[BIO 130 LAB] 4 Early Stages of Frog Development.pdf

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EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

called micromeres
TABLE OF CONTENTS Rate of cleavage is slower in
the vegetal pole and creates
I. Cleavage larger-sized blastomeres called
II. Blastulation macromeres
III. Gastrulation Ex. Frog
A. Types of Gastrulation Movement
B. Process of Gastrulation Meroblastic Zygote is only partially divided
IV. Neurulation in the top portion due to the
A. Process of Neurulation presence of large amounts of
yolk
Occurs in birds, reptiles, and
fishes

I. CLEAVAGE

Cleavage
➔ Process of transforming single-celled zygote
(fertilized egg) into a multicellular entity through a
series of mitotic divisions
➔ Transforms zygote into several cleavage cells or
blastomeres
➔ Two types: Holoblastic and Meroblastic
➔ Two stages: Early Cleavage and Late Cleavage
Cleavage Furrow
Figure 1: Two Types of Cleavage
➔ Indentation or groove that appears on the surface
of cells during the final stage of cell division
➔ Separates blastomeres from each other TABLE 2. STAGES OF CLEAVAGE
➔ Occurs simultaneously with the formation of the
animal and vegetal poles but finishes later than Stage of Description
both Cleavage

Early Cleavage First 3 mitotic divisions
TABLE 1. TWO TYPES OF CLEAVAGE (2-cell stage to 8-cell stage)
Each cell is referred to as a
Type of Description
blastomere
Cleavage
First Mitotic Zygote divides into two cells
Holoblastic Zygote is completely divided
Division (2-cell stage)
from pole-to-pole/end-to-end
Meridional: passes from the
Occurs in mammals and
animal to the vegetal pole
amphibians
and bisects the gray
Two types: Equal and Unequal
crescent.

Equal Cleavage results in equal-sized
Second Mitotic Zygote divides into four cells
Holoblastic blastomeres
Division (4-cell stage)
Meridional: passes at a right
Unequal Cleavage results in unequal -
angle with the first mitotic
Holoblastic sized blastomeres due to
division
presence of yolk
Rate of cleavage is faster in the
Third Mitotic Zygote divides into eight
animal pole and creates
Division cells (8-cell stage)
smaller-sized blastomeres

BIO 130 LAB
LU 2 SEM 1 | IMED 2030 Page 1 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC
EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

Horizontal: displaced
towards the animal pole
producing four
micromeres, and four
macromeres in the vegetal
pole

Late Cleavage Succeeding mitotic divisions
in the 16-32 cell stages
Zygote is now referred to as
the morula

Figure 5: Photomicrograph of Early Cleavage (Lateral Cut)

Figure 2: Stages of Cleavage

Figure 6: Photomicrograph of Late Cleavage (Lateral Cut)

Figure 3: Early (left) and Late (right) Cleavage

Figure 4: Early (left) and Late (right) Cleavage Figure 7: Photomicrograph of Late Cleavage (Transverse
Cut)

II. BLASTULATION

Blastulation
➔ Internal secretion of fluid by the blastomeres of
the morula to produce a fluid-filled cavity called

BIO 130 LAB
LU 2 SEM 1 | IMED 2030 Page 2 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC
EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

the blastocoel or segmentation cavity
cleavage
Blastocoel
Yolk: Packed
➔ Fluid-filled cavity that is displaced towards the
animal pole of the blastula
➔ “The First Coelom”
Gray Crescent
➔ Region in the zygote that appears opposite the
location of the sperm cell’s entry point
➔ Determines the dorsal-ventral axis of the zygote
➔ Broadest portion becomes the dorsal/back
surface of the zygote (location of the spinal cord)
➔ Region of the zygote opposite the gray crescent
becomes the ventral/front surface of the zygote Figure 8: Early (left) and Late (right) Blastula
Blastula
➔ Stage in embryonic development characterized by
the formation of the blastocoel and more distinct
animal and vegetal hemispheres
➔ Zygote reaches the blastula stage near the end of
cleavage (late cleavage)
Vitelline Membrane
➔ Thin, non-cellular, transparent membrane
immediately surrounding the oocyte and inner to
the follicle cells
➔ allows for diffusion of water and selective
nutrients
Fertilization Envelope
➔ Elevated vitelline membrane Figure 9: Early (left) and Late (right) Blastula
➔ Prevents further penetration of sperm and
protects embryo during development

TABLE 3. TWO HEMISPHERES OF BLASTULA

Blastula Description
Hemisphere

Animal Pigmentation: Heavily
Hemisphere pigmented cortex, most
intense in animal pole and
decreases in intensity as it
moves towards vegetal pole
Cell Layers: 4 or 5 cells thick,
smaller cells and fewer layers
in the animal pole and
increases in size and layers as
it moves towards vegetal pole
Yolk: Very little amount

