Biology Notes (Reproduction System) PDF

Summary

These notes cover the biology of reproduction, focusing on the different types of reproduction (sexual and asexual) and the human reproductive systems both male and female. It details the organs, processes and hormones involved. The provided text excerpt is a good introduction, but the full document details other topics in human biology

Full Transcript

BIOLOGY NOTES
Reproduction System:
Introduction:
Definition:
Reproduction is one of the 7 life processes. Humans use sexual
reproduction to produce their young. Two parents (M and F) have
different reproductive systems and organs that produce different sex
cells
Types of Reproduction:
a. Asexual
Usually done by animals and plants (vegetative)
b. Sexual
Can be done by all living things but in plants it’s called generative.
Sexual Reproduction
2 individuals generate a new individual that inherits
characteristics from both parents. Requires gametes which are formed
in Gonad by gametogenesis. The key mechanism to gametogenesis is
Meiosis. Gametes are formed haploid (half the genetic content ‘n’)
Gametes -> 2 specialized cells (female n male) or sexcells (sperm n
ovum)
Gonad -> Sex organs
Meiosis -> A special cell division in which the daughter cells receive
half of the genetic content of parent cell
 Human Reproductive System:
Male Reproductive System:
Divided into 3 parts; main organ, duct and accessory glands
Most of the male reproductive system is located outside the body
Main sex organs: Penis and Testes
Male Reproductive System:

1. Main Organ
a. Testes
Produce sperm and male hormone called testosterone. Oval
shaped organ where sperm are produced and matured.
Seminiferous tubules -> Tightly coiled tubes within the
testes where sperm are created
2. Duct
a. Epididymis
Located at the top of testes. Sperm are stored here for 6
weeks until they ripen to maturity after being created in
the testes. Tightly coiled tube that stores sperm
b. Sperm Duct/Vas Deferens
Two long thin muscular tubes that serve as a passageway for
sperms from testes to urethra. Rapid transport of sperm.
Transport sperm from epididymis to urethra
c. Urethra
A dual purpose tube that semen and urine pass through when
discharged from the body
Semen (seminal fluid) -> fluid that is emitted from the
male reproductive tract and that contains sperm cells, which
are capable of fertilizing the female's eggs.
 d. Penis
A copulation organ. The male organ for sexual intercourse,
reproduction and urination. Reproductive purpose is to
deposit semen to the vagina
e. Ejaculatory Duct
Conducts sperm to penis. Transport liquid from seminal
vesicle into the prostate gland
3. Accessory Glands
a. Scrotum
A sac-like pouch made of skin located behind the penis. Hold
the testicles and keep them at a cooler temperature.
Contains the testicle and epididymis.
b. Seminal Vesicles
2 small glands that secrete a thick fluid that nourishes and
enables/the sperm to move. Secretes most fluid in semen
c. Prostate Glands
Surround the urethra beneath the bladder. A large gland
which adds fluid to sperm to create semen. Secretes some
fluid in semen. About the size of a walnut.
d. Cowper Gland (Bulbourethral Gland)
2 small pea-sized glands located beneath the prostate gland.
It secrete a sticky fluid that helps to neutralize the acidity
of the urethra
Male Hormones:
Leydig Cells -> the cell that produces testosterone but are
stimulated by Luteinizing Hormones (LH) located in tissues between
seminiferous tubule
Functions of testosterone:
a. Governs growth, form, and functions of the male reproductive
tract
b. Stimulates sexual behavior
c. Promotes secondary sexual traits (facial hair, deepening of voice)
Structure of sperm:

Mature sperm: 9-10 weeks of processing
Nourished with secretion from sertoli cells
Tail (flagellum)
Midpiece (contain mitochondria)
Head
○ Nucleus with DNA organized into chromosomes
○ Acrosome: cap with enzymes to penetrate egg
Female Reproductive System
Female Reproductive System:

