1. Organelles

2. An organelle is a specialized subunit
within a cell that has a specific
function, and is usually separately
enclosed within its own lipid bilayer.

4. Components of the Nucleus

5. Nuclear Envelope
 Membrane of the nucleus
 Consist of two lipid bilayers folded together as a single
membrane
 Different kinds of membrane proteins are embedded in
the two lipid bilayers. Some are receptors and
transporters.
 Fibrous proteins that attach to the inner surface of the
nuclear envelope anchor DNA molecules and keep
them organized. During cell division, these proteins help
the cell parcel out the DNA into its offspring.

6. Chromosomes
 Chromatin is the name for all of the DNA, together with its
associated proteins, in the nucleus.
 Each molecule of DNA, together with its many attached
proteins, is called a chromosome.
 Do you know that chromosomes change in appearance
over the lifetime of a cell ?

7. MITOCHONDRIA

8. The energy mechanism !!
 We all know that every action requires energy
 This energy is stored in the form of ATP.(ADENOSINE It
is produced in the mitochondria through the process of
oxidative phosphorylation.
 THEY ARE FOUND IN HIGH CONCENTRATIONS IN THE
MUSCLE CELLS THAT REQUIRE MORE ENERGY.
Although the primary function of mitochondria is to
produce energy, they also play an important role in the
metabolism and synthesis of certain other substances in
the body

9. NEWSPAPER ARTICLE 1-
Scientists at the University of California in Davis (UCD) demonstrate
in a new study that children with autism are also highly likely to
suffer from defects in their mitochondria, which are structures
generally refer to as the “power plants” of the cell.
 JUST LIKE HOW THE BRAIN IS THE 2ND –LARGEST ENERGY
CONSUMING ORGAN it stands to reason that not
providing sufficient FUEL(ENERGY) for neurons to function
properly may lead to impaired capabilities and AUTISM is
the physical CAUSE Of this neural “starvation.”
 According to this report Children with mitochondrial
diseases may present exercise intolerance, seizures and
cognitive decline, among other conditions
 evidence of mitochondrial dysfunction and changes in
mitochondrial DNA were detected in the blood of these
young children with autism.

10. CURING MIROCHONDRIAL DEFECTS
!!!!!!
 TO DIAGONISE mitochondrial dysfunction WE NEED TO
CARRY OUT A MUSCLE BIOPSY !
 ARGHHHHHHHHHHHH WHATS THAT ! ????????????????
 a muscle biopsy is a procedure in which a piece of muscle
tissue is removed from an organism and examined
microscopically. A biopsy needle is usually inserted into a
muscle, where a small amount of tissue remains
 A muscle biopsy can lead to the discovery of problems with
a nervous system, which leads us to knowing the problems
that has occurred in our body due to the defects in the
mitochondria.

12. The Endomembrane System
 A series of interacting organelles between the nucleus
and the plasma membrane
 Main function : Make lipids, enzymes, and proteins for
secretion or insertion into cell membranes. Also destroys
toxins and recycle wastes.

13. Endoplasmic Reticulum (ER)
 An extension of the nuclear envelope
 Forms a continuous compartment that folds over and
over into flattened sacs and tubes
 There are two types ;
1. Rough ER
2. Smooth ER

14. Vesicles
 Small, membrane-enclosed, sac-like organelles. Form in
great numbers, in a variety of types.
 Transports substances from one organelle to another, or to
and from the plasma membrane.
 Others, like peroxisomes, contains enzymes that digest fatty
acids and amino acids. Can also inactivate hydrogen
peroxide, a toxic by-product of fatty acid breakdown.
 Later, enzymes in the peroxisomes convert hydrogen
peroxide to water and oxygen or they use it in reactions that
break down alcohol and other toxins.

15. DO YOU KNOW?
 Drink alcohol, and the peroxisomes in your liver and
kidney cells degrade nearly half of it !!

16. Peroxisomes
• Organelle with multifaceted functions
• Responsible for a multitude of metabolic functions within cells.
• They contain over 50 different functional enzymes capable of
forming highly variable structures adapted to the specific needs of
the organism.
• One of the most important features of peroxisomes is the spatial
isolation (compartmentalization) of metabolic pathways in which
poisonous hydrogen peroxide is formed.
• Its destruction therefore is one of the most important functions of
the peroxisomes.

17. • Because hydrogen peroxide is harmful to the cell, peroxisomes also
contain the enzyme catalase, which decomposes hydrogen peroxide
either by converting it to water or by using it to oxidize another organic
compound.
• A variety of substrates are broken down by such oxidative reactions in
peroxisomes, including uric acid, amino acids, and fatty acids.
• The oxidation of fatty acids is a particularly important example, since it
provides a major source of metabolic energy. In animal cells, fatty acids
are oxidized in both peroxisomes and mitochondria, but in yeasts and
plants fatty acid oxidation is restricted to peroxisomes.

