Cellular Level Biology Notes PDF

Summary

These notes cover fundamental cellular concepts, including cell theory, organelles, membrane transport, the cell cycle (mitosis and meiosis), and cellular processes like apoptosis and cancer. They detail various cellular components, their structure, and function. The document aims to provide a basic introduction to cellular biology, relevant for undergraduate studies in the life sciences.

Full Transcript

Professor Lindboom-Broberg (LB)

Cells &
Organelles

Cell Theory
Cellular Organelles
Levels of Organization
 Remember these?
Introduction to Cells
 Cell Basics
 Smallest unit considered living by science
 Size = ~0.1 mm in diameter
 Function based on underlying chemistry of their parts
Membranes, organelles, protein production process,

 Cell theory
1. Cells are the basic unit of all life
2. All biological organisms are made up of cells
3. All cells come from pre-existing cells
Introduction to Cells
 Start: 1 cell (ovum)
 Adult: 37.2 trillion cells
 Cellular division, differentiation, and reliance
 Cellular Differentiation: A process by which generalized
cells gain specialized functions
Cellular A&P
 Cells provide small compartments
 Storage, transport, separation, filtration, regulation, etc.
 The body is 2/3s water (H2O)
Cells dictate its distribution as well as those items dissolved in it

 Body fluid distribution
 Plasma Membrane: Layer separating outside vs. inside of cell
 Cytoplasm: The internal contents of the cell
 Intracellular fluid: Fluid content inside the cell (= cytosol)
 Extracellular fluid: Fluid content outside of the cell
Cellular A&P
 Organelles: “little organs”
 Units within a cell with specialized
functions
 Two categories
 Non-membranous
Not completely enclosed by
membranes
In direct contact with cytosol
 Membranous
Enclosed in a phospholipid
membrane
Isolated from cytosol
Cellular A&P
Organelles & Structures
 Plasma Membrane
 Cytoplasm / Cytosol
 Cytoskeleton
 Centrosome / Centriole
 Ribosome
 Endoplasmic Reticulum (ER)
 Rough
 Smooth
 Golgi Apparatus
 Lysosome / Peroxisome
 Mitochondria
 Nucleus
Cell – Plasma Membrane
 Composed of:
 Phospholipid bilayer
 Cholesterol
 Proteins
1. Integral
2. Transmembrane
3. Peripheral
 Glycocalyx
Cell – Plasma Membrane
 Phospholipid bilayer
 Measures 6–10 nm (1/10,000 of a cell)
 Two layers of phospholipids
Hydrophilic heads at membrane surface
Hydrophobic tails facing each other on the inside

 Phospholipids interspersed with cholesterol molecules
Functions to “stiffen” the plasma membrane
Cell – Plasma Membrane
 Proteins
 Integral proteins
Permanently attached
Often span entire cell membrane (called transmembrane proteins)
Can transport water or solutes
 Peripheral proteins
Temporarily attached to cell membrane inner or outer surface
May have regulatory or enzymatic functions
Cell – Plasma Membrane
 Glycocalyx

 Layer of carbohydrates outside of cell
Attached to proteins or lipids

 Functions
Cell recognition
Binding to extracellular structures
Lubrication of cell surface
Cell – Cytoskeleton
 Cytoskeleton
 No Membrane

 Functions
Skeleton / internal framework
Transportation highway

 Components are proteins:
1. Microfilaments
2. Intermediate filaments
3. Microtubules
Cell – Cytoskeleton
 Kinesin & Dynein movement on Microtubules
Cell – Cytoskeleton
 Centrioles
 No membrane
 Composed of microtubules
 2 centrioles = 1 centrosome
 Control movement of DNA
strands during cell division
Cells without centrioles
cannot divide
– Red blood cells
– Skeletal muscle cells
Cell - Ribosomes
 Ribosomes
 No membrane
 Made of two subunits of ribosomal RNA (rRNA) & protein
 Responsible for translation & protein synthesis
 Two classifications (based on location)
Free ribosomes
– Found throughout cytoplasm
– Manufactured proteins enter cytosol
Bound or fixed ribosomes
– Attached to rough endoplasmic reticulum
– Synthesize proteins for export out of cell
Cell - ER
 Endoplasmic reticulum (ER)
Cell – Golgi Apparatus
Cell – Lysosomes
Cell – Mitochondria
Cell – Nucleus
Cell – Nucleus
 DNA
 Stored in the nucleus (eukaryotes)
 Instructions for RNA / protein synthesis
 One cell DNA ≈ 2 meters
Double Helix
Nucleosomes
Chromatin
Chromosome
Cellular A&P
Organelles & Structures
 Plasma Membrane
 Cytoplasm / Cytosol
 Cytoskeleton
 Centrosome / Centriole
 Ribosome
 Endoplasmic Reticulum (ER)
 Rough
 Smooth
 Golgi Apparatus
 Lysosome / Peroxisome
 Mitochondria
 Nucleus
 Professor Lindboom-Broberg (LB)

