Studying Cells
• Cytology – The study of the structure and function of cells.
• Light Microscopy (LM) – Uses visible light to magnify cell structures. Can observe live or stained cells but has limited resolution.
• Electron Microscopy (EM) – Uses electron beams for high-resolution imaging of cells.
• Scanning Electron Microscopy (SEM) – Provides a 3D view of the cell’s surface.
• Transmission Electron Microscopy (TEM) – Provides detailed images of internal cell structures.
Cell Theory
• Basic Concepts of Cell Theory:
• All living things are made of cells.
• Cells are the basic units of life.
• All cells arise from pre-existing cells.
• Cells are the fundamental units of homeostasis.
Overview of Cell Anatomy
• Extracellular Fluid (Interstitial Fluid) – Fluid surrounding cells that provides nutrients and removes waste.
• Cell Membrane (Plasma Membrane) – A lipid bilayer that separates the cell from the external environment.
• Cytoplasm – The fluid inside the cell that contains cytosol and organelles.
• Cytosol – The intracellular fluid containing ions, proteins, and dissolved nutrients.
• Organelles – Specialized structures within the cytoplasm that perform specific functions.
The Cell Membrane
• Functions of the Plasma Membrane:
• Physical Isolation – Separates the cell from the external environment.
• Regulation of Exchange – Controls what enters and exits the cell.
• Sensitivity – Responds to environmental changes.
• Structural Support – Provides shape and strength.
• Membrane Structure:
• Phospholipid Bilayer – Two layers of phospholipids with hydrophilic heads and hydrophobic tails.
• Membrane Proteins:
• Receptors – Detect signals from the environment.
• Channels – Allow specific molecules to pass through.
• Carriers – Transport substances across the membrane.
• Enzymes – Catalyze reactions on the membrane.
• Anchors – Attach the membrane to the cytoskeleton.
• Identifiers – Help the immune system recognize self vs. foreign cells.
Membrane Transport
• Selective Permeability – The ability of the membrane to control which substances enter or exit the cell.
• Factors Affecting Permeability:
• Molecular Size – Smaller molecules pass through more easily.
• Electrical Charge – Charged molecules may require transport proteins.
• Molecular Shape – Only molecules of the correct shape fit through transport proteins.
• Lipid Solubility – Lipid-soluble molecules pass more easily.
• Types of Membrane Transport:
• Passive Transport (no ATP required):
• Diffusion – Movement of molecules from high to low concentration.
• Osmosis – Movement of water across a membrane to balance solute concentrations.
• Filtration – Movement due to hydrostatic pressure (e.g., in kidneys).
• Carrier-Mediated Transport:
• Facilitated Diffusion – Transport proteins help molecules move down a concentration gradient.
• Active Transport – Moves molecules against a concentration gradient using ATP (e.g., Sodium-Potassium Pump).
• Vesicular Transport:
• Endocytosis – Bringing substances into the cell.
• Receptor-Mediated Endocytosis – Specific molecules bind to receptors before being engulfed.
• Pinocytosis – “Cell drinking”; ingestion of fluids.
• Phagocytosis – “Cell eating”; engulfing large particles.
• Exocytosis – Expelling materials from the cell.
• Osmotic Effects on Cells:
• Isotonic Solution – No net movement of water; cell remains stable.
• Hypertonic Solution – Water moves out of the cell, causing it to shrink (crenation).
• Hypotonic Solution – Water moves into the cell, causing it to swell and possibly burst (lysis).
The Cytoplasm and Organelles
• Types of Organelles:
• Nonmembranous Organelles:
• Cytoskeleton – Provides cell shape and movement.
• Microfilaments – Actin fibers for movement and structure.
• Intermediate Filaments – Strength and support.
• Microtubules – Tubulin structures for intracellular transport.
• Centrioles – Organize chromosomes during mitosis.
• Microvilli – Increase surface area for absorption.
• Cilia – Move fluids across the cell surface.
• Flagella – Propel the cell (e.g., sperm cells).
• Ribosomes – Produce proteins.
• Proteasomes – Degrade damaged proteins.
• Membranous Organelles:
• Endoplasmic Reticulum (ER):
• Rough ER (RER) – Studded with ribosomes; produces proteins.
• Smooth ER (SER) – No ribosomes; synthesizes lipids and detoxifies substances.
• Golgi Apparatus – Modifies, packages, and distributes proteins.
• Lysosomes – Contain digestive enzymes; break down waste.
• Peroxisomes – Detoxify harmful substances like hydrogen peroxide.
• Mitochondria – Generate ATP through aerobic respiration.
The Nucleus
• Structure of the Nucleus:
• Nuclear Envelope – Double membrane surrounding the nucleus.
• Nuclear Pores – Allow exchange of materials between the nucleus and cytoplasm.
• Chromatin – Uncoiled DNA and proteins.
• Chromosomes – Condensed DNA during cell division.
• Genetic Code and Protein Synthesis:
• Transcription – DNA is copied into mRNA in the nucleus.
• Translation – Ribosomes use mRNA to assemble proteins in the cytoplasm.
Cell Division
• Mitosis – The division of somatic (body) cells.
• Phases of Mitosis:
• Prophase – Chromosomes condense; spindle fibers form.
• Metaphase – Chromosomes align at the cell’s equator.
• Anaphase – Chromosomes separate to opposite poles.
• Telophase – Nuclear envelopes reform.
• Cytokinesis – Cytoplasm divides, forming two identical daughter cells.
• Meiosis – Division of sex cells, resulting in four genetically unique haploid cells.
• Apoptosis – Programmed cell death, crucial for development and maintaining homeostasis.
Cell Division and Cancer
• Tumors (Neoplasms):
• Benign Tumor – Non-cancerous, remains localized.
• Malignant Tumor – Cancerous, invades tissues and may metastasize.
• Causes of Cancer:
• Genetic mutations affecting cell cycle regulation.
• Uncontrolled cell division leads to tumor formation.
Cell Differentiation
• Differentiation – The process where cells become specialized in structure and function.
• Stem Cells – Undifferentiated cells with the potential to become different cell types.
Knowt
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Studied by 18 people
