1. CYTOLOGY, GENETICS AND HISTOLOGY

Question 1

Histology

Answer 1

study of tissues

Question 2

Endocrine

Answer 2

Hormones

Question 3

integumentary

Answer 3

skin

Question 4

Cytology

Answer 4

The study of cells

Question 5

Define ‘Homeostasis’

Answer 5

Homeostasis is the dynamic and ever-changing condition of equilibrium (balance) in the body’s internal environment maintained by the body’s own regulatory processes. It is a fundamental principle of physiology.

Question 6

Differentiate the following terms by defining each:

• Anatomy
• Physiology
• Pathology

Answer 6

Anatomy is the study of structures that form the body.

Physiology is how the parts of the body work.

Pathology is the study of abnormalities from normal function.

Question 7

Name the 7 characteristics of ‘Life’

Answer 7

Metabolism - sum of all chemical processes

Responsiveness - ability to respond to changes in environment.

Movement - cells, organs and whole organism

Reproduction - formation of new cells / organism

Growth - increase in size/number

Differentiation - development to specialised state

Vital Force/Qi - energy of life

Question 8

Name four characteristics of ‘Death’

Answer 8

Loss of heartbeat.

Absence of breathing.

Loss of brain function.

No vital force/life force/Qi.

Question 9

Name the 7 physiological variables that must be kept within narrow parameters to enable homeostasis in the body

Answer 9

1. Core temperature (36.5 - 37.5 degrees C)
2. Water and electrolyte balance
3. pH of body fluids
4. Blood glucose levels (4-7mmol/L)
5. Blood and tissues Oxygen/CO2 levels
6. Blood pressure
7. Flow of life force

Question 10

Blood plasma, synovial fluid, lymph fluid and interstitial fluid are all examples of _____________ fluids

Answer 10

extracellular

Question 11

Name the four body cavities

Answer 11

Cranial
Thoracic
Abdominal
Pelvic

Question 12

When does disease happen

Answer 12

when the flow of energy between interconnected cells is interrupted

Question 13

Homeostasis is constantly being disturbed by external and internal factors and so requires control systems to bring it back into balance.

These control systems are made up of:

Answer 13

1. Disruptors: Change homeostatic parameter.
2. Detectors: Receptors that detect disruption (often nerves).
3. Control centre: Determines limits within which parameters
   should be maintained. Evaluates input and generates output.
4. Effectors: Structures that receive output.

Question 14

Name four things that can cause oxidative damage in the body

Answer 14

Stress, smoking, toxins, diet high in refined foods and sugar

Question 15

Define a negative feedback system and give one example

Answer 15

A negative feedback system is one where the output (from the effectors) reverses the input (detected by the receptors).

Examples are increasing or decreasing body temperature, blood glucose, blood pressure.

Question 16

Systems of the Human Body

Answer 16

• Skeletal system.
• Muscular system.
• Respiratory system.
• Cardiovascular system.
• Digestive system.
• Endocrine system.
• Lymphatic system.
• Integumentary system.
• Urinary system.
• Reproductive system.
• Nervous system.
• Immune system.

Question 17

Body Organisation:

Answer 17

• Atoms and molecules: Chemical level.
• Cells: The smallest living units in the body.
• Tissues: Groups of cells that work together to perform a function.
• Organs: Groups of tissues working together.
• Systems: Related organs that have a
  common function.
• The organism: All body parts together.
• Vital Force: The energy that creates life.

Question 18

A gene is

Answer 18

a sub section of DNA

Question 19

All known living things are made up of cells and Vital Force.

Cells are:

Answer 19

• The cell is the structural and functional unit of all living things.
• All cells come from pre-existing cells by ‘division’.
• Cells contain hereditary information in the form of DNA, which is passed from cell to cell during cell division.
• All energy flow of life (metabolism and Life Force) occurs within cells.

Question 20

A positive feedback system strengthens/enhances change in one of the body’s controlled conditions, and is much rarer than negative feedback systems. Give three examples of positive feedback systems.

