Bio PDF - Microscope Images & Cell Structure

Summary

This document describes various microscopy techniques and cell structures. It includes diagrams of light, scanning electron, and transmission electron microscopes. It provides introductory information about cell organelles and their functions.

Full Transcript

Chapter 2
microscope image light microscope :
coloured image
only nucleus, chloroplast(chlorophyll),
vacuole, cell wall can be seen
1600x

Q) discuss briefly the impact of the advance
in microscopy of the study of cells
Electron microscope produces image with
higher magnification and resolutions. This
enable scientist to discover the structure of
cell organelles.

Scanning electron microscope:
3D external structure
200000x
Transmission electron microscope :
2D internal structure
1500000x
operating the light microscope add iodine solution to stain the
Inverted image specimen
→ to make the cell structure more distinct/
visible

To observe more cells within the field
of view
→ reduce the distance between the slide and
the objective
Raise the stage/lower the body tube
by turning the course at Jasmine until
the object is at the position closest to
the slide
Step for focusing from low power to
high power :
1.Focus with a lower power objective
2. The field with the low power objective by
turning the course adjustment knob/fine
adjustment knob
3. Adjust the position of the slideuntil it is
located in the centre of the field
4. Focus with a high-power objective by
turning the nosepiece
6. Turn the fine adjustment to get a sharp
focus
5.Adjust the source to brighten the view if
necessary ( diaphragm/ condenser)
(6-7) keep watching the stage from the side.
raise the stage by turning the course
adjustment up until the object nearly touches
the slide look through the focused image by
turning the fine adjustment knob. Adjust the
source to brighten the view if necessary

Blurred to sharp
→rotate the fine adjustment knob to get a
 sharper focus

cell structure label questions :
small particles → ribosome
Endoplasmic reticulum (x rought / smooth)

Finding out the organelles by the type
of cell:
1.X is organelle name (1)
2.What is the cell responsible for/the function
of the cell.(1)
3.abundant of organelles was found for
function of the organelles (1)
4.function of other type of cells, so the don’t
have much organelle X (1)
＊＊show comparison

Finding out the type of cell by number
of organelles
1.Z is most likely to be a xxxx cell (1)
2.It has large amount of organelle to function
(1)

Similarities and differences
Both of them xxxxxx
Z cell has vvvvv but S cell does not

abundance of organelles in different type of
cells
eukaryotic and prokaryotic

Chapter 3
membrane structure and the permeability whole cell membrane :
Q1) state the components:
Phospholipid can move laterally

Q2) to describe the cell membrane
Phospholipid → arrange into a bilayer
structure. The hydrophobic tails point
inwards. The hydrophilic head points
outwards to the bathroom solution and point
inward to the cytoplasm
Protein → among the phospholipid bilayer
Q3) explain the arrangement of phospholipid
The hydrophilic tails point inwards as they are
repelled by the aqueous solution
The hydrophilic head point outwards towards
bathing solution as it dissolves with the
aqueous solution inside and outside of the
cell

Q4) explain how protein and phospholipid
affect the permeability of the cell membrane
to different substances
Phospholipid bilayer allows fat soluble
molecules/hydrophobic/nonpolar molecules to
diffuse more readily across membranes(1)
Samall charged molecules can dissolve in
your hydrophobic zone and diffuse freely
through the phospholipid layer.(1)
The hydrophobic in the stone forms a barrier
to those molecules which are
polar/hydrophilic/ions(1)
Chan protein for open pores for diffusion of
ions and polar substances(1)
Carrier proteins find with specific molecules
and bring them to the opposite side of the
membrane(1)
Carrier protein can facilitate diffusion of some
molecules e.g. glucose (1)
Carrier protein allows active transport of
molecules(1)
ATPase catalyses the hydrolysis of ATP to
liberate energy for active transport (1)

Phospholipid and the permeability of the
membrane :
Q)The phospholipid arranges tail to tail to
form a bilayer (1)
It allows lipid soluble/ non-polar substances
to go through as they dissolve in the
hydrophobic zone of the bilayer. (1)
The hydrophobic tails of the phospholipid
molecules point inwards (1)
Forming a inner hydrophobic zone (1)
Which acts as a barrier, and the membrane
and permeable to charge molecules (1)

Protein :
 **transport by carrier/channel protein is
undirectional

permeability and property of the cell property:
membrane 1. Flexible
→ the phospholipid and protein molecules
can move about slightly
→ the cell membrane can break and fuse to
change shape during cell division and growth

