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Chapter 3 Objectives
In the late 1600s, Robert Hooke was looking through a
microscope at some plant tissue - cork. He saw some cubelike
structures that reminded him of the long rows of monk's rooms (or
cells) at the monastery, so he named these structures cells. The
living cells that had formed the cork were long since dead.
However, the name stuck and is still used to describe the unit, or
building block, of all living things, plants and animals alike. The
human body has trillions of these microscopic building blocks.
Objective Checklist
Cells
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Name the four elements that make up the bulk of living matter and list several
trace elements.
Define cell, organelle, and inclusion.
Identify on a cell model or diagram the three major cell regions (nucleus,
cytoplasm, and plasma membrane).
List the structures of the nucleus and explain the function of chromatin and
nucleoli.
Identify the organelles on a cell model or describe them, and discuss the major
function of each.
Define selective permeability, diffusion (including simple and facilitated diffusion
and osmosis), active transport, passive transport, solute pumping, exocytosis,
endocytosis, phagocytosis, bulk-phase endocytosis, hypertonic, hypotonic, and
isotonic.
Describe the structure of the plasma membrane, and explain how the various
transport processes account for the directional movements of specific substances
across the plasma membrane.
Describe briefly the process of DNA replication and of mitosis. Explain the
importance of mitotic cell division.
In relation to protein synthesis, describe the roles of DNA and of the three
varieties of RNA.
Name some cell types and relate their overall shape and internal structure to their
special functions.
Body Tissues
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Name the four major tissue types and their chief subcategories. Explain how the
four major tissue types differ structurally and functionally.
Give the chief locations of the various tissue types in the body.
Describe the process of tissue repair (wound healing).
Developmental Aspects of Cells and Tissues
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Define neoplasm, and distinguish between benign and malignant neoplasms.
Explain the significance of the fact that some tissue types (muscle and nerve) are
largely amitotic after the growth stages are over.
Copyright © 1995-2007, Pearson Education, Inc., publishing as Pearson Benjamin Cummings
Terms and Concepts
Cells
Interstitial fluid
Plasma membrane
Cytoplasm
Deoxyribonucleic acid
Nucleus
Nuclear envelope
Nuclear membrane
Nucleoplasm
Nuclear pores
Nucleoli
Ribosomes
Chromatin
Chromosomes
Plasma membrane
Cell membrane
Phospholipids
Cholesterol
Hydrophilic
Hydrophobic
Glycoproteins
Microvilli
Membrane junctions
Tight junctions
Desmosomes
Gap junctions
Connexons
Cytoplasm
Cytosol
Inclusions
Organelles
Mitochondria
Cristae
Ribosomes
Ribosomal rna
Endoplasmic reticulum (ER)
Rough ER
Transport vesicles
Smooth ER
Golgi apparatus
Secretory vesicles
Lysosomes
Peroxisomes
Oxidase
Free radicals
Catalase
Cytoskeleton
Intermediate filaments
Microfilaments
Microtubules
Centrioles
Mitotic spindle
Cilia
Flagella
Cell diversity
Cells that connect body parts
Fibroblast
Erythrocyte
Cells that cover and line body organs
Epithelial cells
Cells that move organs and body parts
Skeletal muscle
Smooth muscle
Cells that store nutrients
Fat cell
Cells fight disease
Macrophage (a phagocytic cell)
Cells that gather information and control body functions
Nerve cells (neuron)
Cells of reproduction
Oocyte
Sperm
Cell physiology
Membrane transport
Solution
Solvent
Solutes
Intracellular fluid
Interstitial fluid
Selective permeability
Passive transport
Diffusion
Concentration gradient
Simple diffusion
Osmosis
Facilitated diffusion
Filtration
Pressure gradient
Active transport
Solute pumping
Sodium potassium pump
Bulk transport
Exocytosis
Endocytosis
Phagocytosis
Pinocytosis
Receptor mediated endocytosis
Cell division
Cell life cycle
Interphase
Mitosis
Prophase
Metaphase
Anaphase
Telophase
Cytokinesis
Cleavage furrow
Protein synthesis
Gene
Enzymes
Fibrous proteins
RNA
Transfer RNA
Ribosomal RNA
Messenger RNA
Transcription
Triplet
Codon
Translation
Anticodon
Body Tissues
Epithelial Tissue
Apical surface
Basement membrane
Simple epithelium
Simple squamous epithelium
Serous membranes
Simple cuboidal epithelium
Simple columnar epithelium
Goblet cells
Mucosae
Pseudostratified columnar epithelium
Stratified epithelia
Stratified squamous epithelium
Stratified cuboidal epithelia
Stratified columnar epithelia
Transitional epithelium
Glandular epithelium
Gland
Secretion
Endocrine glands
Exocrine glands
Connective tissue
Extracellular matrix
Types of connective tissue
Bone
Cartilage
Hyaline cartilage
Fibrocartilage
Elastic cartilage
Dense connective tissue (dense fibrous tissue)
Tendons
Ligaments
Loose connective tissue
Areolar tissue
Adipose tissue
Reticular connective tissue
Stroma
Blood
Muscle tissue
Skeletal Muscle
Cardiac muscle
Intercalated disks
Smooth muscle
Nervous tissue
Neurons
Supporting cells
Tissue repair
Fibrosis
Neoplasm
Hyperplasia
Atrophy