Reproduce.pdf

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Reproduction and Developmental Biology
Asexual Reproduction
(00:00:37 - 00:01:29)

Binary Fission
Process by which a prokaryotic cell divides in half
The cell replicates its DNA and then a septum is created to divide the cell into two daughter cells

Budding
Outgrowth that forms on organisms like hydra and yeast
A smaller version of the organism forms and then breaks off to become an independent organism

Regeneration
Organism can be fragmented into multiple pieces, and each piece will form a new adult organism

Parthenogenesis
Embryo develops from an unfertilized egg in a sexually reproducing species
Example: Honey bees

Human Reproduction
(00:01:29 - 00:03:40)

Male Reproductive System
Spermatogenesis
Spermatogonia are the stem cells that produce sperm
Spermatids are the partially differentiated sperm cells

Sperm Structure
Head contains the nucleus and acrosome (enzymes to penetrate egg)
Midpiece contains mitochondria to power the tail/flagella
Tail/Flagella provides motility to reach the egg

Reproductive Anatomy
Seminiferous tubules are the site of spermatogenesis
Epididymis stores sperm
Vas deferens transports sperm
Ejaculatory ducts release sperm during ejaculation
Urethra and penis allow sperm to exit the body

Accessory Glands
Seminal vesicles secrete fructose
Prostate gland increases alkalinity
Bulbourethral glands secrete mucus
These fluids help protect and nourish the sperm

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Hormonal Regulation
FSH from pituitary stimulates Sertoli cells to facilitate spermatogenesis
LH from pituitary stimulates Leydig cells to produce testosterone

Female Reproductive System
Oogenesis
Oogonia are the stem cells that produce oocytes
Primary oocytes undergo meiosis to form secondary oocytes and polar bodies

Ovarian Cycle
Follicle development is stimulated by FSH
Ovulation is triggered by a surge of LH
Corpus luteum produces progesterone to prepare the uterus

Uterine Cycle
Menstruation occurs when the uterine lining is shed
Proliferative phase rebuilds the uterine lining
Secretory phase prepares the lining for implantation

Fertilization and Embryonic Development
Sperm must penetrate the egg's acrosome and zona pellucida
Zygote undergoes cleavage divisions to form a blastocyst
Blastocyst implants in the uterine lining and develops into an embryo

Embryology
(00:03:40 - 00:04:30)

Germ Layers
Ectoderm forms the nervous system and epidermis
Mesoderm forms muscles, bones, circulatory system
Endoderm forms the digestive and respiratory systems

Organogenesis
Development of the major organ systems from the germ layers
Includes formation of the heart, lungs, brain, and other vital organs

Fetal Development
Placenta and umbilical cord provide nutrients and oxygen to the fetus
Fetus undergoes dramatic growth and differentiation over 9 months
Birth occurs when the fetus is ready to survive outside the uterus

The Reproductive System
The Male Reproductive System
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(00:03:40 - 00:03:51)
The hypothalamus releases GnRH, which stimulates the anterior pituitary to release FSH and LH
Testosterone from Leydig cells in the testes will:
Inhibit the anterior pituitary and hypothalamus via negative feedback
Stimulate the Sertoli cells

The Female Reproductive System
(00:03:51 - 00:04:03)
The ovaries produce ova (eggs)
The fallopian tubes are where the egg travels to reach the uterus

(00:04:03 - 00:04:14)
Ectopic pregnancy occurs when the embryo develops in the fallopian tube instead of the uterus
The uterus is where the egg develops into an embryo
The uterus has 3 layers: perimetrium, myometrium, and endometrium
The endometrium is the layer that is shed during menstruation

(00:04:14 - 00:04:28)
The cervix is the entrance to the uterus from the vagina

(00:04:28 - 00:04:39)
Oogenesis produces 1 mature egg and several polar bodies, unlike spermatogenesis which produces 4 viable
sperm

(00:04:39 - 00:04:51)
FSH stimulates follicle development in the ovaries
LH stimulates ovulation of the egg
Estrogen and progesterone regulate the menstrual cycle and secondary sex characteristics

(00:04:51 - 00:05:04)
Diagram of the menstrual cycle:

Phase Hormone Levels
Menstrual Flow Estrogen and progesterone low, FSH and LH
somewhat higher but LH low
Proliferative FSH and LH increase, estradiol increases
Secretory Progesterone surges, then drops off

(00:05:04 - 00:05:24)
If pregnancy occurs, progesterone is maintained by the embryo's production of human chorionic gonadotropin
(hCG)
If no pregnancy, progesterone drops, signaling shedding of the endometrial lining (menstruation)

(00:05:24 - 00:05:42)
Hormone feedback loops in females:
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Hypothalamus releases GnRH
Anterior pituitary releases FSH and LH
Ovarian hormones (estradiol, progesterone) provide negative feedback to the hypothalamus and pituitary

(00:05:42 - 00:07:03)
Inhibin from Sertoli cells and testosterone from Leydig cells provide negative feedback to the hypothalamus
and pituitary, regulating FSH and LH levels

Fertilization and Early Embryonic
Development
Fertilization Events
(00:07:03 - 00:07:25)

Capacitation:
Destabilizes the sperm's plasma membrane and increases its permeability to calcium
Prepares the sperm to penetrate the egg

