Laboratory Activity 1, Cell Morphology and Ultrastructure PDF

Summary

This document describes Laboratory Activity 1: Cell Morphology and Ultrastructure, from a lab report, including learning objectives on identifying cell features, differentiating cell morphologies, and enumerating cell structures.

Full Transcript

24/09/2024

Laboratory
Activity 1
Cell Morphology
and
Ultrastructure

DN-DEN 121L
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Learning Objectives:

At the end of this laboratory activity, the students are expected to:
1. Identify key features of a cell.
2. Differentiate the cellular morphology of bacterial, plant, and animal
cells.
3. Enumerate various cell ultrastructure that allow the cell to function.

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Wet Mount Method

In a wet mount, the specimen is placed
in a drop of water or other liquid held
between the slide and the cover slip by
surface tension.
This method is commonly used to view
microscopic organisms.
Advantage: quick preparation

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Microscope Slide Staining

Microscope cell staining is a technique used to enable better visualization of
cells and cell parts under the microscope.
By using different stains, a nucleus or a cell wall are easier to view.
Cells may also be stained to highlight metabolic processes or to differentiate
between live and dead cells in a sample.
Any basic dyes, such as methylene blue, crystal violet, malachite green, or
safranin work well.

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Some Basic Dyes

1. Methylene blue stain - a solution used to highlight certain cell parts of
animal, bacteria, and blood tissue specimens. This stain is a 1% aqueous
solution, and it's especially useful for microscope slide preparation.
2. Iodine - Iodine binds to starch, making a blue-black color; gives color to the
epidermal cells, making them more readily visible and observable.
3. Wright stain- hematologic stain that facilitates the differentiation of blood
cell types. It is classically a mixture of eosin (red) and methylene blue dyes.
4. Giemsa staining solution- composed of methylene blue, azure and eosin;
commonly used in hematology, histology, cytology and bacteriology

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A. Preparation
of Wet Mount
of Cheek
Epithelial
Cells

www.studyrankers.com
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Normal Saline Solution for Cheek Cells

Purpose: to expose the cells to a solution similar to the one they
are exposed to while in the mouth

Importance:
1. Osmotic Balance: preventing cells from bursting or collapsing
2. Cell Integrity: preserves the structural integrity of the cells
3. Staining Aid: facilitates the staining process

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Role of Methylene Blue in Cheek Cell Staining

1. Staining Nuclei
2. Enhancing Contrast
3. Cell Visualization

https://urbanenjoy.com/en/?w=what-organelles-would-be-visible-in-a-
cheek-cell-uu-BqdYa2F2
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Preparation of
Plant Tissue
Specimen
Slide

https://x.com/EducatingMiss/status/11163577
14978975744

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Iodine for Onion Cells

1. Staining Cell Walls

2. Enhancing Contrast

http://www.microscopy-
uk.org.uk/mag/indexmag.html?http://www.microscopy-
uk.org.uk/mag/artoct11/wd-onion9.html
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Bacterial cells

Living bacteria are almost colorless, and do not present sufficient contrast
with the water in which they are suspended to be clearly visible.
The purpose of staining is to increase the contrast between the organisms
and the background so that they are more readily seen in the light
microscope.
In a simple stain, a bacterial smear is stained with a solution of a single dye
that stains all cells the same color without differentiation of cell types or
structures.
One example dye use is methylene blue, a basic stain.
Basic stains, having a positive charge, bind strongly to negatively charged cell
components such as bacterial nucleic acids and cell walls.
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Bacterial cells: Gram staining

What is the principle of gram staining?

Gram staining differentiates bacteria by the
chemical and physical properties of their
To gather more
information about
First developed by the
Danish bacteriologist
cell walls by detecting peptidoglycan,
bacteria, gram Hans Christian Gram which is present in the cell wall of Gram-
staining can be used. in 1882
positive bacteria. Gram-negative cells also
contain peptidoglycan, but a very small
layer of it that is dissolved when the alcohol
is added.

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https://bio.libretexts.org/

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https://www.technologynetworks.com/immunology/articles/gram-positive-vs-gram-negative-323007

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Prepared Escherichia coli Staphylococcus
aureus
Proteus
vulgaris

Bacterial Slides Cell Shape Rod cocci rod
Cell Size 0.5 μm in 0.5 – 1.0 μm in 0.4–0.8 μm in
diameter diameter diameter
Notable Cell wall, Cell wall, capsule Flagella, cell
structures flagella, villi, wall, capsule,
capsule fimbriae

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www.eiscolabs.com

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CELL FEATURE ANIMAL CELL PLANT CELL BACTERIAL CELL
Cell Wall Absent Present Present
Plasma Membrane Present Present Present
Nucleus Present Present Absent
Ribosomes Present Present Present
Mitochondria Present Present Absent
Chloroplasts Absent Present Present
Vacuoles Absent Present Absent
Lysosomes Present Present Absent
Cytoplasm Present Present Present
Flagella/Cilia Present Absent Present
Cell Size 10–20 μm 10-100 μm 0.5–5.0 μm

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Laboratory Activity 2
Observation of Mitotic Phases
from Meristem and Calculation of
the Mitotic Index

DN-DEN 121L
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Learning Objectives:

At the end of this laboratory activity, the students are expected to:
1. Identify the stages of mitosis in meristem cells using a microscope.
2. Calculate the mitotic index by counting cells in different mitotic phases.
3. Observe chromosomal events during the various phases of cell division in
meristem tissues.

