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Flashcards in Cell Biology Deck (92)
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1
Q

Physiology

A

The study of the function of anatomical structures

2
Q

Levels of Organisation: Chemical

A

Atoms combine to form molecules - determines function

3
Q

Levels of Organisation: Cellular

A

Molecules interact to form organelles

4
Q

Levels of Organisation: Tissue

A

A group of cells working together to perform one or more specific functions

5
Q

Levels of Organisation: Organ

A

Organs consist of two or more tissues working in combination to perform several functions

6
Q

Levels of Organisation: Organ System

A

Groups of organs interacting to perform a particular function forms an organ system

7
Q

Levels of Organisation: Organism Level

A

All organ systems of the body must work together to maintain the life and health of the organism

8
Q

Homeostasis

A
  • Tendency toward internal balance

- All body systems working together to maintain a stable internal environment

9
Q

Homeostatic Regulation

A

Adjustment of physiological systems to preserve homeostasis

10
Q

Homeostatic Regulation: Autoregulation (Intrinsic)

A

Automatic response in a cell, tissue, or organ to some environmental change

11
Q

Homeostatic Regulation: Extrinsic Regulation

A

Responses controlled by nervous and endocrine systems

12
Q

Nervous System Characteristics

A

Rapid, short-term and very specific responses

13
Q

Endocrine System Characteristics

A

Releases hormones (chemical messengers) which affect tissue and organs. Slow, long-term

14
Q

Three components required for homeostatis

A

Receptor: Receives the stimulus
Control Centre: Processes the signal and sends instructions
Effector: Carries out instructions

15
Q

Negative Feedback

A
  • A stimulus produces a response that opposes or negates the original stimulus
  • Provides long-term control over the body’s internal conditions and systems
  • Corrective mechanism involving an action that directly opposes a variation from normal limits
16
Q

Positive Feedback

A
  • An initial stimulus produces a response that exaggerates or enhances the change in the original conditions creating a positive feedback loop
17
Q

Cell Theory

A
  • Cells are the building blocks of all plants and animals
  • All cells come from the division of preexisting cells
  • Cells are the smallest units that perform all vital physiological functions
  • Each cell maintains homeostasis at the cellular level
18
Q

Cytology

A

The study of cellular structure and function

19
Q

Sex cells

A

Sperm and oocytes

20
Q

Somatic cells

A

All other cells except sex cells

21
Q

Plasma membrane

A
  • Outer boundary of the cell
22
Q

Functions of Plasma membrane

A

Physical Isolation: Separates inside of cell from the surrounding extracellular fluid
Regulation of Exchange: controls entry of ions and nutrients, elimination of wastes and the release of secretions
Sensitivity to Environment: First part of cell affected by changes in composition, concentration or pH of the extracellular fluid
Structural Support: Specialised connections between plasma membranes, or between membranes and extracellular materials, gives tissues stability

23
Q

Membrane Lipids

A
  • Phospholipid bilayer: hydrophilic tail, hydrophobic head
24
Q

Membrane Proteins: Integral Proteins

A

Part of membrane structure, cannot be removed without damaging or destroying the membrane

25
Q

Membrane Proteins: Peripheral proteins

A

Bound to the inner or outer surface of the membrane

26
Q

Membrane Proteins; Functional Proteins: Anchoring Proteins

A

Attach plasma membrane to other structures and stabilise its position

27
Q

Membrane Proteins; Functional Proteins: Recognition Proteins

A

Cells of the immune system recognise other cells as normal or abnormal based on the presence or absence of recognition proteins

28
Q

Membrane Proteins; Functional Proteins: Enzymes

A

May be integral or peripheral proteins. Catalyse reactions in extracellular fluid or in the cytosol

29
Q

Membrane Proteins; Functional Proteins: Receptor Proteins

A

Sensitive to the presence of ligands. Extracellular ligand will bind to complementary receptor which may change activity of cell