Acrosome Reaction:
Contact between the sperm and egg initiates the acrosome reaction
The acrosome membrane fuses with the sperm head membrane, releasing enzymes that break down the zona
pellucida (coating of the egg)

Polyspermy Block:
Prevents more than one sperm from fertilizing an egg
Fast block: Depolarization of the egg's membrane helps repel sperm
Slow block: Calcium ions released inside the egg's plasma membrane stimulate the cortical reaction

Meiosis II:
The fertilized egg completes meiosis II, releasing the second polar body

Stages of Embryonic Development
(00:09:13 - 00:10:26)

Day 1: Fertilization
Fertilization occurs, creating the zygote

Day 2-3: Cleavage
The zygote undergoes cell division, forming a compact mass of cells

Day 4: Differentiation
The cells differentiate into the inner cell mass and the trophoblast
The blastocyst cavity forms

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Day 5: Implantation
The blastocyst implants in the uterine epithelium
The trophoblast cells begin to form the placenta

Day 12: Bilaminar Disc
The mesoderm forms and spreads
The amniotic sac begins to enlarge

Day 23: Amnion and Umbilical Cord
The amniotic sac, chorion, and umbilical cord begin to form and function

Monozygotic Twins
Occur when a single fertilized egg divides into two separate embryos
Can have different chorion and amnion configurations depending on the timing of the division

Anterior Pituitary Hormones
(00:07:03)
LH (Luteinizing Hormone) is released from the anterior pituitary

Fertilization and Early Embryonic
Development
Monozygotic vs. Dizygotic Twins
(00:10:57 - 00:11:26)
Monozygotic (identical) twins:
Derived from the same embryonic origin
Genetically identical

Dizygotic (fraternal) twins:
Two eggs fertilized by two sperm
Genetically distinct, like siblings

Cleavage Patterns
(00:11:26 - 00:12:31)
Spiral cleavage:
Occurs at the 8-cell stage

Radial cleavage:
Occurs in protostomes and deuterostomes
Differences in mouth and anus formation

Determinate cleavage:
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Fate of blastomeres is not predetermined

Indeterminate cleavage:
Fate of blastomeres is predetermined

Holoblastic cleavage:
Even division throughout the embryo
Embryos with little yolk

Meroblastic cleavage:
Uneven division
Embryos with a lot of yolk

Morula and Blastula
(00:12:31 - 00:13:11)
Morula:
Ball of 12-16 cells

Blastula:
Formed after blastocoel (hollow space) is created
Contains trophoblast (outer layer) and inner cell mass
Trophoblast becomes extra-embryonic structures (placenta, amnion)
Inner cell mass becomes the embryo

Gastrulation
(00:13:11 - 00:14:17)
Blastula cells rearrange to form the germ layers:
Ectoderm
Mesoderm
Endoderm

Primitive streak forms, leading to the formation of the germ layers
Ectoderm forms outer surface and central nervous system
Mesoderm forms muscle, blood, kidneys, bone
Endoderm forms internal organs

Germ Layer Derivatives
(00:14:17 - 00:14:35)
Ectoderm:
Outer surface
Central nervous system

Mesoderm:
Muscle
Blood system
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Kidneys
Bone

Endoderm:
Internal organs

Embryonic Development and Organ
Formation
Digestive Tube and Germ Cells
(00:14:35 - 00:14:46)
The digestive tube, pharynx, and lungs form as a budding off of the gastrointestinal tract
The germ cells of the new embryo will also form during this process

Ectoderm
(00:14:46 - 00:15:07)
Ectoderm Mnemonic: Ectoderm is the attracted derm, pretty skin and health
Ectoderm will form:
Epidermis and skin
Nails
Jaws and teeth
Brain, central nervous system (CNS), and peripheral nervous system (PNS)
Sensory parts of skin and nails
Sweat glands

Mesoderm
(00:15:07 - 00:15:24)
Mesoderm Mnemonic: Mesoderm means "of having sex"
Mesoderm will form:
Gonads
Bones and skeleton
Muscles
Cardiovascular system
Blood
Spleen

Endoderm
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(00:15:24 - 00:15:47)
Endoderm Mnemonic: Endoderm is the "end internals of the end P TT"
Endoderm will form:
Epithelial lining of internal organs
Pancreas
Liver
Thyroid
Parathyroid
Thymus

Organogenesis
(00:15:47 - 00:15:58)
Organogenesis is the process by which organs are formed from the three germ layers
Patterning and adult structure formation occurs during this process

Neurulation
(00:15:58 - 00:16:30)
Neurulation is the formation of nervous tissue
It begins with the formation of a neural plate from the ectoderm
The neural plate then folds inward to form the neural tube, which will become the central nervous system

Embryonic Models
(00:16:30 - 00:17:58)
In mammals, the amnion secretes amniotic fluid to cushion and protect the embryo
The embryo will inhale and drink the amniotic fluid, then excrete it, recirculating the fluid
If the embryo cannot excrete the fluid (e.g., renal agenesis), it can lead to birth defects
The chorion forms the placenta, the allantois becomes the umbilical cord, and the yolk sac nourishes the fetus
Chick embryos are nourished by a yolk sac, while human embryos are nourished by the placenta and umbilical
cord

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