1. Cells and Tissues

2. Protein Synthesis
Gene—DNA segment that carries a blueprint for building one protein
Proteins have many functions
Building materials for cells
Act as enzymes (biological catalysts)
RNA is essential for protein synthesis

3. Role of RNA Transfer RNA (tRNA)
Transfers appropriate amino acids to the ribosome for building the protein
Ribosomal RNA (rRNA)
Helps form the ribosomes where proteins are built
Messenger RNA (mRNA)
Carries the instructions for building a protein from the nucleus to the ribosome

4. Transcription and Translation
Transfer of information from DNA’s base sequence to the complimentary base sequence of mRNA
Three-base sequences on mRNA are called codons

5. Transcription and Translation
Base sequence of nucleic acid is translated to an amino acid sequence
Amino acids are the building blocks of proteins

6. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
mRNA leaves nucleus and attaches to ribosome, and translation begins
Synthetase enzyme
Amino acids
Cytoplasm (site of translation )
Correct amino acid attached to each species of tRNA by an enzyme
Growing polypeptide chain
Nuclear pore
Nuclear membrane
mRNA
As the ribosome moves along the mRNA, a new amino acid is added to the growing protein chain
Released tRNA reenters the cytoplasmic pool, ready to be recharged with a new amino acid
Direction of ribosome advance; ribosome moves the mRNA strand along sequentially as each codon is read
Small ribosomal subunit
Portion of mRNA already translated
tRNA “head” bearing anticodon
Large ribosomal subunit
Peptide bond
Incoming tRNA recognizes a complementary mRNA codon calling for its amino acid by binding via its anticodon to the codon
Codon
Ala
Phe
Ser
Gly
Met C G U A
Figure 3.16

7. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
Cytoplasm (site of translation )
Nuclear pore
Nuclear membrane
mRNA
Figure 3.16, step 1

8. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
mRNA leaves nucleus and attaches to ribosome, and translation begins
Cytoplasm (site of translation )
Nuclear pore
Nuclear membrane
mRNA
Small ribosomal subunit
Large ribosomal subunit
Codon U G C A
Figure 3.16, step 2

9. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
mRNA leaves nucleus and attaches to ribosome, and translation begins
Synthetase enzyme
Amino acids
Cytoplasm (site of translation )
Correct amino acid attached to each species of tRNA by an enzyme
Nuclear pore
Nuclear membrane
mRNA
Small ribosomal subunit
Large ribosomal subunit
Codon U G C A
Figure 3.16, step 3

10. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
mRNA leaves nucleus and attaches to ribosome, and translation begins
Synthetase enzyme
Amino acids
Cytoplasm (site of translation )
Correct amino acid attached to each species of tRNA by an enzyme
Nuclear pore
Nuclear membrane
mRNA
Small ribosomal subunit
tRNA “head” bearing anticodon
Large ribosomal subunit
Incoming tRNA recognizes a complementary mRNA codon calling for its amino acid by binding via its anticodon to the codon
Codon U G C A
Figure 3.16, step 4

11. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
mRNA leaves nucleus and attaches to ribosome, and translation begins
Synthetase enzyme
Amino acids
Cytoplasm (site of translation )
Correct amino acid attached to each species of tRNA by an enzyme
Growing polypeptide chain
Nuclear pore
Nuclear membrane
mRNA
As the ribosome moves along the mRNA, a new amino acid is added to the growing protein chain
Direction of ribosome advance; ribosome moves the mRNA strand along sequentially as each codon is read
Small ribosomal subunit
tRNA “head” bearing anticodon
Large ribosomal subunit
Peptide bond
Incoming tRNA recognizes a complementary mRNA codon calling for its amino acid by binding via its anticodon to the codon
Codon
Ala
Phe
Ser
Gly
Met C G U A
Figure 3.16, step 5

12. Nucleus (site of transcription) Cytoplasm (site of translation
Protein Synthesis
Nucleus (site of transcription)
DNA
mRNA specifying one polypeptide is made on DNA template
mRNA leaves nucleus and attaches to ribosome, and translation begins
Synthetase enzyme
Amino acids
Cytoplasm (site of translation )
Correct amino acid attached to each species of tRNA by an enzyme
Growing polypeptide chain
Nuclear pore
Nuclear membrane
mRNA
As the ribosome moves along the mRNA, a new amino acid is added to the growing protein chain
Released tRNA reenters the cytoplasmic pool, ready to be recharged with a new amino acid
Direction of ribosome advance; ribosome moves the mRNA strand along sequentially as each codon is read
Small ribosomal subunit
Portion of mRNA already translated
tRNA “head” bearing anticodon
Large ribosomal subunit
Peptide bond
Incoming tRNA recognizes a complementary mRNA codon calling for its amino acid by binding via its anticodon to the codon
Codon
Ala
Phe
Ser
Gly
Met C G U A
Figure 3.16, step 6

13. Body Tissues
Tissues
Groups of cells with similar structure and function
Four primary types
Epithelial tissue (epithelium)
Connective tissue
Muscle tissue
Nervous tissue

14. Epithelial Tissues Locations Body coverings Body linings
Glandular tissue
Functions
Protection
Absorption
Filtration
Secretion

15. Epithelium Characteristics
Cells fit closely together and often form sheets
The apical surface is the free surface of the tissue
The lower surface of the epithelium rests on a basement membrane
Avascular (no blood supply)
Regenerate easily if well nourished

16. Epithelium Characteristics
Figure 3.17a

17. Classification of Epithelia
Number of cell layers
Simple—one layer
Stratified—more than one layer
Figure 3.17a

18. Classification of Epithelia
Shape of cells
Squamous
flattened
Cuboidal
cube-shaped
Columnar
column-like
Figure 3.17b

19. Simple Epithelia Simple squamous Single layer of flat cells
Usually forms membranes
Lines body cavities
Lines lungs and capillaries

20. Simple Epithelia
Figure 3.18a

21. Simple Epithelia Simple cuboidal Single layer of cube-like cells
Common in glands and their ducts
Forms walls of kidney tubules
Covers the ovaries

22. Simple Epithelia
Figure 3.18b

23. Simple Epithelia Simple columnar Single layer of tall cells
Often includes mucus-producing goblet cells
Lines digestive tract

24. Simple Epithelia
Figure 3.18c

25. Simple Epithelia Pseudostratified columnar
Single layer, but some cells are shorter than others
Often looks like a double layer of cells
Sometimes ciliated, such as in the respiratory tract
May function in absorption or secretion

26. Simple Epithelia
Figure 3.18d

27. Stratified Epithelia Stratified squamous
Cells at the apical surface are flattened
Found as a protective covering where friction is common
Locations
Skin
Mouth
Esophagus

28. Stratified Epithelia
Figure 3.18e

29. Stratified Epithelia Stratified cuboidal—two layers of cuboidal cells
Stratified columnar—surface cells are columnar, cells underneath vary in size and shape
Stratified cuboidal and columnar
Rare in human body
Found mainly in ducts of large glands

30. Stratified Epithelia Transitional epithelium
Shape of cells depends upon the amount of stretching
Lines organs of the urinary system

31. Stratified Epithelia
Figure 3.18f

32. Glandular Epithelium Gland
One or more cells responsible for secreting a particular product

33. Glandular Epithelium Two major gland types Endocrine gland
Ductless since secretions diffuse into blood vessels
All secretions are hormones
Exocrine gland
Secretions empty through ducts to the epithelial surface
Include sweat and oil glands