Sunday, December 27, 2015

Psychology: Developmental Psychology: Case study 3: Infant facial preference

Psychology: Developmental Psychology: Case study 3: Infant facial preference

Authors: Langlois et al. (1991)

Background/Context: Is beauty in the eye of the beholder? Do we judge books (and people) by their cover?
Langlois believes that there is a universal standard of beauty that people judged facial attractiveness with, and both adults and infants judge attractive adults and infants more favorably, treating them better than those who are unattractive. 
Young infants have not yet been influenced by media or culture, so researching on infants would prove whether there is a universal standard of attractiveness.

Aim/hypothesis: 
  • Study 1:
    -Replicate previous results (preference for attractive) with adult female faces.
    -See if adult male faces produce the same results (preference for attractive).
    -Investigate where order of presentation of male/female affects preferences.
  • Study 2: See if same results are achieved with non-white faces.
  • Study 3: See if same results are achieved with faces of babies.
Method: Laboratory experiment

Variables:
  • Independent variables:Study 1-Attractive and unattractive white female faces-Attractive and unattractive white male faces-Infants who saw either of two conditions: All men then all women (or all women then all men) and alternating men and women.

    Study 2: Attractive and unattractive black female faces.

    Study 3: Attractive and unattractive male and female infant faces.
  • Dependent variable: Fixation time (in seconds) - length of time an infant looks at a face. Each face was presented twice (once on the left, and once on the right of the screen) so the mean time for each face was calculated and agreement between the two observers could be checked.
  • Attractiveness of faces judged by people on the 5-point Linkert scales.

Thursday, December 17, 2015

Psychology: Developmental psychology: Analysis of a phobia of a 5 year old boy

Psychology: Developmental psychology: Analysis of a phobia of a 5 year old boy

Author: Freud (1909)

Key term: Little Hans

Approach: Development psychology; psychodynamic perspective

Method: Case study and longitudinal method

Freud's psychodynamic approach:
  • Our behaviours and feelings when we grow up (including psychological problems) are caused by childhood experiences.
  • All behaviour is determined.
Personalities are made up of 3 parts: The ID (instinctive drive), ego and superego
  • ID: Biological aspects of the personality. Consists of two forces:
          Eros: Life force - Instinct that drives us to do biological things - sex drive, eating, etc. Mainly revolves around libido (sex drive).
          Thanatos: Death force- Instinct of self-destruction.
    ID is chaotic and totally unreasonable (we cannot randomly have sex with people when we feel like it).
  • Ego: Mediates between unrealistic ID and external real world. Decision making component of personality. Works out realistic ways of satisfying ID.
    "Part of the ID which has been modified by the direct influence of the external world" - Freud.
    Similar to ID, seeks pleasure and avoids pain but using a realistic strategy.
  • Superego: Values and morals of society by influence of parents or role models. Strive for perfection. Develops at around the age of 3-5 during phallic stage of psychosexual development. Two systems:
        Conscious: Punishes the ego through feelings of guilt.
        Ideal self: Imaginary picture of how you ought to be; career aspirations, how to treat other people and how to behave as a member of society.
  •  The ego and superego are largely determined by parental values and how you were brought up.
Freud's psychosexual development theory:
  • Freud believed life was built around tension and pressure, which was due to the libido.
  • What develops is the way sexual energy accumulates and builds up and is discharged as we mature biologically. 
  • Each psychosexual stage has a particular conflict that must be resolved before continuing to the next stage. Some people may not be able to leave one stage and continue on to the next. This can be because the needs of the stage have not been met, causing frustration, or the pleasure is so good they don't want to leave, called overindulgence. 
  1. Oral - The mouth - sucking, swallowing, etc. Ego develops.
  2. Anal - The anus - withholding or excreting feces. 
  3. Phallic - The penis or clitoris - masturbation. Superego develops.
  4. Latent - Little or no sexual motivation.
  5. Genital - The penis or vagina - Sexual intercourse.
Freud's Oedipus complex
  • Oedipus - Greek myth where Oedipus, a young man, kills his father and marries his mother.
  • The Oedipus complex is when a 3 - 5 year old boy develops sexual feelings for his mother, and therefore wants to get rid of his father so he can have his mother all to himself.
  • This is usually resolved by the boy imitating his father's masculine type behaviours, called identification.
  • Happens during phallic stage.
  • Fred states that every boy goes through this complex to a certain extent.

