National 5 Biology SQA

This subject is broken down into 21 topics in 3 modules:

  1. Cell Biology 6 topics
  2. Multicellular Organisms 9 topics
  3. Life on Earth 6 topics
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This page was last modified on 28 September 2024.

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Biology

Cell Biology

Cell Structure

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Cell Structure

Cell Types

  • All living organisms are composed of cells which may be unicellular (one celled) like bacteria, or multicellular (many-celled), like plants and animals.
  • Cells can be broadly classified into two categories: prokaryotic and eukaryotic cells.
  • Prokaryotic cells are the simpler of the two, lacking a nucleus and membrane-bound organelles. They are typically found in bacteria and archaea.
  • Eukaryotic cells are more complex, with a nucleus and membrane-bound organelles. These cells are typically found in plants, animals, and fungi.

Cell Structure

  • The plasma membrane is the outer covering of the cell that regulates the entry and exit of substances.
  • The cell wall is present in plant cells, fungi, and bacteria. It maintains shape and prevents the cell from bursting.
  • The nucleus is the control centre of the cell, responsible for producing mRNA and controlling cell activities.
  • Cytoplasm is the watery substance where most cell activities take place.
  • Mitochondria are the site of aerobic respiration producing ATP, the cell’s energy currency.
  • Ribosomes are the site of protein synthesis.
  • Endoplasmic reticulum (ER) is involved with protein and lipid metabolism.
  • In plants, chloroplasts are the site of photosynthesis and vacuoles are storage organelles for water, food, and waste.

Differences Between Plant and Animal Cells

  • Both animal and plant cells are eukaryotic, which is to say, they contain a nucleus and other membrane-bound organelles.
  • Animal cells contain centrioles important in cell division, and may also possess lysosomes which break down waste materials.
  • Plant cells have a rigid cell wall, large permanent vacuole and chloroplasts for photosynthesis which are all absent in animal cells.

Specialised Cells

  • Organisms contain a variety of cell types that have unique structures fit for their specific function.
  • For instance, red blood cells carry oxygen due to their haemoglobin content, and their biconcave shape provides a large surface area for gas exchange.
  • Muscle cells have numerous mitochondria for energy and protein fibres for contraction.
  • Root hair cells in plants have a large surface area to absorb water and mineral nutrients efficiently from the soil.
  • Guard cells in plants control the opening and closing of stomata, regulating gas exchange.

Course material for Biology, module Cell Biology, topic Cell Structure

Biology

Multicellular Organisms

Variation and Inheritance

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Variation and Inheritance

Variation and Inheritance

Genetic Variation

  • Genetic variation is the difference in DNA sequences between individuals within a population.
  • It occurs as a result of mutations in the DNA sequence, gene shuffling during sexual reproduction or through migration of individuals between populations.
  • Mutations can be random and spontaneous, caused by errors in DNA replication, or can be induced by environmental factors like radiation or chemicals.

Inheritance and Genes

  • Inheritance is the process by which genetic information is passed on from parent to offspring.
  • The information is stored in genes, which are segments of DNA located on chromosomes.
  • Humans have 46 chromosomes, 23 from each parent, and about 20,000-25,000 genes.
  • Each gene has a specific location or locus on a chromosome.
  • Genes exist in alternative forms called alleles. An individual can have two of the same allele (homozygous) or two different alleles (heterozygous).

Genotypes and Phenotypes

  • Genotype refers to the specific set of genes an organism possesses. It’s the genetic makeup of an organism.
  • Phenotype refers to the observable physical or biochemical characteristics of an organism, determined by both genetic makeup and environmental influences.
  • For instance, a pea plant's genotype can be either PP (homozygous dominant), Pp (heterozygous), or pp (homozygous recessive). The phenotype would then be either purple flowers (for PP or Pp) or white flowers (for pp).

Mendelian Inheritance

  • Gregor Mendel formulated the basic principles of inheritance that are still in use today.
  • He proposed the Law of Segregation, which states that allele pairs separate during gamete formation, and randomly reunite during fertilisation.
  • He also proposed the Law of Independent Assortment, which states that genes for different traits can segregate independently during the formation of gametes.

Genetic Disorders

  • Genetic disorders are diseases that are caused by abnormalities in an individual's genetic material.
  • These can occur in a single gene, several genes, or a structural change in a chromosome.
  • Examples include Down Syndrome, Huntington's disease, and cystic fibrosis. For instance, Down Syndrome is caused by the presence of an extra copy of chromosome 21.

Punnett Squares

  • Punnett squares are a simple tool to predict the probability of certain traits in offspring that shows the gametes of each parent and the possible genotypes of their offspring.
  • They are named after Reginald Punnett, who invented this approach.
  • Each cell within the square represents a possible genotype for the offspring.

Sex- linked Inheritance

  • Some genes are located on the sex chromosomes (X and Y chromosomes). These are termed sex-linked genes.
  • The Y chromosome carries few genes, while the X chromosome carries many, so men are more likely to express a recessive trait from their single X chromosome. This is why some conditions, like colour blindness and haemophilia, are more common in men.

Course material for Biology, module Multicellular Organisms, topic Variation and Inheritance

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