30
Q

Membrane Proteins; Functional Proteins: Carrier Proteins

A

Bind solutes and transport them across cell membrane. May require ATP

31
Q

Membrane Proteins; Functional Proteins: Channels

A

Some integral proteins contain a channel that forms a passageway completely across the plasma membrane

32
Q

Membrane Carbohydrates

A
  • Carbohydrate portion of molecules such as proteoglycans, glycoproteins and glycolipids, extend beyond the outer surface of membrane, forming a layer known as the glycocalyx
33
Q

Glycocalyx Functions

A
  • Lubrication and Protection
  • Anchoring and locomotion
  • Specificity in binding
  • Recognition
34
Q

Cytoplasm

A
  • Material located between the plasma membrane and the nuclear membrane
  • Contains cytosol and organelles
35
Q

Cytosol

A
  • Contains dissolved nutrients, ions, soluble and insoluble proteins, and waste products
36
Q

Cytoskeleton

A
  • Provides structural framework for a cell

- Movement of cellular structures and materials

37
Q

Cytoskeleton: Microfilaments

A

Composed of actin. Anchor the cytoskeleton, determine consistency of the cytoplasm and actin will interact with myosin to produce movement of a portion of a cell

38
Q

Cytoskeleton: Intermediate Filaments

A

Composed of keratin. Strengthen cell and help maintain its shape, stabilise the positions of organelles and stabilise the position of the cell

39
Q

Cytoskeleton: Microtubules

A

Composed of tubulin. Form primary components of the cytoskeleton, disassembly of microtubules provide a mechanism for changing cell shape, can assist in moving vesicles or other organelles, form spindle apparatus in cell division and form structural components such as centrioles and cilia

40
Q

Microvilli

A
  • Finger-shaped projections of plasma membrane on their exposed surfaces
  • Greatly increase the surface area of the cell exposed to the extracellular environment
41
Q

Centrioles

A
  • During cell division, centrioles form the spindle apparatus associated with the movement of DNA strands
  • Intimately associated with the cytoskeleton
42
Q

Cilia

A
  • Long, slender extensions of the plasma membrane

- ‘Beat’ rhythmically to move fluids or secretions across cell surface

43
Q

Ribosomes

A

Protein synthesis

44
Q

Proteasomes

A
  • Contain an assortment of protein-digesting (proteolytic) enzymes or proteases
  • Responsible for removing and recycling damaged or denatured proteins, and for breaking down abnormal proteins
45
Q

Endoplasmic Reticulum

A
  • Network of intracellular membranes connected to the nuclear envelope
  • Synthesis, storage, transport, detoxification
46
Q

Nucleus

A
  • Contains all the genetic material for the cell

- Surrounded by a nuclear envelope, communicates with the cytosol by the way of nuclear pores

47
Q

Smooth endoplasmic reticulum

A
  • No ribosomes associated
  • Synthesis of the phospholipids and cholesterol needed for maintenance and growth of the plasma membrane, ER, nuclear membrane and golgi body in all cells
  • Synthesis of steroid hormones
  • Synthesis and storage of glycerides
  • Synthesis and storage of glycogen in skeletal muscle and liver cells
48
Q

Rough Endoplasmic Reticulum

A
  • Newly synthesised proteins are chemically modified and packaged for export to their next destination, the golgi apparatus
49
Q

Golgi apparatus

A
  • Typically consists of five or six flattened membranous discs
  • Functions:
  • Modifies and packages secretions, such as hormones or enzymes, for release through exocytosis
  • Renews or modifies the plasma membrane
  • Packages special enzymes within vesicles for use in the cytoplasm
50
Q

Lysosomes

A
  • Are special vesicles that provide and isolated environment for potentially dangerous chemical reactions
  • Produced at the golgi apparatus, contain digestive enzymes
  • Degrades large molecules
  • removal of pathogens
  • Removal of damaged organelles
51
Q

Lysosomal Storage Disorders

A
  • Dysfunction of either lysosomal enzyme(s), a lysosomal protein involved in enzyme activation
  • Accumulation of undigested material
  • Chronic and progressive deterioration of cells, tissues and organs
52
Q

