Animal Cells and Tissues PDF

Summary

This document provides detailed information about animal tissue types. It includes classifications of various tissues, such as epithelial, connective, muscle, and nervous. It also discusses the structure and functions of each type. The document is suitable for secondary school biology students.

Full Transcript

WEEK 6:
Animal Cells and Tissues
September 2024 | Prepared by: Daniel Lance R. Nevado
Organization of the Vertebrate Body
The vertebrate body has four levels of organization: (1) cells, (2) tissues, (3)
organs, and (4) organ systems.
Tissues – an organized groups of
cells that are similar in structure
and function.
Germ layers - the cells of the
growing embryo differentiate into
the three fundamental embryonic
tissues.
From the innermost to the
outermost layers, these are the
endoderm, mesoderm, and
ectoderm.
Organization of the Vertebrate Body
In adult vertebrates, there are four
principal kinds of tissues: (1) epithelial;
(2) connective tissue, (3) muscle
tissue, and (4) nerve tissue.
Organs and Organ System provide
specialized functions
Organs are body structures
composed of several different types
of tissues that form a structural and
functional unit.
An organ system is a group of organs
that cooperate to perform the major
activities of the body.
Epithelial Tissue
An epithelial membrane, or Epithelium forms a barrier
epithelium (plural, epithelia), covers Epithelial membranes thus provide a
every surface of the vertebrate body. barrier that can impede the passage
Epithelial membranes can come of some substances, while facilitating
from any of the three germ layers. the passage of others.
The epidermis, derived from The epithelial lining of the digestive
ectoderm, constitutes the outer tract, in contrast, must allow
portion of the skin. selective entry of the products of
An epithelium derived from digestion, while providing a barrier
endoderm lines the inner surface to toxic substances.
of the digestive tract, The epithelium of the lungs must
The inner surfaces of blood allow for the rapid diffusion of gases
into and out of the blood.
vessels derive from mesoderm.
Epithelial Regeneration Structure of Epithelial Tissue
Epithelium possesses remarkable Epithelial tissues attach to
regenerative powers, constantly underlying connective tissues by a
replacing its cells throughout the fibrous membrane.
life of the animal. The secured side of the epithelium is
This ability to regenerate is useful called the basal surface, and the
in a surface tissue because it free side is the apical surface.
constantly renews the surface
and also allows quick
replacement of the protective
layer should damage or injury
occur.
Cell junction in Animal
❑Tight Junctions: seal between
adjacent cells. Tight junctions between
skin cells make us watertight by preventing
leakage between cells in our sweat glands
❑Desmosomes (anchoring
junction)- function like rivets,
fastening cells together into
strong sheets. Sites of strong
cell adhesion.
❑Gap Junction: channels for
communication between
adjacent cells.
EPITHELIUM TISSUE

❑It is the tissue that covers the internal and
external surface throughout the body.
❑External - outer layer of skin
❑ Internal – lining of cavities such as the
digestive tract, airways, and blood vessel
etc.,
Epithelial types reflect their
function
Epithelial tissue are classified according
ff.
Number of cell layer:
▪ Simple epithelium- composed of
single layer of cells
▪ Stratified epithelium- composed of
multiple layer of cells
Shape of cell
▪ Squamous- flat shape
▪ Cuboidal- cube-like (about as tall
are they are wide)
▪ Columnar- Tube-like (taller than
they are wide)
Simple Squamous Epithelium
SIMPLE SQUAMOUS EPITHELIAL TISSUE
LOCATIONS|