18. Assembly of Peroxisomes

19. Peroxisomal disorders
 Illnesses due to peroxisomal defects are usually fatal
 Zellweger Spectrum
 So severe that the patients die during infancy

20. PROTEIN SYNTHESIS MECHANISM – THE
RIBOSOMES
 Ribosomes are organelles that consist of RNA and
proteins. They are responsible for assembling the
proteins of the cell.
 Depending on the protein production level of a
particular cell, ribosomes may number in the millions.

21. The protein making mechanism
 A ribosome is a component of cells that assembles
the twenty specific amino acid molecules to form the
particular protein molecule determined by
the nucleotide sequence of an RNA molecule.
 THE CENTRAL DOGMA OF BIOLOGY – we learned thIs
! REMEMBER !!!!

22. Diamond blackfan Anemia
 Diamond Blackfan anemia (DBA) is an inherited red cell
aplasia caused by mutations in one of several r-proteins.
 One of the proteins would be the RPS19 protein.
 The RPS19 protein is involved in the production
of RIBOSOMES. As such, loss of RPS19 function would be
predicted to affect translation and Protein biosynthesis and
have a much broader impact.
 Disease features may be related to the nature of
RPS19 mutations.
 The disease is characterized by dominant inheritance, and
therefore arises due to a partial loss of RPS19 protein
function

23. Lysosomes
 Vesicles that contain powerful digestive enzymes.
 Serve as waste disposal and recycling centers
 Enzymes inside them break large molecules into smaller
subunits that the cell can use as building material or
eliminate.
 Different kinds of molecules are broken down by different
lysosomal enzymes

24. Lysosome malfunction
 In some people, a
genetic mutation
causes a deficiency
or malfunction in one
of the lysosomal
enzymes
 As a result, molecules
that would normally
get broken down
accumulate instead.

30. Tay-Sachs Disease
 Enzyme responsible for ganglioside break-down misfolds and
is destroyed
 Usually, affected infants seem normal for the first few months
 Symptoms begin to appear as ganglioside accumulate
higher and higher levels inside their nerve cells
 Within 3 to 6 months, the child becomes irritable, listless and
may have seizures. Blindness, deafness and paralysis follow.
 Affected children usually die by the age of 5

31. Treatment
 Options for treatment are still ongoing.
 Potential therapies involve blocking ganglioside synthesis
or using gene therapy to deliver a normal version of the
missing enzyme to the brain.
 All treatments are still considered experimental, and Tay-
Sachs is still incurable

32. Golgi apparatus
 it was identified in 1898 by the Italian physician Camillo
Golgi, after whom the Golgi apparatus is named.
 It processes and packages proteins after their synthesis
and before they make their way to their destination; it is
particularly important in the processing of proteins
for secretion.
 Due to its fairly large size, the Golgi apparatus was one of
the first organelles to be discovered and observed in
detail.

33. Interesting facts
 Due to its fairly large size, the Golgi apparatus was one of
the first organelles to be discovered and observed in
detail.
 Golgi apparatus during mitosis
 In animal cells, the Golgi apparatus will break up and
disappear following the onset of mitosis or cellular
division. During the telophase the Golgi apparatus
reappears; however, it is still uncertain how this occurs.

34. Science news article : Artificial Golgi may provide
new insight into key cell structure
 Scientists in new york and north carolina have reported to
have assembling the first functioning prototype of an
artificial golgi organelle.
 This key structure inside the cell helps to process and
package hormones , enzymes and other substances that
allow the body to function normally.-hence it works
exactly like the real golgi apparatus in our body.
 This lap-on-a-chip device could lead to a faster and safer
method in producing heparin.
 WHAT IS HEPARIN ? I WILL EXPLAIN !!!

35. CONTINUING….
 This device ahs also been tested in labs and it has said to
have quickly and efficiently produced heparin.
 It did so in as assembly line fashion which was tested using a
combination of enzymes, sugars and other raw materials.
 During this experiment it was shown that this device has a
strong clot fighting potential.
 It is believed that in the future, In the case of an golgi
apparatus defect in an individual this “artificial golgi” could
lead to a faster and safer method for producing heparin.

37. Plastids
 Membrane-enclosed organelles that function in
photosynthesis or storage in plants and algal cells.
 Common types ; chloroplasts, chromoplasts and
amyloplasts
 Chloroplasts are found in photosynthetic cells of plants
and many protists.

38. Credits
 ARCHPEDIATRICS.com
 http://www.ismrd.org/the_diseases/storage_in_lysosomal
_diseases
 http://www.mun.ca/biology/scarr/iGen3_04-05.html
 http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2829960/