Transcription &
Translation
DNA  RNA  Protein
DNA
 Central Dogma
 DNA is transcribed into RNA
 RNA is translated into amino acids (protein)
DNA
 Gene
 Functional unit of heredity which is a determinant for a characteristic
 Contains all the DNA nucleotides to produce a specific product
 Size varies (~3003000 nucleotides)
DNA
 Transcription
 The process of making an RNA complement to a given gene
Complement is called messenger RNA (mRNA)
 Translation:
 The conversion of an mRNA sequence into an amino acid sequence
 Translating the nucleic acid code into the amino acid code (using ribosome)
 Professor Lindboom-Broberg (LB)

Membrane Transport

How do substances move in and out of the cell?
Plasma Membrane
 Selectively permeable
 Permits free passage of SOME materials and restrict others
1. Characteristics of material to pass
– Size
– Molecular shape
– Lipid solubility
– Electrical charge
– Other factors
2. Characteristics of cell membrane
– What lipids and proteins present
– How components are arranged
Diffusion
 Diffusion
 Concentration Gradient
 Solution
 Solvent, Solute
Osmosis
Tonicity
 Water moves across the membrane in order to equalize
solute concentrations
Membrane Transport
 Membrane transport

1. Passive (no ATP required)
Diffusion
– Simple
– Facilitated
Carrier-mediated transport

2. Active (requires ATP)
Carrier-mediated transport
Vesicular transport
Passive Transport - Diffusion
EXTRACELLULAR
FLUID
Passive Transport - Carrier-Mediated
Active Transport - Carrier-Mediated
Active Transport - Vesicular Transport

 Endocytosis
 Pinocytosis
 Phagocytosis
 Exocytosis
 Professor Lindboom-Broberg (LB)

Cell Cycle

1  Trillions of cells (human development)

Mitosis & Meiosis
Cell Cycle
 Cell Division: Cellular reproduction
1. Mitosis
Somatic cells
2. Meiosis
Sex/Germ cells

 Cells have varying life spans and abilities to divide

 Apoptosis: Genetically controlled cell death
Cell Cycle
 Mitosis
 Cells: Somatic
 Daughter Cells: 2
 Chromsome #: Diploid
 Function
Growth
Replace dead cells
 Three stages
Interphase
Mitosis
Cytokinesis
Cell Cycle
 Meiosis
 Cells: Sex / Germ
 Daughter Cells: 4
 Chromsome #: Haploid
 Function
Sexual reproduction Meiosis I
 Three stages
Interphase
Meiosis 1
Meiosis 2

Meiosis II
Meiosis
 Mitosis  Meiosis
Cancer
 Cell Cycle
 To keep cell division controlled, there are many stop & go signals
STOP signals allow processes to complete before moving on
GO signals allow the cell to continue onto the next step
If these signals are not followed, issues can arise

 If DNA is damaged or mutates, STOP & GO signals can be altered
Tumor: Uncontrolled, cell division
Cancer: Uncontrolled, harmful cell division
– Cancerous cells compete with normal cells for resources
Cancer
 Tumor (neoplasm)
 Mass or swelling produced by abnormal cell growth and division

1. ​Benign tumor
 Non-cancerous
 Cells remain within original tissue
 Seldom a threat
 Can be removed surgically if necessary
Cancer
2. Malignant tumor
 Cancerous
 Cell growth invades surrounding tissue & disrupts function
 Released chemicals stimulate blood vessel growth (angiogenesis)
to tumor area
Increased growth rate
 Metastatisis: Cells migrate to other areas and
establish new tumors