2. The cell membrane is differentially
permeable
→the core the of the membrane is
water+hating

Describe and explain how oxygen and
sodium ions are transported through the
artificial or cell membrane
Q1) Oxygen molecules are nonpolar and
small. To solve and hydrophobic sound in the
phospholipid the bilayer. Pass through both
 membranes at the same rate. Sodium irons
are charged and they are repelled by the
bilayer and cell membrane. They can be
transported by channel or carrier proteins. As
these proteins are absent and artificial
membrane, it cannot move across the
membrane

Movement of substances across the
membrane:

Factors that affect the permeability of the cell
membrane
1. Temperature
2. Organic solvents e.g. ethanol and
alcohol →phospholipid of the
membrane dissolve in organic
solvents. The cell membrane and
vacuole would be damage
→（release pigmanet and colour intensity )

Fluid mosaic model Q1)draw the fluid mosaic model :

Q2)Justify/ explain the model
Fluid → the phospholipid can move
laterally
Mosaic → protein interpose on the surface
of the membrane in a mosaic pattern in an
 asymmetrical manner

diffusion definition:net movement of particles
down the concentration gradient

Evenly distributed/reached equilibrium
→no net movement but still move randomly

Exchange of materials
→obtain useful and remove waste (gas
exchange )

Absorption of nutrition

osmosis water potential= solute concentration+
hydrostatic pressure
→it is the tendancy for water molecules to
move from one place to another
→more solute, stronger attraction between
solute and water molecules, decreases water
potential

Molecules are too large to pass
through

It requires a differentially permeable
membrane

Q1)State the change in water level in
the dialysis tubing and explain
Water level of dialysis tubing rises.
The water potential of the distilled water is
higher than that of 20% sucrose solution.
There is a net movement of water molecules
from water to sucrose solution a differentially
permeable membrane by osmosis.
 Q2)Why did the water level stop
moving
As water enters the dialysis tubing, this
increases the water level and it creates
hydrostatic pressure which stops the
movement of water molecules from further
entering the tube.
the water potential of warer inside and
outside tube are the same/They have
reached equilibrium
There will not be any more net movement of
water molecules. So the water stops moving.

Ways the increase the rate of rise of
water level in the capillary tube
1. Raise the water level to 30 C
2. Use a capillary tube with a smaller
internal diameter
3. Use a longer piece of dialysis tubing
→increase surface area
4.

What can be deduced from the result
1. the water potential outside the dialysis
tuning is higher than that of inside the
tube
2. Solute if the solution in the dialysis
tubing cannot pass through the
diaysis tuning

Conclusions that we can draw from
the result
1. There is a net movement of water into
the dialysis tubing

Q3)describe and explain
1. It starts rising at ＿
2. The slope is getting less steep
3. It stops rising in point ＿
（describe)
As small water molecules enter 20%
sucrose solution
→the water potential gradient between
sucrose solution and distilled water
decreases
→the slope decreases over time
→rate of osmosis decreases
(Explain )

Q4) to deduce the value of water
potential of (b) with reasons
As the water level stops increasing
→ water potential gradient doesn’t exist
between the bathing solution and the 10%
sucrose solution
→ as the water potential of distilled water is
zero, the water potential in the dialysis to
tubing is 0 as well

Q5) explain why water level stops
further moving after it reached
equilibrium state
To increase water level in the capillary tubes
create a hydrostatic pressure which prevents
further net movement of water molecules into
the dialysis tubing
 Q6)state the difference of the two
curves
30% has a steeper slope and its curve is
higher

Q7)state the difference between two
slopes and explain
The slope is steeper for 40° C
When temperature increases, it increases the
kinetic energy of water molecules.
Water molecules will move faster.
This will increase the rate of osmosis.
It takes less time to reach equilibrium
potato
reason :The skin of the potato acts asa
barrier to water/the skin after potato is in
permeable to water. Therefore, no water
movement will occur.

