Evolution and Genetics Basis of Behavior Psychology PDF

Summary

This psychology handout covers evolution and genetics. It explains heredity in psychology, different heredity mechanisms, genetic abnormalities, and the process of reproduction. It also discusses the impact of genetic inheritance on behavior and mental health.

Full Transcript

**KOLEHIYO NG LUNGSOD NG DASMARIÑAS Psychology Department** *Brgy. Burol
Main Dasmariñas, City, Cavite*

**LESSON 2**

**EVOLUTION AND GENETICS BASIS OF BEHAVIOR**

Week 3 Handout

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| **Learning Outcomes** |
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| 1\. Apply the concepts of heredity in psychology. |
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| 2\. Identify and explain different mechanisms of heredity. |
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| 3\. List down and explain different genetic abnormalities. |
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**APPLICATION OF HEREDITARY IN PSYCHOLOGY**

❖ Heredity is a fundamental concept in psychology that examines how
genetic factors influence behavior, personality, intelligence, and
susceptibility to psychological disorders.

**Francis Galton**, a 19th-century English polymath who is

often considered the ***father of eugenics***.

▪ **Eugenics** -- coined the term \"eugenics\" in 1883,

defining it as the science of improving human

populations by controlled breeding to increase

the occurrence of desirable heritable

characteristics.

o **Positive Eugenics:** Encouraged the

reproduction of people with perceived

desirable traits, such as intelligence,

physical health, and moral character.

o **Negative Eugenics:** Discouraged or prevented the reproduction of
people with perceived undesirable traits, such as mental illness,
physical disabilities, and criminal tendencies.

***Physiological/Biological Psychology***

**Genetic Inheritance:** Genes are passed from parents to offspring,
determining a wide range of characteristics, from physical traits to
behavioral tendencies. Genetic predispositions can increase the

likelihood of developing mental health

disorders such as depression, schizophrenia,

and anxiety disorders. However, environmental

factors often trigger the onset of these

conditions.

**MECHANISMS OF HEREDITY**

❖ Heredity is the process through which genetic

information is transmitted from parents to their

offspring, ensuring that offspring inherit traits

from both parents. This process is governed by

the principles of genetics.

**DNA Structure and Function**

**DNA (Deoxyribonucleic Acid):** The molecule that carries genetic
information in all living organisms. It is composed of nucleotides
arranged in a double helix structure.

**Genes:** Segments of DNA that code for

proteins, which carry out most of the

functions in a cell. Genes are the basic

units of heredity.

**Alleles:** Different versions of a gene

that can lead to variations in a trait (e.g.,

blue eyes vs. brown eyes). An individual

inherits two alleles for each gene, one

from each parent.

Reference: Freberg, L. (2010). *Discovering
Biological Psychology* (2nd ed.). Wadsworth, Cengage Learning.
**Prepared by: Dianne E. Agana, MAPsy, RPm**

**KOLEHIYO NG LUNGSOD NG DASMARIÑAS Psychology Department** *Brgy. Burol
Main Dasmariñas, City, Cavite*

**Polygenic Inheritance**

**Complex Traits:** Many traits, such as height, skin color, and
intelligence, are influenced by multiple genes (polygenic inheritance)
rather than a single gene. These traits exhibit a range of phenotypes,
creating a continuous distribution (e.g., a bell curve for height).

**Gene-Environment** 

**Interactions:** The

expression of polygenic

traits can be influenced

by environmental

factors, such as

nutrition, stress, and

education.

**THE PROCESS OF REPRODUCTION**

Reproduction is the biological process by which new individuals are
produced, involving the transmission of genetic material from parents to
offspring. The process is key to the continuity of species and the
inheritance of traits.

**Meiosis** is a type of cell division that reduces the chromosome
number by half, resulting in the formation of haploid gametes (sperm and
eggs). Meiosis consists of two rounds of division: Meiosis I and Meiosis
II.

o **Genetic Variation:** Meiosis introduces genetic variation through
two key processes: crossing over (exchange of genetic material between
homologous chromosomes) and independent assortment (random distribution
of chromosomes to gametes).

o **Stages of Meiosis**

▪ **Prophase I:** Chromosomes condense, homologous chromosomes pair up,
and crossing over occurs.

***Physiological/Biological Psychology***

▪ **Metaphase I:** Paired homologous chromosomes align at the cell\'s
equator.

▪ **Anaphase I:** Homologous chromosomes are pulled to opposite poles.

▪ **Telophase I:** Two haploid cells are formed, each with half the
number of chromosomes.

▪ **Meiosis II:** Similar to mitosis, where sister chromatids are
separated, resulting in four genetically unique haploid cells.

**Fertilization** is the union of a sperm cell and an egg cell to form
a zygote, which contains the full diploid number of chromosomes (46 in
humans). o **Zygote Formation:** The zygote undergoes multiple rounds of
cell division (mitosis) to develop into an embryo. The genetic material
from both parents combines to create a unique genetic profile in the
offspring.