Mitochondria

A
  • Responsible for energy production

- Double membrane organelles, with inner membrane folds enclosing important metabolic enzymes

53
Q

Peroxisomes

A
  • Absorb and break down fatty acids and other organic compounds
54
Q

Protein Synthesis: Transcription

A

DNA strands separate, the promoter has been exposed, RNA polymerase attaches to the template strand. Passes through the nuclear pore. Enters cytoplasm, carries information to ribosomes

55
Q

Protein Synthesis: Translation

A

mRNA attaches to ribosome, tRNA brings specific amino acids to ribosome and anticodon on tRNA matches up with the complementary codon on the mRNA. tRNA molecules are released and when the polypeptide chain has been completed it breaks away from the ribosome into its final protein shape. Carries out function in cell

56
Q

Gene

A

Section of DNA which has the instructions for one protein i.e. the sequence of amino acids

57
Q

Codon

A

3 base code for an amino acid

58
Q

Gene activation

A
  • The gene is kept inactive by being tightly coiled and bound to histones.
  • Gene activation requires the DNA to be uncoiled to expose the sites required to start the process of making protein e.g. transcription
  • Every gene has a ‘start’ and ‘stop’
59
Q

Protein folding diseases

A
  • Caused by loss of protein function due to misfolding and degradation e.g. lysosomal storage disorders, cystic fibrosis
  • Aggregation of misfolded protein outside the cell away from intracellular control mechanisms e.g. amyloidoses
  • Parkinson’s diseases
  • Alzheimers
60
Q

The Cell life cycle

A
I: Interphase
G1: Normal cell functions, plus growth, duplication of organelles and protein synthesis
S: DNA Replication
G2: Protein synthesis
M: Cell division
61
Q

DNA replication

A

DNA Strands unwind, and DNA polymerase begins attaching complementary DNA nucleotides along each strand. On one original strand, the complementary copy is produced as a continuous strand. Along the other original strand, the copy begins as a series of short segments spliced together by ligases. This process ultimately produces two identical copies of the original DNA molecule

62
Q

Mitosis

A
  • Divides duplicated DNA into two sets of chromosomes
  • The DNA coils tightly into chromatids
  • Chromatids connect at a centromere
  • Protein complex around centromere is kinetochore
63
Q

Prophase

A

Chromosomes are visible, centrioles move to opposite side of cell, nuclear envelope disappears, spindle fibres extend and attach to chromosomes

64
Q

Metaphase

A

Chromosomes align themselves along the metaphase plate, equidistant from poles

65
Q

Anaphase

A

Centromere split; two sister chromatids move to the opposite sides of cell

66
Q

Telophase

A

Nuclear envelope forms, chromosomes change to chromatin, final location of nucleus at opposite ends of cell

67
Q

Cytokinesis

A

Splitting of the cytoplasm with the formation of two identical cells

68
Q

Cell death: Apoptosis

A
  • Programmed cell death
  • Activation of ‘suicide genes’
  • DNA fragmentation
  • Ingestion of dying cell by phagocytosis
69
Q

Cell death: Necrosis

A
  • Cell is injured
  • Cellular contents flows into interstitial fluid
  • Inflammatory response is initiated
70
Q

Cell death: Cell ageing

A
  • Involves telomeres
  • As a cell divides it loses sections of the telomere
  • Eventually, the cell stops dividing
71
Q

Cell differentiation

A

The process of specialisation, results from the inactivation of particular genes in different cells, producing populations of cells with limited capabilities. Specialised cells form organised collections called tissues, each of which has certain functional roles

72
Q

Cancer

A

Tumour results from abnormal cell division and growth

  • Benign: Cells are contained, generally not life-threatening
  • Malignant: Cells are no longer contained, can also travel to other organs and tissues
73
Q

Diffusion

A

Process of molecules moving from a high concentration of that particle to a low concentration of that particle to create equilibrium; alcohols, fatty acids, steroids, gases