Little Han's phobia case study

  • 5 year old Jewish boy from Vienna, Austria.
  • Phobia of horses
  • Primary aim was to treat the phobia.
  • Freud did not work directly with Hans. his father gave Freud all the details of Hans behavior when he suspected Hans was suffering from the Oedipus complex.
  • At 3, Hans was very obsessed with his 'widdler' (penis), and also those of other people. He once asked his mother "Mommy, do you also have a widdler?". He played with it regularly until his mother threatened to call the doctor to get it cut off, which made him get castration anxiety. 
  • At the same time, Hans saw a horse collapse and die in the street, and was very upset.
  • At 4, Hans developed a fear of horses, specifically a fear that a white horse would bite him. 
  • At the same time a conflict developed between him and his father. Hans had developed a habit of getting in to his parents bed in the morning to cuddle his mother. However, his father began to object and banned him from continuing.  
  • Hans phobia worsened to the point that he would not leave the family house and he also suffered attacks of generalised anxiety.
  • The anxiety Hans had was actually castration anxiety triggered by his mothers threat to cut off his "widdler" and fear of his father caused by his banishment from the parental bed. 
  • Hans reported having the following dream; "In the night there was a big giraffe in the room and a crumpled one: and the big one called out because I took the crumpled one away from it. Then it stopped calling out: and I sat on top of the crumpled one."
  • The giraffes in Hans dream represent his parents. The large giraffe is his father, and him crying out represented him objecting Hans. It's erect neck could have also been a penis symbol. The crumpled giraffe was his mother, and the crumpling represented her genitals. 
  • When Hans was 5 his phobia of horses lessened, initially becoming limited to only white horses with black nose bands, then disappearing altogether.
  • The horses represented Hans father, especially white horses with black nose bands, because they looked like his moustached father. Horses also have large penises, which make a good father symbol.s
  • The end of the phobia was marked by two fantasies:
  • Hans fantasised that he had several children. When his father asked who their mother was Hans replied "Why Mummy, and you're the granddaddy"
  • This children fantasy represents a friendly resolution of the Oedipus complex, where he replaces his father but still keeps him in the family with the role as grandfather.
  • The next day, Hans fantasised that a plumber had come and removed his bottom and penis, replacing them with new and larger ones
  • The plumber fantasy represents identification with the father. Hans can see himself growing a large penis like his fathers and becoming like him.
Conclusion
Hans had a phobia of horses because he was suffering from castration anxiety and was going through the Oedipus complex. Hans dreams and fantasies helped express this conflict and eventually he resolved his phobia and Oedipus complex by identification by fantasising of himself taking on his fathers role and placing his father in the role of grandfather.

Strengths

  • Case study - Lots of data can be collected because it is the study of one boy, so it is more valid.
  • Natural observation - Hans was in his own house and not in any artificial setting, so there is a high level of ecological validity and mundane realism.
Weaknesses
  • Unscientific - Freud's theory is considered unscientific because there is no evidence to back his theory.
  • Generalization - Since it is the study of only one boy, we cannot generalize the oedipus theory to every boy.
  • Bias - Freud published his theory before doing this case study, therefore he could have been bias. Hans father was a fan of Freud and believed in his theory, therefore he could've only told details that correlated to the study.
  • Invalid - There could be many other reasons Hans had a phobia of horses. For example, when he was 3 he saw a horse fall in the street and die.


Tuesday, December 15, 2015

Biology: Chapter 5: Mitotic Cell cycle: Mitosis

Biology: Chapter 5: Mitotic Cell cycle: Mitosis


  • Part of a precisely controlled process called the cell cycle.
  • Nuclear division: Splits the cell's nucleus into two daughter nuclei that are genetically identical and contain the same number of chromosomes as the parent cell.