State the difference and explain :
The slope is steeper in (3) than (2)
The rate of osmosis is faster because there is
a larger surface area for osmosis to take
place
Q8)Explain the change in (a)
As the potato is boiled, the cell membrame
becomes fully permeable.
There is a net movement of water molecules
diffuse into 10% sucrose solution down the
water potential gradient. While the net
movement of sucrose diffuse out to distilled
water
However sucrose has a larger size so the
rate of sucrose diffusing into the 10% is
slower than the rate of water diffusing into the
sucrose solution
So in (a) the water level rises

Q9)Explain the change in (b)
After some time, the sucrose molecules have
diffused out of the 10% sucrose solution and
the concentration of sucrose in the potato
cavity and outside

Q10) how can the student be sure that tge
RBC in the tube has reached equilibrium with
the surrounding solution at the time when he
made the observations ?
Oberve the __ again some time
The __should remain the same of it has
reached equilibrium the the previous
observation

Explain :
 **flaccid →failed to press against each other
→soft
1. Which one has a higher water
potential
2. Hypo/iso/hyper
3. There is a net movement of water
molecules from ＿＿to ＿＿ through a
differentially permeable membrane by
osmosis
4. Change/ state of the cells

**bursting of RBC leading to the leak of
hemoglobin (haemolysis) a read solution ,at
be resulted

Absorption of water in human
intestines and plant roots from soil
Preservation of food
→concentrated salt/ sugar
→water is drawn out from microorganisms
which growth may cause food decay
→they will die or stop growing due to lack
water

active transport
 Requires energy from respiration of cells
→high rate of at =high rate of respiration =a
lot of mitochondria

Decrease the rate = crease the rate of
respiration
→low tem. low oxygen concentration,
cyanide

Function
Obtain additional useful materials
which are already inn high
concentration in cells
Absorption in nutrition (glu+amino)
Absorption of minerals from soil into
plant roots

phagocytosis

→It is the uptake of large particles into cells
by packaging the particles into vacuoles form
from the cell membrane

**energy is needs to change the shape of the
cell membrane

Important of unicellular organisms’
nutrition (Amoeba)
WBC engulf harmful substances
→ important for body defence against
disease

Chapter4
anabolic and catabolic graph
experiment graphs volume of gas collected with time

** Total amount of product form depends on
concentration and volume of
substrate/enzyme.
As these are the controlled variables

Q1a)Describe
1.from time 0-Xs, the volume is increasing
2.the slope becomes less steep
3.from the time X onward, the volume stops
increasing

Q1b)explanation
As the (enzyme) breaks down the (substrate),
forming (product). So the volume of (product)
increases.
Rate of (product) released decreases as the
amount of product formed per second is
decreasing. So the collision between enzyme
and substrate is decreasing.The formation of
enzyme substrate complex decreases.
All substrate are used up so no more
formation of products.

Q2a) describe 40 C
It has a steeper slope

Q2b)explain 40 C
 As the temperature increases, the kinetic
energy of substrate and enzyme increases.
Collision between them increases. Therefore
there is the increased formation of enzyme
substrate complex. The rate of product
formed increases. it reaches.(amount of
product) at a shorter time.

Factors that affect the enzyme activity :
1. Temperature
2. pH
3. Cyanide (inhibitors )
4. Heavy metals e.g. mercuric ion,
lead(ll) ions, copper(ll)ions

experiment the action of enzyme :
Boil the enzyme
IV
DV The presence of enzyme:
CV Enzyme →water

properties 1. they are specific in action
→active site with specific shape for certain
substrate to fit in
→lock-and-key hypothesis
 2. Reusable
3. →needed in relatively small amount
4. Protein in nature
→easily affected by pH and tem.
5. They are biological catalysts

daily applications (not important ) Food making
Cheese making
Proteases(cows' stomachs)coagulate milk to
produce cheese

Fruit juice extraction
Pectinase can help break down pectin in
plant cell walls and in the juice
→increase the yield of juice extracted+break
make the juice looks clear.

Liquid-centred chocolate production
Invertase added into solid sugar fillings
→helps break down the sugars into more
soluble forms
→ solid sugar fillings to gradually turn into
liquid upon storage.

Cooking
papain(a protease extracted from papayas )
→ helps break down the proteins in meat so
that the meat becomes softer.

Environmental protection
Detergent
✅
Biological washing powders ( proteases*
and lipases)
→help break down the insoluble proteins and
lipids in stains into soluble products then it
can be removed by water easily

Cosmetic
cleansers ( papain )
→help break down dead cells in the skin.
→make skin softer and smoother.
Textiles
Stonewashed jeans production
→cellulase helps break down the cellulose
fibres in the jeans

Medicine
Lysozyme( drug ) to treat some bacterial
infections.
→ help break down the cell wall of certain
 bacteria and kill them

Chapter 5

food substances formation and fumction food source test Extended/ questions

carbohydrates carbohydrates 1. Glucose →glucose test paper

2. Reducing sugar → Benedict’s test

Note:monosaccharides are small molecules and
are soluble in water
Glucose : main energy source
→directly broken down to release energy during
respiration
→an immediate energy source for body activities

