Biochemistry For Dummies. John T. Moore

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Biochemistry For Dummies - John T. Moore


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to other disciplines within chemistry and biology

      Diving into water chemistry, including pH and buffers

      Brushing up on organic chemistry

      Biochemistry: What You Need to Know and Why

      IN THIS CHAPTER

      

Understanding the importance of biochemistry

      

Looking at the parts and functions of animal cells

      

Seeing the differences between animal and plant cells

      If you’re enrolled in a biochemistry course, you may want to skip this chapter and go right to the specific chapter(s) in which we discuss the material you’re having trouble with. But if you’re thinking about taking a course in biochemistry or just want to explore an area that you know little about, keep reading. This chapter gives you basic information about cell types and cell parts, which are extremely important in biochemistry.

      Sometimes you can get lost in the technical stuff and forget about the big picture. This chapter sets the stage for the details.

      We suppose the flippant answer to the question “Why biochemistry?” is “Why not?” or “Because it’s required.”

      When John learned about the minor structural difference between starch and cellulose, he remembers thinking, “Just that little difference in the one linkage between those units is basically the difference between a potato and a tree.” That fact made him want to learn more, to delve into the complexity of the chemistry of living things, to try to understand. We encourage you to step back from the details occasionally and marvel at the complexity and beauty of life.

      Biochemistry is the chemistry of living organisms. Biochemists study the chemical reactions that occur at the molecular level of organisms. Biochemistry is normally listed as a separate field of chemistry. However, in some schools it’s part of biology, and in others it’s separate from both chemistry and biology.

      Biochemistry really combines aspects of all the fields of chemistry. Because carbon is the element of life, organic chemistry (the study of carbon-based compounds) plays a large part in biochemistry. Many times, biochemists study how fast reactions occur — that’s an example of physical chemistry. Often, metals are incorporated into biochemical structures (such as iron in hemoglobin) — that’s inorganic chemistry. Biochemists use sophisticated instrumentation to determine amounts and structures — that’s analytical chemistry. And biochemistry is also similar to molecular biology; both fields study living systems at the molecular level, but biochemists concentrate on the chemical reactions that occur.

      Biochemists may study individual electron transport within the cell, or they may study the processes involved in digestion. If it’s alive, biochemists study it.

      Cells come in two types: prokaryotes and eukaryotes. (Viruses also bear some similarities to cells, but these similarities are limited. In fact, many scientists don’t consider viruses to be living things.) Prokaryotic cells are the simplest type of cells. Many one-celled organisms are prokaryotes.

      

The simplest way to distinguish between these two types of cells is that a prokaryotic cell contains no well-defined nucleus, whereas the opposite is true for a eukaryotic cell.

      Prokaryotes

Schematic illustration of prokaryotic cell.

      FIGURE 1-1: Simplified prokaryotic cell.

      Eukaryotes

Schematic illustration of an animal cell.

      FIGURE 1-2: Simplified illustration of an animal cell.

      The primary components of animal cells include

       Plasma membrane: This structure separates the material inside the cell from everything outside the cell. The plasma or cytoplasm is the fluid inside the cell. For the sake of the cell’s health, this fluid shouldn’t leak out. However, necessary materials must be able to enter through the membrane, and other materials, including waste, must be able to exit through the membrane. (Imagine what a cesspool that cell would become if the waste products couldn’t get out!) Transport through the membrane may be active or passive. Active transport requires that a price be paid for a ticket to enter (or leave) the cell. The cost of the ticket is energy. Passive transport


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