1. Main Organ
a. Ovary
Organ that produces eggs and stores female egg cells
(oocytes). They produce sex hormones called estrogen and
progesterone. Adds secondary sexual traits (fat deposit in
breast, hips and buttlocks). Contains hormones that cause
egg to mature
Oocytes -> Immature eggs, released into oviduct and travel
to uterus
Estrogen -> Repairs endometrium and controls secondary
sexual traits
 2. Duct
a. Fallopian tube/Oviduct
The tubes that carry an egg from the ovary to the uterus. A
site for fertilization.
3. Accessory Glands
a. Fimbriae
Eggs are “catched” by fimbriae and passed to the oviduct,
which conveys them to the uterus.
b. Uterus / Womb
Internal cavity here a fertilized egg will implant and develop
into an embryo. It’s well-supplied with blood and is part of
the uterus, into which the embryo implants during pregnancy
and is shed during menstruation. Chamber where a new
individual develops. Nourished the fetus
Myometrium -> Thick layer of smooth muscle
Endometrium -> The lining of the uterus
c. Cervix (lower portion of the uterus)
The ‘neck’ of the uterus. The opening of the uterus into the
vagina. A ring of muscle. Secretes mucus that enhances
sperm movement into uterus and reduces the embryo’s risk
of bacterial infection
d. Vagina
A muscular tube which connects the uterus with the outside
of the body. Where sperms are deposited during sexual
intercourse. Birth canal.
Structure of Ovum:

The size of an ovum is much bigger than a sperm.
The nucleus contains DNA. Outside the
membrane of the ovum, there is a jelly layer
called zona pellucida.
Menstrual Cycle
Occurrence: 28 days
Starts: between 10 and 14 years old

4 phases of the menstrual cycle:
a. Menstrual Phase
First stage of the menstrual cycle, when you get your
period. The egg from the previous phase isn’t fertilized so the
level of hormones (estrogen n progesterone) drop. The thickening
of uterus lining for pregnancy is shed through your vagina. During
this period, you release blood, mucus and tissues from the uterus.
Average menstrual cycle: 3 - 7 days
Symptoms:
Cramps
Bloating
Mood Swings
Irritability
Headaches
Tiredness
Low back pain
b. Follicular Phase
Starts on the first day of period and ends during ovulation.
Starts when the hypothalamus sends signals to the pituitary gland
to release FSH. Only the healthiest egg will mature, the rest will
be reabsorbed by the body. The maturing follicle sets off a surge
in estrogen to thicken the lining of the uterus (creates a
nutrient-rich environment for embryo)
FSH -> follicle-stimulating hormone. Stimulates your ovaries to
produce around 5-20 sacs called follicles which contain an
immature egg. Stimulates follicle growth
Average follicular phase -> 16 days
c. Ovulation Phase
When your ovary releases a mature
egg. The egg travels down the fallopian
tube towards the uterus to be fertilized
by sperm. Rising estrogen levels trigger
the pituitary gland to release LH; this is
what starts ovulation. The only time during
your menstrual cycle when you can get
pregnant
LH -> Luteinizing Hormone
Symptoms:
A slight rise in basal body temperature
Ovulation Phase -> during 14 days (last for 24 hours)
Hormones during ovulation:
Ovarian Cycle
○ Born with ~300 oocytes arrested in meiosis I
○ 1 primary oocytes mature / month during the female’s
menstrual cycle
Primary Oocytes
○ Surrounded by a layer of nourishing cells
○ Forms the follicle, grows due to FSH and LH
○ Level of estrogen increase
○ Oocytes complete meiosis I before ovulation
 Secondary Oocytes
○ Gets most of the cytoplasm; begins undergoing meiosis
II
○ Surges of LH
○ Ovulation: release of secondary oocytes from the
ovary
Enters the oviduct
○ Fimbriae helps sweep it in
○ If fertilization occurs, meiosis II is completed
d. Luteal Phase
After the follicle releases it’s egg, it changes into corpus
luteum.This structure releases hormones (progesterone n
estrogen) The rise in hormone keeps your uterine lining thick and
ready for fertilized egg to implant.
Symptoms of premenstrual syndrome (PMS):
Bloating
Mood changes
Headache
Weight Gain
Changes in sexual desire
Food cravings
Trouble sleeping
Luteal Phase -> 14 days
If you get pregnant
Your body produce human chorionic gonadotropin (hCG)
hCG -> The hormone detected by pregnancy test. Helps maintain
the corpus luteum and keeps the uterine lining thick
Also the hormone to prevent menstruation.
If you don’t get pregnant
The corpus luteum shrinks away and gets reabsorbed, which
leads to decrease of estrogen and progesterone levels (causes
onset of your period). Uterine lining will shed during the period.
Menarche -> First menstruation (age 10-16)
Menopause -> Cessation of menstruation, fertility ceases (between
40s and 50s). Temporary symptoms of decline estrogen
Endometriosis -> Tissues spread and grow outside of the uterus,
leading to scarring, symptoms and treatment. Painful during
menstruation
Fertilization
The process when sperm and oocytes unite