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Mitosis

Mitosis term was coined by Walter Flemming in 1882.
The term mitosis is derived from the Greek word ‘mitos’ meaning warp thread.
Mitosis is a type of cell division that results in two identical daughter cell with
same set of chromosomes as parental cells.
It results in increase in the number of cells at given time and space, i.e.,
proliferation.
It is needed for general growth of living entities and replacement of damaged
cells in the case of injuries or wound healing.

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Why onion root tip for lab experiment?

The onion roots grow rapidly in large number.

The cells at the tip are actively dividing and therefore all cell
cycle stages are easy to visualize in single preparation.

The onion tips are easy to prepare for on
microscopic slide.

The slide preparation can be stained to make them
more observable. Thies & Grossman, 2006;
DOI: 10.1201/9781420017113.ch5
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Why onion root tip for lab
experiment?
There are 3 zones (regions) near the tip of the
onion root.
1. Region of cell division: where size is not
significantly increasing; aka meristem
2. Region of elongation: cells are increasing in
size, but not dividing. Due to cell elongation,
roots are lengthened.
3. Region of maturation: It is also called as the
region of differentiation or root-hair zone. Cells
mature into the various types of primary
tissues. L.S. of root apex showing terminal root cap and sub
apical meristem.
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Observation
Interphase: densely stained homogenously granular
nucleus; distinct nuclear boundary; nucleolus may
also be observed
Prophase: chromatin appears as a network of fine
threads; nuclei may or may not be visible.
Metaphase: nuclear boundary is not seen;
chromosomes are thick and arranged at the equatorial
plane of the cell
Anaphase: chromatids separation can be seen;
chromosomes appear to be moving
apart
Telophase: chromosomes observed at two poles as
chromatin mass; nuclear membrane appears to form
on both the chromatin mass at the poles.
Cytokinesis: The cell plate begins to form at the middle
after telophase, which are extending outwards to
Mitosis, Teaching biology, Biology classroom ultimately reach the margin of the cells and divide the
https://www.pinterest.com/pin/747456869374725427/ cell into two.
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Cytokinesis
Cytokinesis is the process by which one cell
physically separates into two daughter cells at
the end of each division cycle.

Cytokinesis: cytos means cell and kinesis mean
division s

The cytokinesis is of two types, one that occurs
in the plant cell is cell plate formation and the
other in the animal cell is embryonic cleavage.
https://bio.libretexts.org/

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Mitosis
Mitosis is the phase of the cell cycle where the
nucleus of a cell is divided into two nuclei with
an equal amount of genetic material in both the
daughter nuclei.

DNA condenses into chromosomes during
prophase, chromosomes line up during
metaphase and separate during anaphase, and
separate nuclei form during telophase.

The major purpose of mitosis is for growth and
to replace worn out cells.
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Mitotic index

Mitotic Index (MI) is defined as a ratio of the total number of dividing cells (n)
and the total number of cells (N) in a particular focus chosen randomly under
the microscope.
Therefore,

By randomly selecting 5 to 10 foci, mitotic index can be estimated.
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Mitotic index
Calculate MI:

https://ib.bioninja.com.au/standard-level/topic-1-cell-biology/16-cell-division/mitotic-index.html

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Mitotic index
Calculate MI:

https://ib.bioninja.com.au/standard-level/topic-1-cell-biology/16-cell-division/mitotic-index.html
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Importance of Mitotic Index

The mitotic index can be used to examine cell proliferation in primary root
tissue.
The mitotic index provides a measure of the capacity of cells to divide and of
the rate of cell division.
It is used to identify the sites of growth within a tissue and to determine which
cell types are dividing.
Interpretation: In general, for plant cells the mitotic index decreases with
increasing distance from the root cap junction.

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Guide Questions
Aside from the mitotic phases (PMAT), what other notable observations or events
did you notice on the given slide?
1. Many cells may at interphase stage.
2. The degree of chromatin condensation varies
3. Variations in cell size and shape, which could indicate differences in cell type,
function, or stage in the cell cycle.
4. Staining Variations: The intensity of staining can provide clues about cellular
components; for instance, darker staining might indicate more abundant RNA or
DNA.
5. Signs of Apoptosis: In some cases, some cells are undergoing programmed cell
death, which can present as cell shrinkage, fragmentation, or the presence of
apoptotic bodies.
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Guide Questions
What is the Mitotic Index? What does a high or low mitotic index indicate? What is
the medical significance of the mitotic index?
A high mitotic index indicates a greater number of actively dividing cells, often
associated with aggressive tumor behavior, while a low mitotic index suggests
slower growth and potentially less aggressive tumors(Clahsen et al., 1999)(Kroese
et al., 1990).
Medical Significance of the Mitotic Index
1. Prognostic Indicator: MI serves as a crucial prognostic factor in various cancers,
including breast cancer, where it correlates with disease-free survival(Clahsen et al.,
1999).
2. Tumor Classification: In uterine smooth muscle tumors, accurate MI assessment
aids in proper classification, impacting treatment decisions(Veras et al., 2009).
3. Comparative Analysis: The MI can be compared with apoptotic indices to evaluate
tumor behavior, as seen in studies of melanoma and basal cell carcinoma(Mooney et
al., 1995). 30

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End of Discussion

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