Science Workbook
Cell Structure Lesson
Day 1
Cells Day 1
Inquiry Lab: Is It Alive?
Sometimes, it is difficult to tell living things from nonliving things. To be considered alive, something must have all of the characteristics of life.
Procedure
1.With your group, discuss some characteristics you could look for to tell whether something is living or nonliving.
2.Examine an assortment of objects given to you by your teacher.
3.Make a table that has three columns. In the first column, describe each of the objects. In the second column, state whether each object is living or nonliving.
4.In the third column, write down the characteristics of life that you observed in each object.
Analysis
1.Identify characteristics of life that are difficult to see during a brief observation like this one.
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2.Identify an object or material (not necessarily among your samples) that undergoes growth but that has never been alive.
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Science Workbook
Cell Structure Lesson
Introduction to Cells
After reviewing the list of objects you compiled in the Is It Alive? Lab, work with a partner and make two new lists: those items comprised of cells and those items not comprised of cells. Give a rationale for each answer.
Cells / No CellsReference: Units of length
Reference: Cell size
BIG IDEAS READING
The Discovery of Cells
In 1665, Robert Hooke, an English scientist, used a crude microscope to look at a thin slice of cork. His microscope could magnify objects to only 30 times their normal size. Hooke saw many “little boxes” in the cork. They reminded him of the small rooms in which monks lived, so he called them cells. Hooke later discovered cells in the stems and roots of plants. Ten years later, Anton van Leeuwenhoek, a Dutch scientist, used a more powerful microscope that could magnify objects 300-fold. He discovered many living creatures in pond water. He named them animalcules, or “tiny animals.” Today, we know that they were not animals. They were single-celled organisms.
Cell Theory It took more than 150 years for scientists to fully appreciate the discoveries of Hooke and Leeuwenhoek. By the 1830s, microscopes were powerful enough to resolve structures only 1 µm apart. In 1838, Matthias Schleiden, a German botanist, concluded that cells make up every part of a plant. A year later, Theodor Schwann, a German zoologist, discovered that animals are also made up of cells. In 1858, Rudolph Virchow, a German physician, proposed that cells come only from the division of existing cells. The observations of Schleiden, Schwann, and Virchow form the cell theory:
• / All living things are made up of one or more cells.• / Cells are the basic units of structure and function in organisms.
• / All cells arise from existing cells.
The cell theory has withstood the rigorous examination of cells by scientists equipped with today’s high-powered microscopes. As new tools and techniques are invented, scientists will learn more about the characteristics of cells.
What they areREALLYsaying is ___?
Use the space below to provide a short description of what each of the sections from the Big Ideas Readingis REALLY saying. Please write these summaries in your own words.
Section # / What they are REALLY saying…in your words1: The Discovery of Cells
2: Cell Theory
BIG IDEAS READING
Cell FeaturesAll cells—from bacteria to those in a berry, bug, or bunny—share common structural features. All cells have a cell membrane, cytoplasm, ribosomes, and DNA. The cell membrane is the cell’s outer boundary. It acts as a barrier between the outside environment and the inside of the cell. The cytosol, the fluid inside the cell, is full of dissolved particles. The cytoplasm includes this fluid and almost all of the structures that are suspended in the fluid. Many ribosomes are found in the cytoplasm. A ribosome is a cellular structure on which proteins are made. All cells also have DNA, the genetic material. DNA provides instructions for making proteins, regulates cellular activities, and enables cells to reproduce.
Features of Prokaryotic Cells The bacterium shown in the figure below is an example of a prokaryote, an organism that is a single prokaryotic cell. A prokaryotic cell is quite simple in its organization. The genetic material is a single loop of DNA, which looks like a tangled string and usually lies near the center of the cell. Ribosomes and enzymes share the cytoplasm with the DNA.
Image Caption: The cytoplasm of a prokaryotic cell is made up of everything that is inside the cell membrane, including ribosomes and a loop of DNA.
Prokaryotic cells have a cell wall that surrounds the cell membrane and that provides structure and support. Some prokaryotic cell walls are surrounded by a capsule, a structure that enables prokaryotes to cling to surfaces, including teeth, skin, and food.Scientists think that the first prokaryotes may have lived 3.5 billion years ago or more. For millions of years, prokaryotes were the only organisms on Earth. They were very simple and small (1 to 2 µm in diameter). Like their ancestors, modern prokaryotes are also very small (1 to 15 µm), and they live in a wide range of habitats. Prokaryotes make up a very large and diverse group of cells.
Features of Eukaryotic Cells A eukaryote is an organism that is made up of one or more eukaryotic cells. Some eukaryotes live as single cells. Others are multicellular organisms. In fact, all multicellular organisms are made up of eukaryotic cells.Because oftheir complex organization, eukaryotic cells can carry out more specializedfunctions than prokaryotic cells can.
Primitive eukaryotic cells first appeared about 1.5 billion years ago. As shown in the animal cell in the figure below, a eukaryotic cell contains compartments that are separated by membranes. The cell’s DNA is housed in an internal compartment called the nucleus.
- Image Caption: The cytoplasm of a eukaryotic cell is made up of many different structures that are surrounded by membranes.
In addition to having a membrane, cytoplasm, ribosomes, and a nucleus, all eukaryotic cells have membrane-bound organelles. An organelle is a structure that carries out specific activities inside the cell. The animal cell in the figure above shows many of the organelles found in eukaryotic cells. Each organelle performs distinct functions. Many organelles are surrounded by a membrane. Some of the membranes are connected by channels that help move substances within the cell.
What they areREALLYsaying is ___?
Use the space below to provide a short description of what each of the sections from the Big Ideas Reading is REALLY saying. Please write these summaries in your own words.
Section # / What they are REALLY saying…in your words1: Cell Features
2: Features of Prokaryotic Cells
3: Features of Eukaryotic Cells
BIG IDEASLECTURE
As the teacher lectures, use the space below to take notes.
Questions(write down any questions you may have here) / Notes
(Place your notes here)
CELL MEMBRANE =
CYTOPLASM =
RIBOSOME =
PROKARYOTE =
EUKARYOTE =
NUCLEUS =
ORGANELLE =
DNA =
Day 1 Review
Using what you have written in your notebook today, answer the following review questions in the space provided…
- List the three parts of cell theory.
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- Describe the importance of a cell’s surface area-to-volume ratio.
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- Comparethe structure of a eukaryotic cell with that of a prokaryotic cell.
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Cells Day 1
Homework
Section: Introduction to Cells
In the space provided, write the letter of the description that best matches
each term.
____1.cell membrane
____2.cytoplasm
____3.nucleus
____4.ribosome
Write ctnext to all of the statements that are part of the cell theory. Leave the other statements blank.
____5.Cells come in many different sizes.
____6.All cells arise from existing cells.
____7.A cell’s shape reflects its function.
____8.All living things are made up of one or more cells.
____9.Cells are the basic units of structure and function in organisms.
In the space provided, write the letter of the phrase that best answers each question.
____ 10. Who first discovered cells?
a.scientists who wanted to confirm the cell theory
b.scientists looking at skin cells through microscopes
c.scientists looking at living plants through microscopes
d.scientists looking at cork and pond water through microscopes
____ 11. Why can eukaryotes carry out more specialized functions than prokaryotes can?
a.Eukaryotes have more organelles.
b.Prokaryotes have more organelles.
c.Eukaryotes are bigger.
d.Prokaryotes are bigger.
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