Biology Past Paper PDF

Summary

This document seems to be part of a biology course or textbook focusing on the cell and the cell theory. It covers the discovery of cells, the modern cell theory, cell modifications, and various cell parts in plants and animals. It's a great resource for learning the basics of cell biology.

Full Transcript

TOPIC: THE CELL AND THE MODERN CELL THEORY

1. The Discovery of Cell and the Development of the Modern Cell Theory
- Robert Hooke (1665): He was the first to discover cells when observing thin slices of cork through a
microscope. He described the small, box-like structures as "cells," which were actually the walls of
dead plant cells.
- Concept: Discovery of cell walls in dead plant material, marking the beginning of cell biology.

- Antoni van Leeuwenhoek (1674): Improved the microscope and became the first to observe living
cells, which he called "animalcules," such as bacteria and protozoa.
- Concept: First to observe living cells, expanding knowledge beyond dead structures.

- Robert Brown (1831): He identified the nucleus as an important structure within cells, showing its
presence in both plant and animal cells.
- Concept: Discovery of the nucleus, a critical component of cells.

- Matthias Schleiden (1838): Proposed that all plants are made of cells, which was crucial in
understanding the role of cells in plants.
- Concept: Plants are composed of cells, making cells the building blocks of plant life.

- Theodore Schwann (1839): Extended Schleiden’s findings to animals, showing that all animals are
also made up of cells.
- Concept: Cells as the basic unit of both plants and animals.

- Rudolf Virchow (1858): Proposed that all cells arise from pre-existing cells, solidifying the concept
that cells reproduce to form new cells.
- Concept: Cells originate from other cells, a fundamental principle in biology.

2. The Modern Cell Theory States
- (a): All living organisms are composed of one or more cells. This highlights the universality of cells as
the structural and functional units of life.
- Concept: Cells are the basic unit of all life forms.

- (b): The smallest living organisms are single cells, and these cells perform all necessary functions of
life, including growth and reproduction.
- Concept: Single-celled organisms carry out all life functions independently.

- (c): New cells are produced by the division of pre-existing cells, which is essential for growth, repair,
and reproduction.
- Concept: Cells replicate through division, forming new cells.

3. Cells are Fundamental to Life
All living organisms, from simple bacteria to complex plants and animals, share a common ancestry.
This is why, despite the diversity of life, cells have similar features such as a membrane, DNA, and
ribosomes. Over time, cells have adapted to different environments, but their core structures remain
largely unchanged.
- Concept: Cells share a common origin and basic features, with modifications over evolutionary time.

Bacteria Cell Parts
- Cell Wall: Provides structure and protection to the bacterial cell. It helps maintain the shape of the
cell and prevents it from bursting in a hypotonic environment.
- Concept: The protective outer layer that provides rigidity.

- Plasma Membrane: A selectively permeable barrier that controls what enters and exits the cell.
- Concept: Regulates exchange between the cell and its environment.

- Cytoplasm: The jelly-like substance inside the cell where the cell’s metabolic reactions occur.
- Concept: The medium for chemical reactions inside the cell.

- Nucleoid: An irregularly shaped region within the cell where the bacterial chromosome (DNA) is
located.
- Concept: Contains the genetic material of bacteria, essential for reproduction.

- Ribosomes: The site of protein synthesis in the cell, where genetic information is translated to build
proteins.
- Concept: Machinery for making proteins, crucial for cell function.

- Flagella: Long, whip-like structures used for movement.
- Concept: Enables bacteria to move toward or away from stimuli.

Plant Cell Parts
- Cell Wall: A rigid outer layer made of cellulose that provides structural support and protection.
- Concept: Structural support for plant cells, helping maintain their shape.

- Chloroplast: Organelles that perform photosynthesis, converting sunlight into energy.
- Concept: The site where light energy is converted into chemical energy (sugars).

- Vacuole: A large, fluid-filled sac that stores water, nutrients, and waste products, helping maintain
pressure within the cell.
- Concept: Storage compartment for water and other substances, providing internal support.

- Nucleus: Contains the cell’s genetic material and regulates the activities of the cell.
- Concept: Control center of the cell, managing DNA and cellular functions.

Animal Cell Parts
- Plasma Membrane: Like bacteria, it is a selectively permeable barrier that controls the exchange of
substances between the cell and its environment.
- Concept: Maintains homeostasis by controlling entry and exit of substances.

- Lysosome: Contains digestive enzymes to break down waste material and cellular debris.
- Concept: Waste disposal system, breaking down harmful substances.

- Mitochondria: Known as the powerhouse of the cell, they produce energy through cellular
respiration.
- Concept: Energy production center, converting food into usable energy (ATP).

- Nucleus: Like plant cells, it stores genetic information and regulates cell functions.
- Concept: Oversees cellular activities through genetic regulation.
TOPIC: CELL MODIFICATIONS

1. Apical Modification
- Pseudopods: Extensions of the cell membrane that help in movement and capturing food in some
cells, like amoebas.
- Concept: Temporary protrusions aiding in cell movement and food intake.

- Cilia/Flagella: Hair-like or whip-like structures that help in locomotion or moving substances along
the surface of the cell.
- Concept: Motility structures for movement or moving external substances.

- Villi/Microvilli: Finger-like projections that increase surface area for absorption, especially in the
intestines.
- Concept: Enhanced surface area to improve absorption of nutrients.

- Extracellular Matrix (ECM): A network of proteins and carbohydrates outside cells that provides
structural support and helps in cell signaling.
- Concept: Supportive structure outside cells, also involved in communication between cells.

2. Lateral Modification
- Gap Junction: Channels that allow the passage of ions and small molecules between adjacent cells
for communication.
- Concept: Communication channels between neighboring cells.

- Tight Junction: Seals between cells that prevent the passage of substances between them,
maintaining distinct environments on either side of the cell layer.
- Concept: Barriers between cells to prevent leakage.

- Adhering Junction: Specialized regions that hold cells together, providing mechanical stability.
- Concept: Cell-cell adhesion for stability and structure.

3. Basal Modification
- Desmosomes/Hemidesmosomes: Structures that anchor cells to each other or to the extracellular
matrix, providing strength and preventing cells from being pulled apart.
- Concept: Anchoring points that keep cells attached to each other or the surrounding structures.

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Specialized Cells
- Specialized Animal Cells: Nerve cells transmit electrical signals, muscle cells contract for
movement, and blood cells transport oxygen.
- Concept: Cells adapted for specific functions like signaling, movement, or transport.

- Specialized Plant Cells: Guard cells regulate gas exchange in plants, xylem cells transport water,
and phloem cells transport nutrients.
- Concept: Cells adapted for functions like water transport, nutrient distribution, and gas
exchange.