Germ cells -> produce gametes

Zygote -> Sperm enters a secondary
oocytes
Capacitation -> Acrosome membrane is
weakened
Conception -> fertilization of an egg by a
sperm, occuring in the oviduct
Cleavage -> The process of zygote beginning
to divide
Blastocyst -> A ball of cell with a central
cavity
Implantation -> The process from the zygote
is formed till the embryo sinks in the
endometrium.
After blastocyst formation, the embryo implants into the
endometrium. The embryo releases hCG. Duration of pregnancy in other
species correlates with body size and maturity of the young at birth
hCG -> human chorionic gonadotropin, prevents menstruation
Pregnancy/Gestation -> The condition of carrying one or more
embryos in the uterus
Twins
2 types of twins:
a. Identical (monozygotic)
Occurs when 1 sperm fertilizes 1 egg. Blastocyst splits into
2 cells, then develops into 2 different embryos. Since the twin
comes from the same fertilized egg, they’ll share identical
features
Types of identical twins:
DCDA Twins (dichorionic diamniotic)
Have their own placenta, inner membrane, and outer
membrane

MCMA Twins (monochorionic monoamniotic)
Share everything

MCDA Twins (monochorionic diamniotic)
Share the same placenta and chorion but different amnion

Conjoint / Siamese Twins
 Twin-twin transfusion syndrome (TTTS):
Blood flows from one twin to the other, resulting in one
baby getting too much blood and the other baby not getting
enough. (one baby rakus the other not enough food). Most
likely to happen to MCDA and MCMA twins.
What do they do when it happens?

b. Fraternal (dizygotic)
Occurs when sperm fertilize distinct eggs. The mother
releases multiple eggs. Fertilization of separate eggs in different
embryos. The placenta will fuse if the babies get too close. Not
even a bit identical.
Gamete (Sex Cell) Production
The formation of gametes is called
gametogenesis. In females it’s called oogenesis and
male it’s called spermatogenesis. The process involves
mitosis and meiosis.
a. Spermatogenesis
The forming process of male gamete
(sperm). Occurs in the seminiferous tubule and
it needs testosterone. Starts as puberty around 13-17 years old.
Equal division of cells and is involved in gamete production.
Lifelong and continuous release

1. Differentiation of primordial germ cells
into spermatogonium [Mitosis]
2. Spermatogonium differentiate into
primary spermatocytes (2n = diploid)
[Meiosis I]
3. Primary spermatocytes divide and
produce secondary spermatocytes (n = haploid) [Meiosis II]
4. Secondary spermatocytes produce spermatids
5. Spermatids turn into functional sperm cells (4 sperms)
Andropause -> when a male stops producing sperm
 b. Oogenesis
The formation of female gametes. Occurs in the ovary. Begins in
the fetus (400 oocytes) and released during puberty (menstrual cycle).
Continuously releasing for 400 months (33-35 years) then ovulation
stops (menopause). Ovulation happens in
the Ovum
Menopause -> the time that marks the
end of your menstrual cycle