Answer 20

Blood clotting 
Childbirth
Milk production 
Enzyme reactions 
Immunity

Question 21

What are free radicals and how can they be countered in the body?

Answer 21

Free radicals are unstable and highly reactive molecules. They lack an electron in their atomic structure, which can be donated by antioxidants such as Vitamin A, C, E, beta-carotene (Vitamin A precursor), quercetin and lycopene.

Question 22

As well as in the brain memory can be stored in?

Answer 22

Cells. (people who have organ transplants can gain new personality traits and memories)

Question 23

What are the main differences between prokaryotic and eukaryotic cells?

Answer 23

Prokaryotic cells contain no nucleus and no membrane bound internal structures, while eukaryotic cells have both.

Question 24

True or false:

Only prokaryotic cells have cell walls.

Answer 24

False: Plants and fungi are eukaryotes and their cells have cell walls.

Question 25

Differentiate between ’cytosol’ and ‘cytoplasm’ by defining them.

Answer 25

Cytosol is the basic watery fluid inside a cell. Cytoplasm is the cell content excluding the nucleus (cytosol + organelles)

Question 26

The cell membrane is a ________, semi-_________ membrane that separates the cell’s ________ and internal environment.

Answer 26

Flexible
Permeable
External

Question 27

Briefly describe the structure of the cell membrane

Answer 27

The cell membrane is a phospholipid bilayer, these being arranged with the hydrophilic phosphate heads towards the outsides and the hydrophobic lipid tails on the inside.

Question 28

Cell membranes are embedded with _____________ proteins and controls substance ________ in and out of cells.

Answer 28

Transmembrane

Movement

Question 29

What are the functions of transmembrane proteins?

Answer 29

1. Transport of substances in/out of cells (e.g. charged particles like hydrogen and larger molecules like glucose)
2. Immunological identity: helps immune cells recognise our own cells
3. Receptors: recognition sites for hormones etc.

Question 30

Name two places in the body where tight cell junctions can be found

Answer 30

Stomach
Intestines
Bladder

Question 31

Name five of the key organelles found in body cells

Answer 31

Nucleus (with nucleolus)
Mitochondria 
Ribosomes 
Endoplasmic reticulum 
Golgi apparatus 
Lysosomes 
Cytoskeleton

Question 32

All body cells have a nucleus with the exception of _____________________.

Answer 32

Red blood cells

Question 33

phosphate

Answer 33

salt

Question 34

Lipid or lipo =

Answer 34

fats

Question 35

The nucleus is a spherical structure that contains the body’s _______ information in the form of ___. It controls all cell functions, hence known as the _____ of the cell. It contains a _________, which produces RNA.

Answer 35

Genetic
DNA
Brain
Nucleolus

Question 36

What organelle is continuous with the nuclear membrane?

Answer 36

Rough endoplasmic reticulum

Question 37

DNA forms a double _____ which coils around proteins called ________.

Answer 37

Helix

Histones

Question 38

How many chromosomes are there in somatic cells?

Answer 38

23 pairs (46)

Question 39

How many chromosomes are there in gametes?

Answer 39

23

Question 40

What are genes?

Answer 40

Sub-sections of DNA that act as instructions to make proteins.

Question 41

Which heavy metal can cause damage to neurons, has been significantly linked to alzheimer’s and is a risk factor in cancers such as breast cancer?

Answer 41

Aluminium

Question 42

A cell with 46 chromosomes (ie. 23 pairs), are termed _______, while cells with 23 chromosomes (gametes) are termed _______.

Answer 42

Diploid

Haploid

Question 43

What is the complete set of chromosomes from a cell called?

Answer 43

Its karyotype

Question 44

By which process do prokaryotic cells divide?

Answer 44

Binary fissure (rapid mitosis)

Question 45

What is the definition of a hormone?

Answer 45

A chemical messenger that travels in the blood.

Question 46

In the cells of which body cells are the most mitochondria found?