Simple squamous epithelial tissue
a. Part of kidney
Simple squamous epithelial tissue of lungs (alveoli)
b. Outer layer of intestine
c. Cornea (part of eye)
Simple Cuboidal Epithelium
SIMPLE CUBOIDAL EPITHELIUM
Simple Columnar Epithelium
Simple columnar epithelial tissue of intestine
Simple columnar epithelial tissue of stomach
Stratified Squamous Epithelium
Stratified Cuboidal Epithelium
Stratified Columnar Epithelium
Pseudostratified Columnar Epithelium
Transitional Epithelium
Connective Tissue They have abundant extracellular
Connective tissues derive from material because their cells are spaced
widely apart.
embryonic mesoderm and occur in
many different forms.
Two major class of connective
Tissue:
connective tissue proper, which
further divides into loose ( fewer
fibers, more ground substance)
and dense connective tissues
(more fiber, less ground
substance)
special connective tissues, which
include cartilage, bone, and blood.
Connective Tissue They have abundant extracellular
Extracellular materials material because their cells are spaced
❑ Protein fibers widely apart.
❑ Collagen- (glue producing)-microscopic ropes that
are flexible but resist to stretching
❑ Elastic fiber- it is like coiled metal bed spring, after
being stretched they can recoil to their original
shape
❑ Ground substance- shapeless background against which
collagen fibers are embedded. Composed of
proteoglycans
❑ Cells of connective tissue
❑ Fibroblast- cells that form fibers and ground
substance (blast-produce, cyte-maintin, clast-
breakdown
❑ Mast cell- non-motile cells that release chemical
such as histamine
❑ Macrophages- large white blood cells (motile) that
ingest foreign substance including microorganism
❑ Adipocytes- fat cells
Function of Connective Tissue
❑ Enclosing and Separating tissue ❑ Storing compound
❑ Connective tissue separates ❑ Adipose fats stores high-energy
muscles, arteries, veins, and molecules and bones store
nerves from one another minerals (calcium and phosphate)
❑ Connecting tissue to one another ❑ Cushioning and insulating
❑ Tendons connects muscle and ❑ Adipose tissue protects the
bones together, ligaments that tissue and provide insulating
connect bone together layer beneath the skin.
❑ Supporting and moving parts of the
body
❑ Skeletal system of the body
provide a rigid support for body,
semi cartilage (nose, ears and
joints)
Function of Connective Tissue
❑ Enclosing and Separating tissue ❑ Storing compound
❑ Connective tissue separates ❑ Adipose fats stores high-energy
muscles, arteries, veins, and molecules and bones store
nerves from one another minerals (calcium and phosphate)
❑ Connecting tissue to one another ❑ Cushioning and insulating
❑ Tendons connects muscle and ❑ Adipose tissue protects the
bones together, ligaments that tissue and provide insulating
connect bone together layer beneath the skin.
❑ Supporting and moving parts of the
body
❑ Skeletal system of the body
provide a rigid support for body,
semi cartilage (nose, ears and
joints)
Loose and Dense Connective Tissue
Loose and Dense Connective Tissue

Ground
Substance
Loose Connective Tissue
Loose Connective Tissue
Loose Connective Tissue
Dense Connective Tissue
Special Connective Tissue: Cartilage
Special Connective Tissue: Cartilage
Special Connective Tissue: Bone
 Special Connective Tissue: Blood

Unique connective tissue because it matrix is liquid
allowing the cell to move through the vessels.
Muscle Tissue
Vertebrates possess three kinds of
muscle: smooth, skeletal, and cardiac
Skeletal and cardiac muscles are
also known as striated muscles
because their cells appear to
have transverse stripes when
viewed in longitudinal section
under the microscope.
The contraction of each skeletal
muscle is under voluntary
control, whereas the contraction
of cardiac and smooth muscles
is generally involuntary.
Muscle Tissue: Smooth Muscle
Muscle Tissue: Skeletal Muscle
Muscle Tissue: Cardiac Muscle
Nerve Tissue axon – single extension of
Cells include neurons and their cytoplasm that conducts impulses
supporting cells, called neuroglia. away from the cell body.
Neurons are specialized to produce
and conduct electrochemical events,
or impulses.
Most neurons consist of three parts:
a cell body, dendrites, and an axon.
cell body (soma) – contains the
nucleus.
Dendrites – thin, highly branched
extensions that receive incoming Two division
stimulation and conduct electrical of Nervous
impulses to the cell body. System
Nervous Tissue: Sensory Neurons
Nervous Tissue: Motor Neurons
Nervous Tissue: Interneurons
WEEK 6:
Animal Cells and Tissues
September 2024 | Prepared by: Daniel Lance R. Nevado