Reference: Freberg, L. (2010). *Discovering Biological Psychology* (2nd
ed.). Wadsworth, Cengage Learning. **Prepared by:
Dianne E. Agana, MAPsy, RPm**

**KOLEHIYO NG LUNGSOD NG DASMARIÑAS Psychology Department** *Brgy. Burol
Main Dasmariñas, City, Cavite*

**Examples of Reproductive Processes**

**Human Reproduction:** In humans, the process of reproduction
involves the production of sperm in males (spermatogenesis) and eggs in
females (oogenesis), followed by fertilization, implantation, and
development of the fetus.

**Genetic Disorders:** Errors in meiosis or fertilization can lead to
genetic disorders, such as Down syndrome (trisomy 21), where an
individual has an extra chromosome.

**CHROMOSOMAL ABERRATIONS**

❖ Chromosomal aberrations refer to changes in the structure or number of
chromosomes, which can result in genetic disorders or developmental
abnormalities. These aberrations can occur due to errors during cell
division or damage to chromosomes.

**Types of Chromosomal Aberrations**

**1. Deletion** is a segment of a chromosome that is missing or deleted,
leading to the loss of genetic material.

**2. Duplication** is a segment of a chromosome that is duplicated,
resulting in extra genetic material.

**3. Inversion** is a chromosome segment that breaks off, flips around,
and reattaches, reversing the order of genes. Inversions can be
**paracentric** (involving one arm) or **pericentric** (involving both
arms, including the centromere).

**4. Translocation** is a segment from one chromosome is transferred to
another chromosome. This can be **reciprocal** (exchange of segments
between two chromosomes) or **Robertsonian** (fusion of two acrocentric
chromosomes).

**5. Aneuploidy** is an abnormal number of chromosomes due to
nondisjunction during meiosis, resulting in cells with extra or missing
chromosomes.

**Detection and Diagnosis**

**1. Karyotyping:** A laboratory technique that produces an image of an
individual\'s chromosomes, allowing for the detection of large
chromosomal abnormalities, such as aneuploidies and large deletions or
duplications.

***Physiological/Biological Psychology***

**2. FISH (Fluorescence in Situ Hybridization):** A technique that uses
fluorescent probes to bind to specific DNA sequences on chromosomes,
allowing for the detection of small deletions, duplications, and
translocations.

**3. Comparative Genomic Hybridization (CGH):** A molecular technique
that compares the DNA of a patient with a reference sample to identify
gains and losses of DNA segments across the genome.

**Examples of Chromosomal Disorders**

**[Down Syndrome (Trisomy 21])**

**Cause**: An extra copy of

chromosome 21.

**Symptoms**: Intellectual disability,

characteristic facial features (such

as a flat facial profile, upward

slanting eyes, and a small nose),

heart defects, and an increased

risk of certain medical conditions

like leukemia and Alzheimer's

disease.

**[Turner Syndrome (Monosomy X)]** 

**Cause**: Females have only one

X chromosome (45, X).

**Symptoms**: Short stature,

webbed neck, broad chest,

underdeveloped secondary

sexual characteristics, and

infertility. Some individuals may

have heart defects or learning

difficulties, particularly with

spatial reasoning**.**

Reference: Freberg, L. (2010). *Discovering Biological Psychology* (2nd
ed.). Wadsworth, Cengage Learning. **Prepared by:
Dianne E. Agana, MAPsy, RPm**

**KOLEHIYO NG LUNGSOD NG DASMARIÑAS Psychology Department** *Brgy. Burol
Main Dasmariñas, City, Cavite*

***Physiological/Biological Psychology***

**[Klinefelter Syndrome (XXY) ]**

**[Edwards Syndrome (Trisomy 18) ]**

**Cause**: Males have an extra X chromosome (47, XXY).

**Symptoms**: Tall stature, reduced muscle mass, body hair, and
testosterone levels, infertility, and

learning disabilities,

particularly with language

and reading. Individuals

may also have a higher risk

of developing certain

health issues, such as

osteoporosis and breast

cancer.

**[Patau Syndrome (Trisomy 13)]** 

**Cause:** An extra copy of chromosome 13.

**Symptoms:** Severe intellectual disability,

congenital heart defects, brain abnormalities,

cleft lip/palate, polydactyly

(extra fingers or toes), and

severe developmental delays.

Most affected infants do not

survive past the first year of

life.

**Cause:** An extra copy of chromosome 18. 

**Symptoms:** Severe intellectual disability, low birth weight, small
head

(microcephaly), clenched fists with

overlapping fingers, heart defects, and

severe developmental delays. Like

Patau syndrome, many affected

individuals do not survive beyond

infancy.

**\*\*\*\*\*\*\* Nothing Follows \*\*\*\*\*\*\***

Reference: Freberg, L. (2010). *Discovering
Biological Psychology* (2nd ed.). Wadsworth, Cengage Learning.
**Prepared by: Dianne E. Agana, MAPsy, RPm**