Answer 46

Liver, muscle and spermatozoa

Question 47

Which type of cells in the body characteristically have gap junctions (small fluid-filled tunnels between neighbouring cells)

Answer 47

Nerve cells

Question 48

Describe the structure of a chromosome

Answer 48

A chromosome consists of a pair of chromatids, joined by a centromere. A chromatid forms from chromatin that tightly coils itself around proteins called histones. These strands of tightly coiled DNA are double-stranded molecules, made up of two chains of nucleotides. Nucleotides consist of three subunits: a sugar, a phosphate group and a base. Likened to a twisted ladder, DNA’s uprights are formed by alternating chains of sugar (deoxyribose) and phosphate units. The four different bases bind to the phosphate in a precise order that makes up the genetic code.

Question 49

Uncoiled, what length of DNA is there in each body cell?

Answer 49

2 metres (6 feet)

Question 50

What is the cytoskeleton of the cell and what is its function?

Answer 50

The cytoskeleton is a network of protein filaments (microtubules and microfilaments) that extends throughout the cytosol that assists with:

1. Generating cell movement- enable white blood cells to migrate to sites of injury and enable muscle contraction
2. Physical support and shape of the cell
3. Cell division - they move chromosomes apart (as the mitotic spindle)

Question 51

What is the energy currency of the cell that is produced by mitochondria

Answer 51

ATP (adenosine triphosphate)

Question 52

Finish the following ‘aerobic respiration’ equation:

Glucose + ______ = carbon dioxide + water + ___

Answer 52

Oxygen

ATP

Question 53

What is the function of ribosomes in the cell and in which two places can they be found?

Answer 53

Ribosomes act as the site of protein synthesis (their name reflects their high content of ribonucleic acid). They are either mobile (free in cytoplasm - make proteins for use inside the cell) or stationary (bound to rough endoplasmic reticulum - make proteins for outside the cell).

Question 54

What is the rough endoplasmic reticulum and what is its function?

Answer 54

It is a network of membranes in the form of flattened sacs that is continuous with the nuclear envelope, is studded with ribosomes and extends throughout the cytoplasm to the cell membrane. It synthesises and transports proteins out of the cell.

Question 55

What is the role of the smooth endoplasmic reticulum?

Answer 55

It contains unique enzymes and

1. synthesises lipids and steroid hormones (eg. oestrogen)
2. In the liver it detoxifies alcohol and drugs
3. In muscles, it releases calcium for muscle contraction.

Question 56

What is the function of the Golgi apparatus in the cell?

Answer 56

The Golgi apparatus modifies, sorts, packages and transports proteins received from the rough ER. The membrane-bound vesicles of proteins created are stored, and when needed are moved to the plasma membrane before fusing with it and then expelling it from the cell in a process known as exocytosis. It can be likened to the cell’s Post Office.

Question 57

What are lysosomes?

Answer 57

Lysosomes are small membranous vesicles that are pinched off from the Golgi apparatus. They contain as many as 60 powerful enzymes which engulf and digest fragments of organelles and large molecules (e.g. RNA, DNA, carbs and proteins) inside the cell that are either recycled or exported from the cell as waste material. Lysosomes in white blood cells digest foreign materials like microbes, and in sperm it releases enzymes externally to assist egg entry.

Question 58

What kind of cells reproduce via mitosis and what is the end result?

Answer 58

Somatic cells reproduce via mitosis and each division creates two identical daughter cells.

Question 59

Which body cells never undergo mitosis?

Answer 59

Neurons

Question 60

How long does it take the following cells and organs to replace themselves:

1. Skin
2. Stomach and intestinal mucosa
3. Liver
4. Red blood cells
5. Taste buds

Answer 60

1. 40 days
2. 5 days
3. 5 months
4. 90-120 days
5. 10 days

Question 61

Do gametes have a diploid or haploid nucleus?

Answer 61

haploid

Question 62

What is the process called by which gametes reproduce?

Answer 62

Meiosis

Question 63

Fertilisation describes the fusion of a ____ and a ______ gamete and leads to the formation of a ______, which undergoes mitosis and develops into an embryo and finally a ______ (after eight weeks).

Answer 63

male
female
zygote
foetus

Question 64

Are mutations in somatic cells heritable?