1. Diploid oogonium (oogonia) develops
into primary oocytes [Mitosis]
2. Primary oocytes (develops in the follicle) divides into haploid
secondary oocytes and a polar body [Meiosis I]
3. Secondary oocytes divides into a mature ovum
and another polar body (won’t happen unless
fertilized by a sperm) [Meiosis II]
 Cell Division:
Introduction:
Definition:
Process by which a cell divides into 2 new
cells. Life begins as a zygote (fusion of egg cells
and sperm). Each nuclei contains 23 sets of
chromosomes and 46 sets when fused.
Haploid -> single set of chromosomes
Diploid -> two sets of chromosomes
Why do cells need to divide?:
Living things grow by producing more cells
Repair of damaged cells
If cell gets too big, it cannot get enough nutrients into the cell
and wastes out of the cell
Mitosis:
Definition:
Division of the nucleus into 2 nuclei, each with the same number
of chromosomes, occurs in all the somatic cells. Produces genetically
identical cells
Mitosis occurs -> so each new daughter cell has nucleus with a
complete set of chromosomes
Function of Mitosis:
Growth
Tissue repair/ replacing damaged cells
Asexual reproduction
How mitosis works:
Cell Cycle:
Series of events cells go through as they grow
and divide. Cells grow, prepare for division, divide to
form 2 daughter cells (perfect copy) then repeat. An
ordered sequence of events that extends from the
time a cell is first formed from a dividing parent cell
until its own division. When cells become old they die
and get replace with new cells
Interphase:
Period of cell growth and development. The longest phase in
mitosis.
3 Phases:
a. G1 Phase
Where cells do most of the growing, increase in size and
synthesize new proteins and organelles.
b. S Phase
Chromosomes replicate and the synthesis of DNA molecules takes
place. If a cell enters S phase, it completes the rest of the cycle
c. G2 Phase
Organelles and molecules needed in cell division are produced,
shortest of the 3 phases.
What occurs during Interphase:
DNA replication
Cells grow, carries out cell activities, replicates all other
organelles
Where cells spends most of their life
Phases of Mitosis:
 1. Prophase
Chromosomes coil up
Nuclear envelope disappear
Spindle fibers formed by centriole
2. Metaphase
Chromosome line up in the middle of
cell
Spindle fiber connects to chromosomes
No longer a nucleus present
3. Anaphase
Chromosomes copies divide
Spindle fiber pulls chromosomes to
opposite poles
4. Telophase
Chromosomes uncoil
Nuclear envelope form
2 new nuclei are formed
Spindle fibers disappear
Divide into 2 cells at opposite poles
Cytokinesis:
The division of the rest of the cell (cytoplasm and organelles)
after the nucleus finishes dividing. The final process, splitting of
cytoplasm. After cytokinesis, cells return to interphase.
Animal

Plants
Summary of Mitosis:
Meiosis:
Definition:
The process of making gametes (sperm/egg cells). Basis of sexual
reproduction. Only germ cells undergo meiosis. Produce non-identical
cells. Division of cells in the ovaries and testes.
3 ways genetic diversity is increased by mitosis:
2 parents contribute ½ of genetic material to offspring
Crossing-over in Prophase I
Chromosome alignment in Metaphase I
Interphase:
Similar to Mitosis Interphase
Chromosomes replicate in S phase
Each duplicated chromosome consists of two
identical sister chromatids attached at their
centromeres.
Centriole pairs also replicate
Nucleus and nucleolus visible
Meiosis I (4 phases):
Cell division that reduces the number of chromosomes by half
(haploid).
a. Prophase I
Longest and most complex phase (90%)
Chromosomes condense
Synapsis occurs - Homologous
chromosomes come together and form
tetrad
Tetrad -> 2 chromosomes/4 chromatids
Homologous Chromosomes aka Tetrad
○ Pair of chromosomes that are similar in shape and size
○ Tetrad carry genes controlling the same inherited traits
○ Each locus is in the same position
 ○ Humans has 23 pairs of tetrads
22 pair of autosomes
1 pair of sex chromosomes
Locus -> position of genes
Crossing-over
○ Occur between non-sister chromatids at sites called
chiasmata
○ Segments of non-sister chromatids break and
reattach to the other chromatid.
○ Chiasmata are where chromosomes touch each other
and exchange genes
○ Causes genetic recombination
Genetic Recombination