Cell cycle

  • Regular sequence of events between one cell division to the next.
  • Three phases: Interphase, nuclear division (mitosis) and cell division (cytokinesis)
Interphase:
  1. G1 phase (Gap 1): Cell grows to normal size after cell division. Carries out normal function eg. Protein synthesis. At the end of G1, the cell receives a signal telling it whether or not it will divide. If a cell receives the go signal to divide, it will continue into the S phase.
  2. S phase (synthesis): DNA in the nucleus replicates - two sets of each chromatid that can form chromosomes.
  3. G2 phase (Gap 2): Cell continues to grow and the new DNA is checked for any errors and are repaired. Preparations made for division eg. Increased production of Tubulin, which is used to make spindle.
Nuclear division (mitosis):
  • Nucleus divides into two genetically identical daughter nuclei
  • Growth temporarily stops.
Cell division (cytokinesis):
  • After the two new nuclei move to the opposite poles of the cell, the cell splits into two by constricting the cytoplasm between the two nuclei
  • Cleavage furrow: Constriction of the cytoplasm between two nuclei.
  • Creates two new identical cells.
  • In plant cells, vesicles carry building materials (eg. cellulose) from the golgi body and fuse together to form a cell plate between the two nuclei.
Cell cycle diagram

Mitosis

  • Four phases: Prophase, Metaphase, Anaphase and Telophase (PMAT)
Prophase:
  • Chromatin coil up and chromosomes start to appear
  • Nuclear envelope, nucleolus and organelles 'disappear' - break up into smaller vesicles
  • Centrosomes replicate and start moving to opposite poles where they form the poles of the spindle fibre.
Metaphase:
  • Centrosomes at opposite poles help organize production of spindle microtubules.
  • Chromosomes line up across the middle of the spindle, attached by their centromeres.
Anaphase:
  • Spindle fibre attached to the centromeres of the chromosomes pull the two chromatids to separate poles, centromere first.
Telophase:
  • Chromatids reach the pole of their spindle and uncoil (each one contains 1 DNA molecule, which replicates itself during interphase for the next cell division)
  • Nuclear envelope and nucleolus reform around the chromatin
  • Remaining spindle fibre breaks down
  • Cytokinesis starts 

Significance of mitosis
  • Growth: Two daughter cells are identical and have the same number of chromosomes - allow for multicellular growth from a unicellular zygote. Can occur over the entire body or in specific regions.
  • Repair and replacement of cells: Dead or faulty cells can be replaced by identical cells.
  • Asexual reproduction: Production of new genetically identical individuals by a single parent organism. Can occur in unicellular organisms eg. Amoeba or in some plants (budding)
  • Immune response


Friday, December 11, 2015

Biology: Chapter 5: Mitotic Cell cycle: Components of a cell cycle

Biology: Chapter 5: Mitotic Cell cycle: Components of a cell cycle

  • Cells reproduce by dividing and passing on copies of their genes to 'daughter' cells. 
  • This is done through nuclear and cell division.

Chromosomes

  • Condensed form of chromatin that occurs only during mitosis. Chromatin during normal cell activity (interphase). Consist of 2 identical sister chromatids connected by a centromere. 
  • Each chromatid contains 1 DNA molecule - chromatids in chromosomes are identical to one another.
Chromosome during Anaphase
  • DNA: Molecule of inheritance. Made up of a series of genes. Only 2nm wide, but total length of the DNA in all the 46 chromosomes in an adult is approximately 1.8 meters. DNA is wound around histones precisely to keep them from being tangled. 
  • Gene: 1 unit of inheritance. Codes for 1 polypeptide that is involved in a specific aspect of the functioning of the organism.
  • Histone: Protein that DNA wounds around. Proteins are basic (alkali) which means they can easily interact with acidic DNA.
  • Nucleosome: DNA wrapped around 8 histone molecules. Are like beads on a necklace. Each 'bead' is one nucleosome. Further coiled into chromatin.
  • Chromatin: Coiling of DNA around histones (proteins). Makes up chromosomes; chromosomes are the condensed form of chromatin during nuclear division. Easily stained. Exists in two forms: Euchromatin (loosely coiled) and heterochromatin (tightly coiled). During normal cell activity (interphase) chromatin is mostly in the form of Euchromatin so the coding can easily be accessed.
  • Double structure - two identical structures called chromatids joined together by a centromere.
From DNA to chromosomes

