisms and can lead to the development of new therapies and treatments;
8. Changes in
biomolecule levels or structures can lead to disease or dysfunction in the body;
9. Research in biomolecular science is constantly evolving and advancing our understanding of life and its processes.