Sex Chromosomes

Nucleus & Nucleolus disappear
Spindle forms
Chromosome coils & synapsis occurs
Tetrads form & crossing-over occurs
 b. Metaphase I
Shortest phase
Tetrads align on the equator
Independent assortment occurs -
chromosomes separate randomly
causing genetic recombination
Formula: 2n
c. Anaphase I
Homologous Chromosomes separates and moves
towards the poles
Sister chromatids remain attached at their
centromeres
d. Telophase I
Each pole now has a haploid (1n) set of
chromosomes.
Cytokinesis occurs and two haploid
daughter cells are formed.
Meiosis II (4 phase):
Doesn’t have an interphase so it’s very short, No DNA replication.
Similar to mitosis.
a. Prophase II
Same as prophase in Mitosis
○ Nucleus & nucleolus disappear
○ Chromosomes condense
○ Spindle forms
b. Metaphase II
Same as metaphase in Mitosis
c. Anaphase II
Same as anaphase in Mitosis
○ Sister chromatids separate
 d. Telophase II
Same as Telophase in Mitosis
○ Nuclei and Nucleoli reform
○ Spindle disappear
○ Cytokinesis occurs
○ 4 haploid daughters are produced called
gametes
Variation aka Genetic Recombination
Important to the population as the raw material for natural
selection
All organisms are not alike
Strongest “most fit” survive to reproduce & pass on traits
Summary of Meiosis
Meiosis I
A reduction division
Early prophase → late prophase → metaphase → anaphase →
telophase
Meiosis II
A copying division
Late prophase → metaphase → anaphase → telophase →
cytokinesis
Comparison
 Contraception/Birth Control:
Definition
The use of medicines, devices, or surgery to prevent pregnancy.
Important to keep family size small and to control the increase in
human population.
Natural Method
Rhythm Calendar
Avoid sexual intercourse when the woman has an egg in her
oviduct. To predict her ovulation period and avoid sexual
intercourse 3/4 days before and after ovulation.
Chemical Method
Spermicide
Used to kill sperm when they enter vagina for female
Contraceptive Pill
Contains progesterone and estrogen that can stop eggs from
being produced in ovaries for females. Daily doses
Injection
Contains progesterone and estrogen which can prevent the
process of egg maturation and ovulation for females. One each
month.
IUS (Intra Uterine System)
A type of IUD that contains hormones that prevents
implantation
Mechanical Method
Condom
Placed over the erect penis to trap semen when released
and to stop it entering the vagina for male. Prevent pregnancy.
Diaphragm / Cap
A circular rubber sheet which is placed over the cervix on
the top of vagina so sperm can’t pass into the uterus for females
and males. Prevent pregnancy by killing sperm.
 IUD (Intra Uterine Device)
A device placed inside the uterus to prevent implantation
for females.
Surgical Method
Permanent Effect
Vasectomy
A procedure in which the 2 vas deferens that carry sperm
are surgically altered (cut or tied) so sperm can’t pass through to
fertilize a woman’s egg. Used by male
Tubectomy
Contraception where the fallopian tubes are cut and tied so
the eggs are prevented from traveling to the uterus. Used by
females
 Sexually Transmitted Disease:
Viruses:
1. HIV
Human Immunodeficiency Virus (Retrovirus)
Invades and destroys the helper T cells to
replicate itself
No cure
Slowly destroys the immune system
Transmitted by: Sexual Contact, Sharing
needles, Heredity(Placenta), Direct contact of body fluids
(blood)
Not transmitted by: Air/Water, Insect/Pets, Sharing,
Saliva/Sweat/Tears/Kissing
2. AIDS
Acquired Immunodeficiency Syndrome
Symptoms may appear ~10 years after HIV infection
HIV is the virus that cause AIDS
Limits the body’s ability to fight infection
No cure
How to Prevent:
○ Use Condoms
○ Avoid usage of needles & drugs
○ Intake of nutritious food
○ Avoid breast-feeding
○ Avoid intercourse w/ sex workers & addicted drug
users
○ Keeping yourself healthy
3. Genital Herpes (herpes simplex)
Caused by Herpes Simplex
Periodic eruption of small, painful blisters in genitals
Infection: Contact with fluid from there sores
Type 1: infects the lips, tongue, mouth and eyes
Type 2: Genital Infections
No cure but antiviral drugs can reduce pain
Similar to chicken pox
 4. Endometriosis
Tissues spread and grow outside of the uterus, leading to
scarring, symptoms and treatment.
Painful during menstruation
Surgery
5. Cervical Cancer
Caused by Human papilloma virus (HPV)
Infects the Cervix
Continuous bleeding
Extremely Contagious
Anti-HPV vaccine
Painless growth in genital area
Bacterium:
1. Gonorrhea (Neisseria gonorrhoeae)
May have no symptoms at first (female)
Caused by Neisseria Gonorrhoeae
Antibiotic Resistance
Males discharge pus (kencing nanah)
Cause sterility if untreated
Infects Genital Organs
2. Syphilis (Treponema pallidum)
Early symptoms may be painless and develop into
extensive rash
Caused by Treponema Pallidum
Tertiary stage can appear after 5-20
years from initial infection
Infection of newborn
Can be heredity
Infects genital organs normally in
female
Fungi:
1. Candidiasis
Caused by candida albicans
Yeast Infection
Healthy woman has small numbers in vagina
Causes problems:
○ Vaginal Itching
○ Burning
○ Heavy Curdy white discharge
2. Pubic Lice
Caused by Arachnid Crabs
3. Trichomoniasis
Caused by Trichomonas Vaginalis
Protozoan

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