  • Centromere: Narrow region of the chromosome that joins both chromatids together. Position of the centromere is a particular characteristic for each chromosome. The centromere can be found anywhere along the chromosome. Needed for separation of chromatids during mitosis. Site of attachment for spindle molecules.
  • Kinetochore: Attached to centromere during metaphase chromosome, 1 for each chromatid. Made of protein molecules which bind specifically to DNA in the centromere and also to the microtubule spindles. Construction of kinetochore begins before nuclear division (interphase) and are lost after nuclear division.
  • Spindle attached to kinetochore of chromosomes pulls the kinetochore, pulling apart the chromosome. This is done by the shortening of the microtubules from both the centrosome pole end and the kinetochore end.
  • CentrosomesPoles of the spindle. Help in the construction of the spindle microtubules, but do not produce the spindle fiber. Centrosomes consist of a pair of centrioles surrounded by large number of proteins that control production of the spindle (the centrioles are not involved in the Microtubule production). Plants do not have centrosomes.
Telomeres

  • Telomeres: Made up of multiple DNA base repeat sequences (repeat of guanine (G) for one strand and cytosine (C) for another).
  • Have no useful information, but allow enzymes to complete copying important DNA.
  • Telomeres are attached to the ends of chromosomes to prevent the genes at the ends of the DNA strand being cut off during replication - if part of the DNA is not copied, the information is lost, which will eventually cause cell death when vital genes are lost.
  • Prevents loss of genes during division and allow continued replication.
    Telomeres in cell division
  • Telomerase: Enzyme that adds extra DNA to the telomeres.
  • Some cells (mainly specialised cells) do not have telomerase, so with each division their telomeres get a little shorter until vital DNA is no longer protected and the cell dies.
  • Could be a mechanism of aging.

Stem cells

  • Cell that can divide an unlimited number of times by mitosis.
  • Each time it divides, it has the potential to stay as a stem cell or develop into a specialized cell (eg. nerve cell).
  • Potency: How many different cell types the stem cell can specialize into. 
  • Totipotent: Stem cells that can produce any type of cell. Zygotes (fertilization of sperm and egg) and cells up to 16-stage development are totipotent,
  • Pluripotent: Embryonic stem cells after some cells have specialized to form the placenta. The cells can no longer form a placenta, but can form every other cell that leads to the development of the embryo and later the adult.
  • Multipotent: Stem cells that are only able to form a few types of cells eg. bone marrow cells can form red and white blood cells. Can replicate any number of times but can only produce those type of cells.
  • The more cells specialize, the more they lose the ability to divide. In an adult most cells do not divide. 
  • Stem cell therapy: Introduction of new adult stem cells into damaged tissue to treat disease or injury. Bone marrow transplantation is the only form of this therapy that has progressed passed experimental stage into routine medical practice. Experiments with growing new tissues or even organs from isolated stem cells in laboratories have been conducted.

Cancer

  • Result of uncontrolled mitosis.
  • Divide repeatedly and form a tumor
  • Tumor: Irregular mass of cells, which usually show abnormal changes in shape. Typical tumor contains approximate 1000 million cancerous cells
  • Thought to start when changes occur in the gene that cause cell division.
  • Mutation: Change in any gene.
  • Oncogene: Mutated gene that causes cancer. 'Onkos' means bulk or mass in greek.
  • Mutations occur frequently and don't usually lead to cancer, usually getting destroyed by the immune system or getting affected in a way that leads to an early death, and get replaced by mitosis.
  • Cancerous cells manage to bypass cell checkpoints in the interphase and cell death, leading to the cancerous cell replicating and passing on faulty genes to all of it's descendants.
  • Carcinogen: Factor that causes cancer eg. pollution, radiation, UV light
  • Not all tumors are cancerous 
  • Benign tumors: Non-cancerous tumors - do not spread from site of origin eg. warts
  • Malignant tumors: Spread through the body, invading other tissues and destroying them. Interfere with the normal functioning of the area where they started to grow; may block off intestines, lungs or blood vessels.
  • Metastasis: Cells that break off and spread through the blood and lymphatic system (transport lymph) and form secondary growths.
    Most dangerous characteristic
    of cancer.
    Can be hard to find and remove secondary cancers.
Normal cell vs cancer cell