Vegetal Pigmentation: Pigmented
Hemisphere cortex is less evident
Cell Layers: Blastomeres are Figure 10: Photomicrograph of Early Blastula (Transverse
very large and few in number, Cut)
indicative of less frequent

BIO 130 LAB
LU 2 SEM 1 | IMED 2030 Page 3 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC
EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

◆ Jaws and teeth
➔ Mesoderm
◆ Gives rise to muscles and the skeleton
◆ Circulatory and lymphatic system
◆ Excretory and reproductive system
◆ Dermis of skin
◆ Adrenal cortex
➔ Endoderm
◆ Epithelial lining of the digestive tract
◆ Epithelial lining of respiratory, excretory, and
reproductive tracts and ducts
◆ Thymus, thyroid, and parathyroid glands

TYPES OF GASTRULATION MOVEMENTS

1. Invagination
Figure 11: Photomicrograph of Late Blastula (Transverse Infolding of a sheet (epithelium) of cells
Cut) Much like the indentation of a balloon when
poked

Figure 13: Invagination
2. Involution
Inward movement of an expanding outer layer
forming the new inner surface

Figure 12: Photomicrograph of Late Blastula (Transverse
Cut)

III. GASTRULATION
Figure 14: Involution
It is the reorganization of the hollow blastula into a 3. Epiboly
two-layered or three-layered embryo called gastrula Movement of epithelial cells, spreading as a unit,
During gastrulation, a set of cells near the surface of to enclose the deeper layers of the embryo
the blastula invaginates forming a primitive digestive
tube.
Begins in the area called the gray crescent
Three Germ Layers
➔ Ectoderm
◆ Forms the nervous system and the outer
body layer
◆ Epidermis of skin and its derivatives
◆ Pituitary gland, adrenal medulla Figure 15: Epiboly

BIO 130 LAB
LU 2 SEM 1 | IMED 2030 Page 4 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC
EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

➔ Future dorsal side of the embryo

PROCESS OF GASTRULATION

Figure 18

Dorsal Lip
➔ The lip closest to the archenteron
➔ Refer to Figure X and X
Blastopore
➔ A mouth-like opening of the archenteron on
the surface of the embryo during the
invagination of the archenteron
➔ Becomes the anus in the adult frog
➔ Refer to Figure X and X
2. Cells of the animal pole spread out, pushing surface
cells below them toward and across the dorsal lip

Figure 16: Gastrulation in a frog embryo

1. Cells in the region of the gray crescent move inward,
forming the dorsal lip of the future blastopore
Figure 19

Figure 17: Dorsal lip formation

Gray Crescent
➔ Gray region just below the equator and
opposite the point of sperm entry

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LU 2 SEM 1 | IMED 2030 Page 5 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC
EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

IV. NEURULATION

Establishment of the central nervous system (CNS)
Begins as cells from the dorsal mesoderm form the
notochord

Figure 20: Photomicrographs of Early Gastrula Stage

3. The archenteron expands destroying the blastocoel
The yolk plug is visible through the blastopore
At the end of gastrulation, the three germ layers
are formed: Ectoderm, Mesoderm, Endoderm

Figure 21: Movement of archenteron to form the three
germ layers

Archenteron
➔ Forms the blastopore and displaces the Figure 22: Process of neurulation
blastocoel
➔ Becomes the gut (digestive system) in the Notochord
adult frog ➔ Derived from the mesoderm
Yolk Plug ➔ Induces the ectoderm to differentiate into the
➔ Exposed endoderm cells encircled by the neural plate
blastopore ➔ Induces the endoderm to differentiate into the
neural fold

PROCESS OF NEURULATION

1. Induction of the Neural Plate
The thickening of the ectoderm in the dorsal side
The thickened portion of the ectoderm will
become the neural plate
○ Precursor of all cell types in the CNS

Figure 21: Photomicrographs of Late Gastrula Stage

BIO 130 LAB
LU 2 SEM 1 | IMED 2030 Page 6 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC
EARLY STAGES OF FROG DEVELOPMENT
BIO 130 LAB
INTARMED 2030 | Dr. Vitor | LU2 SEM 1 | SY. 2024-2025

Figure 23: Formation of neural plate

Figure 26: Photomicrograph of Neural Fold Stage

3. Convergence of Neural Folds
The neural folds move towards the midline and
converge
The fusion results in the enclosing of the neural
groove and the formation of the neural tube

Figure 24: Photomicrograph of Neural Plate Stage

2. Folding of Neural Plate
Neural plate invaginates and forms the U-shaped
neural groove
Two ridges called neural folds form the lateral
edges of the neural plate Figure 27: Formation of neural tube

Figure 25: Formation of neural fold

Figure 28: Photomicrograph of Neural Tube Stage

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LU 2 SEM 1 | IMED 2030 Page 7 of 7
DE LUNA, MD; CANTO, ARBC.; HE, FJP; REYES, JCDC