74
Q

Facilitated Diffusion

A
  • Substances can be passively transported across the membrane by carrier proteins
  • Molecules must bind to a receptor site on carrier protein, shape of protein changes, moving the molecule across the plasma membrane and releasing it into the cytoplasm
  • No ATP
  • Molecules move from an area of high concentration to one of a lower concentration
  • E.g. glucose and amino acids
75
Q

Important factors for the rate of diffusion

A
  • Distance
  • Molecules size
  • Temperature
  • Gradient Size
  • Electrical force
76
Q

Osmosis

A
  • Net movement of water molecules from a high concentration (low solute) to a low concentration (high solute)
77
Q

Osmolarity/Osmotic concentration

A
  • The total solute concentration in an aqueous solution
  • Osmoles per litre (Osmol/L)
  • Osmole is the number of moles of ions that contribute to a solution’s osmotic pressure
  • Normal plasma (intracellular environment) approximates 285mosmol/L
78
Q

Isotonic

A

Same concentration inside and outside the cell there is no net flow of water between the cell and solution

79
Q

Hypotonic

A

Less salt concentration outside, water enters the cell which may eventually burst (lysis)

80
Q

Hypertonic

A

High salt concentration outside, water will leave cell, which may lead to the cell shriveling (crenation)

81
Q

Membrane Potential

A
  • The transmembrane potential results from the unequal distribution of ions across the plasma membrane
  • Transmembrane potential: The potential difference, measured in volts, between the two sides of a plasma membrane
  • Resting potential: the transmembrane potential in an undisturbed cell
  • In normal conditions: inside of plasma membrane is slightly negative with respect to the outside of the cell
  • Slight excess of positive charges outside the cell
  • Slight excess of negative charges and proteins inside the cell
82
Q

Passive Transport

A
  • Does not require energy
  • Dependent on a concentration gradient
  • Diffusion, osmosis, facilitated diffusion
83
Q

Active Transport

A
  • Requires energy
  • Moving molecules against their concentration gradient from a low to a high
  • Requires ATP
84
Q

Sodium-potassium exchange pump

A

In the body

  • Sodium ions are high in the extracellular fluid and lower in the cytoplasm
  • Potassium ions are low in the extracellular fluid and high in the cytoplasm
  • Ions can move down their gradients through leak channels
  • 1 ATP molecule pumps 3 Na+ out and 2K+ in
85
Q

What does homestasis within the cell depend on

A

The ejection of sodium ions and recapture of potassium ions

86
Q

Secondary active transport

A

Moves a specific substrate down its gradient, 2 sodium ions bind, then glucose is transported into the cell followed by active transport of sodium ions out of the cell

87
Q

Vesicular Transport: Endocytosis

A

Extracellular materials can be packaged in vesicles at the cell surface and imported into cell

88
Q

Vesicular Transport: Receptor-Mediated Endocytosis

A

Produces vesicles that contain a specific target molecule in high concentrations

  • Target molecules (ligands) bind to receptors
  • Areas coated with ligands form deep pockets
  • Pockets pinch off, forming endosomes (coated vesicles)
  • Coated vesicles fuse with primary lysosomes to form secondary lysosomes
  • Ligands are removed and absorbed in cytoplasm
  • Lysosomal and endosomal membranes separate
  • Endosome fuses with plasma membrane, receptors are again available for ligand binding
89
Q

Vesicular Transport: Phagocytosis

A

Material is brought into the cell enclosed in a phagosome that is subsequently exposed to lysosomal enzymes

90
Q

Vesicular Transport: Pinocytosis

A

Formation of endosomes filled with extracellular fluid

91
Q

Vesicular Transport: Exocytosis

A

Fusion of vesicles containing fluids or solids (or both) with the plasma membrane and the release of contents to the outside

92
Q

Phagocytosis and Gut diesease

A
  • H. Pylori: bacterium that lives in the inner lining of the stomach
  • Stimulates inflammatory immune response, contributing to the onset of gastritis, peptic ulcers and gastric cancer
  • Engulfed by white blood cells called macrophages
  • Resist digestion rather than fusing with a lysosome and being degraded