3. Starch → iodine test
Polysaccharides:
Not sweet and soluble
Glycogen (form from glucose )
→energy reserve in animal
→broken down into glucose to release energy
when needed
→abundant in liver and muscles

Starch (form from glucose )
→energy reserve in plants / main energy source
for body activities
→abundant in rice,wheat,potatoes,taros

Cellulose (form from glucose )
→ form cell wall and a source of dietary fibre
Lipid grease spot test (positive result ) Extended
Put a drop of the food sample onto a piece of Saturated fats and unsaturated fats
filter paper and let it dry The fatty acids in lipids can be saturated or
→ A translucent* spot will remain on the filter unsaturated
paper Lipids that are rich in saturated fatty acids are
→immerse the filter paper into an organic called saturated fats*. They are often solid at
solvent and take it out. room temperature. Taking in too much saturated
→The translucent spot will disappear if it is fats may lead to cardiovascular diseases* like
formed by lipids. heart disease and stroke*.
Phospholipid to form cell membrane Trans fats
7. Lipid stored in adipose tissue can act as Trans fats* are produced when plant oils are
energy reserve solidified in an industrial process, or when they
8. Subcutaneous fat can act as shock are exposed to very high temperatures during
absorber to protect internal organs ans cooking (e.g. deep-frying). Trans fats are found
heat insulator in cakes, bread and deep-fried foods. They are
9. Each gram of lipid provide twice amount also linked to cardiovascular diseases.
if energy tyam carbohydrates
1. Phospholipid to form cell membrane 10. Produce lipid hormones
2. Lipid stored in adipose tissue can act as 11. Involved in the absorption, transport and
energy reserve storage of lipid-soluble
3. Subcutaneous fat can act as shock
absorber to protect internal organs ans
heat insulator
4. Each gram of lipid provide twice amount
if energy tyam carbohydrates
5. Produce lipid hormones
6. Involved in the absorption, transport and
storage of lipid-soluble vitamins

Protein foods like meat, fish, eggs, beans, milk and dairy
products

Proteins in our body ( 20 amino acid)
amino acids +dipeptide → polypeptide
Twelve amino acids (non-essential )
→produced in our body
The remaining amino acids (essential)
→obtained from our diet

polypeptide coils and folds in a specific way
→form 3-dimensional structure
→the H-bond holds the amino acids together
in a specific way
Vitamin Vitamin A 1. Fish liver oils, liver, eggs, milk and dairy
Functions products are rich in vitamin
It is needed for the formation of a pigment in 2. carrots, pumpkin, sweet potatoes ano
the retina* of our eyes. The pigment is necessary mangoes) contain carotene (orange
for vision in dim light. pigment)
It is important for keeping the cornea", skin, →converted to vitamin A in our liver.
lining of the alimentary canal" and breathing
system* healthy

Deficiency
poor vision in dim light/night blindness*
drying up of the cornea and skin
easy infection of the lining of the lungs and
trachea

Vitamin D
Function
promotes the absorption of calcium and 1. Sunlight
phosphate 2. Fatty fish (such smalon and tuna),
→essential for keeping bones and teeth strong fish liver osli, liver eggyolk
→very important ot children for hardening of
bones and development of teeth

Deficiency
Rickets in children

Vitamin C
Function
growth and repair of connective tissues which 1. Fresh vegetables and fruit :bell peppers, DCPIP solution decolourize
help keep body structures in place. broccoli, guavas and kiwi fruits
healing wounds.
It promotes the absorption of iron from plant
foods.
helps the immune system work properly to
protect the body from diseases.

Deficiency(scurvy):
Symptoms
weak and bleeding gums
poor healing of wounds
small red spots on the skin
joint pain

Minerals Calcium Canned sardines, milk,dairy products, tofu and
involved in blood clotting, sending messages im some green vegetables
the nervous system, muscle contraction
component of bonds and teeth

Deficiency
 Rickets in children
→
Osteoporosis for elderly
→
Beef, liver, beans,cabbage, spinach and
Iron raisins
a component of haemoglobin

Deficiency
Anaemia
→faint easily
→not enough o2 to support the brain

Dietary fibre and water function : Vegetables, fruits and wholemeal products
1. Add bulk to food to stimulate peristalsis
and facilitate digestion
2. Hold water to soften faces

Deficiency:
Constipation

Balanced diet

children :
Men :
Women:
Pregnant women :

Overweight :

Underweight :

Chapter 6
Organs Function Questions

teeth

Alimentary canal