Answer 64

No

Question 65

Briefly outline the two phases of protein synthesis

Answer 65

1. Transcription - a copy of one gene is made into mRNA which travels out of the nucleus to a ribosome
2. Translation - the ribosome reads the code and produces a chain of amino acids to form the required protein.

Question 66

What are the three types of passive transport

Answer 66

Substances always move from a high to low concentration:

1. Diffusion - movement of small molecules (eg. gasses)
2. Osmosis - passive movement of water
3. Facilitated diffusion - movement of larger substances (eg. glucose and charged molecules) with the aid of transmembrane proteins

Question 67

Active transport describes the movement of substances from an area of ____ to ____ concentration and requires ___. The main examples of active transport are:

1. _____________
2. _____________
3. _____________

Answer 67

low
high
ATP
1. Pumps - e.g. sodium-potassium pump: use protein pumps in the cell membrane
2. Endocytosis - engulfing of particles into the cell through cell membrane extensions [phagocytosis and pinocytosis]
3. Exocytosis - removal of waste from the cell [vesicles engulf the material and fuses with the cell membrane before being expelled]

Question 68

What are the four types of tissues found in the body.

Answer 68

1. Epithelial tissue - closely packed cells e.g. epidermis, lining of lungs, digestive tract and heart
2. Connective tissue - most abundant and diverse tissue e.g. bone, cartilage and blood
3. Muscular tissue - contracts to create movement
4. Nervous tissue - transmits electrical signals round the body

Question 69

What are the two basic elements that connective tissue is made up from?

Answer 69

1. Extracellular matrix: formed of ‘ground substance’ and ‘protein fibres’ (collagen and elastic)
2. Cells: widely spaced, unlike epithelium. eg. fat cells and white blood cells

Question 70

True or false: protein fibres produce fibroblasts

Answer 70

False: fibroblasts produce protein fibres

Question 71

Where in the body is collagen fibres the most abundant?

Answer 71

Bone, ligaments and tendons

Question 72

Describe the composition and function of elastic fibres

Answer 72

Elastic fibres are made from the protein elastin, surrounded by glycoprotein to add strength. It is strong but stretchy and allows tissues such as the skin, blood vessel walls and lung tissue to return to their original shape.

Question 73

Name three types of connective tissue cells

Answer 73

Fibroblasts, Adipocytes and White blood cells (macrophages, lymphocytes and mast cells)

Question 74

List five functions of connective tissue

Answer 74

1. Structural (bone, cartilage)
2. Transport (blood)
3. Protection (bone, cartilage, adipose)
4. Support and interconnection
5. Insulation (adipose tissue)
6. Energy store
7. Production of blood and lymphatic cells (adipose, bone marrow)
8. Defence and repair (blood, lymph)

Question 75

Name four types of membranes in the body

Answer 75

1. Cutaneous (skin)
2. Mucous
3. Serous
4. Synovial

Question 76

What is the role of goblet cells and where are they found?

Answer 76

Found in the epithelial layer of mucous membranes, goblet cells produce and secrete mucus which:

1. Protects the membrane from mechanical and chemical injury / drying
2. Traps foreign particles in the respiratory tract

Question 77

Name the two layers of serous membranes

Answer 77

Visceral (inner) and Parietal (outer) layer with serous fluid between them [enables an organ to glide freely within the cavity without friction]

Question 78

Name the three serous membranes found in the body

Answer 78

1. Pericardium [surrounding heart]
2. Pleura [lining thoracic cavity surrounding the lungs}
3. Peritoneum [lining the abdominal cavity surrounding abdominal organs]

Question 79

Where in the body can you find synovial membranes?

Answer 79

Synovial membranes line cavities of freely-movable joints and they contain synoviocytes which secretes synovial fluid which lubricates and nourishes the movable joint cavities which it bathes.

Question 80

Define the term ‘mutation’

Answer 80

A mutation describes a heriditable change in the normal genetic make-up (DNA sequence) of a cell.

Question 81

Cytology

Answer 81

The study of cells