http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookAnimalTS.html#Table%20of%20Contents
ANIMAL TISSUE STRUCTURE
All vertebrates share the same basic body plan, with
similar tissue and organ that operate in much the same way. The micrograph show
a portion of the duodenum, part of digestive system, which is made up of
multiple types of tissue. Group of cells that are similar in structure and
function are organized into tissue. Early
in development, the cells of the growing embryo differentiate into three
fundamental embryonic tissue, called germ layers. From the innermost to the
outermost layers, these are the endoderm,
mesoderm and ectoderm. Each germ
layer, in turn, differentiates into the scores of different cell types and
tissues that are characteristic of the vertebrate body.
In
adult vertebrates, there are four principal kinds of tissues, or primary tissues: They are epithelial,
connective, muscle and nerve tissue, and each type.
3. the location and structure of endothelium and mesothelium.
4. the difference between endocrine versus exocrine glands.
Four fundamental characteristics of
epithelial tissue.
(1) densely packed cells joined by a variety of specialized intercellular
junctions
(2) form linings (sheets and layers) which exhibit polarity, i.e., epithelia have apical and basal surfaces
(3) the basal surface is attached to, and supported by, underlying connective tissue
(4) avascular (no direct blood supply)
(2) form linings (sheets and layers) which exhibit polarity, i.e., epithelia have apical and basal surfaces
(3) the basal surface is attached to, and supported by, underlying connective tissue
(4) avascular (no direct blood supply)
Eight types of epithelium,
distinguished by cell shape and pattern of layering.
(1) simple squamous
(2) simple cuboidal
(3) simple columnar
(4) pseudostratified
(5) stratified squamous
(6) stratified cuboidal
(7) stratified columnar
(8) transitional
(2) simple cuboidal
(3) simple columnar
(4) pseudostratified
(5) stratified squamous
(6) stratified cuboidal
(7) stratified columnar
(8) transitional
The three
arrangements of epithelial tissue by number of cell layers using correct
scientific terminology.
(1) simple - one cell layer thick
(2) pseudostratified - more than one cell layer thick
(3) stratified - appears in the microscope as if multiple layers were present, but actually only one cell layer present, cells of different height
(2) pseudostratified - more than one cell layer thick
(3) stratified - appears in the microscope as if multiple layers were present, but actually only one cell layer present, cells of different height
The four shapes of epithelial cells using correct scientific terminology.
(1) squamous - flat
(2) cuboidal - about as wide as tall
(3) columnar - tall narrow cells
(4) transitional - cells that change shape depending on whether the tissue is relaxed or stretched
(2) cuboidal - about as wide as tall
(3) columnar - tall narrow cells
(4) transitional - cells that change shape depending on whether the tissue is relaxed or stretched
Explain or describe:
Classify the various epithelial
tissues by shape and layers. Describe at least one function and location in the
body for each type of epithelium
|
Epithelial
Tissue Type
|
Example
of a Location and Function
|
|
simple squamous
|
alveolar lining - gas exchange;
parietal wall of nephron capsule - lining; visceral wall of glomerulus -
plasma filtration to make urine
|
|
simple cuboidal
|
ducts of salivary glands,
pancreatic acinar glands - delivery of exocrine secretion; proximal and
distal convoluted tubules in kidneys - urine formation
|
|
simple columnar
|
stomach and intestinal linings -
digestion and absorption of nutrients
|
|
pseudostratified
|
trachea & bronchi - mucous
traps dust and microbes
|
|
stratified squamous
|
skin, oral and nasal cavities,
vagina, distal urethra - protective linings
|
|
stratified cuboidal
|
ureters and proximal urethra -
protective linings
|
|
stratified columnar
|
pharynx, male urethra, some
glandular ducts (minor component in each case) - transitional zone within
protective linings
|
|
transitional
|
urinary bladder - extensible
protective lining
|
3. the location and structure of endothelium and mesothelium.
|
|
Location
|
Structure
|
|
Endothelium
|
interior lining of heart chambers
and blood vessels
|
simple squamous epithelium
|
|
Mesothelium
|
interior lining of sterile body
cavities; serous membranes of pericardial, pleural and abdominal cavities;
lining of chambers housing and circulating cerebrospinal fluid (CSF)
|
simple squamous epithelium
|
4. the difference between endocrine versus exocrine glands.
|
Endocrine
Glands
|
Exocrine
Glands
|
|
Their secretions are carried away
from the glands by the blood stream.
|
Their secretions are carried away
from the glands in ducts.
|
|
Their secretions are delivered to
internal target tissues and organs.
|
Their secretions are delivered to
body surfaces, either mucous membranes or the skin.
|
|
Their secretions are internal
regulatory substances.
|
Their secretions have a variety of
functions, but they are not internal regulatory substances.
|
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