The big idea: The genome is the whole of an organism's genetic information — every base of all its DNA added together.
To picture it, zoom out step by step. A single base (one letter: A, T, C or G) is part of a gene; many genes lie along one chromosome; and all the chromosomes together make up the genome.
So the genome is the outermost, all-containing level — not one gene, and not one chromosome, but the complete set of DNA.
The nested scale of genetic information: a single base sits inside a gene, a gene inside a chromosome, and all the chromosomes together make up the genome — the whole of an organism's DNA.
Interactive diagram
Explore the labelled diagram, charts and maps for this topic in full study mode.
- Genome
- The whole of the genetic information of an organism — all of its DNA, including every gene and the non-coding DNA between genes.
- Gene
- A length of DNA that codes for one product (such as a protein). A genome contains thousands of genes.
- Chromosome
- One long DNA molecule that carries many genes. A human body cell has 46 chromosomes.
- Base
- One of the four DNA letters — adenine (A), thymine (T), cytosine (C) or guanine (G) — the smallest unit of genetic information.
- DNA profiling
- A technique that reads the highly variable repeated regions of the genome to identify an individual or test how closely two individuals are related.
Genome = the WHOLE lot: If a question asks for the term for all of an organism's genetic information, the answer is the genome.
Do not write 'gene' (just one length of DNA) or 'chromosome' (just one DNA molecule) — the genome is everything.
Every nucleated body cell of an organism carries a complete copy of the whole genome — a skin cell holds exactly the same genome as a liver cell.
That is why a single cell from almost anywhere in the body can supply a full copy of the genome for analysis, and why a tiny sample (a drop of blood, a hair root, a cheek swab) is enough for DNA profiling.
Why profiling looks at the VARIABLE regions: Most of the genome is almost identical from person to person — that is why we are all human. So the coding genes are no use for telling individuals apart.
Instead, DNA profiling looks at short stretches of non-coding DNA that are repeated over and over — called short tandem repeats. The number of repeats at each place varies a lot between individuals.
By counting the repeats at several places in the genome, you build a pattern — a DNA profile — that is essentially unique to each person (identical twins aside).
What a profile can show: Because half of your DNA comes from each parent, your profile shares repeat patterns with your relatives.
So comparing profiles can:
• match a sample to the individual it came from (forensics);
• test whether two people are related (for example a parentage test);
• the more repeat patterns two profiles share, the more closely related the two individuals are.
| Feature | Coding regions (genes) | Short tandem repeats (used for profiling) |
|---|---|---|
| What they do | Code for proteins / products | Do not code for a product (non-coding) |
| How alike between people | Very similar — most people share them | Highly variable — differ a lot between individuals |
| Useful for telling people apart? | No — too similar to distinguish | Yes — the variation is the whole point |
| What a profile compares | Not used | The number of repeats at several places in the genome |
The genome
- ALL of an organism's DNA
- The same complete copy in every nucleated cell
- Mostly shared between members of a species
- Contains genes and non-coding DNA
A DNA profile
- Reads only the variable repeat regions
- Differs between individuals
- Used to identify a person or test relatedness
- More shared patterns = more closely related
A memory hook: The genome is what makes us the same (mostly identical DNA). DNA profiling zooms in on the few variable repeat regions that make each of us different.
Practice with real exam questions
Answer exam-style questions and get AI feedback that shows you exactly what examiners want to see in a full-marks response.
How this is tested: The headline skill here is a 1-mark recall: name the term for the whole of an organism's genetic information — the answer is the genome.
A common 1-mark identify question asks which cell could supply a complete copy of the genome — any nucleated body cell works, because every cell holds the whole genome.
On Paper 1B (data) this topic also appears as a genome-size table: you are given the genome sizes of several very different organisms and asked to deduce whether genome size matches complexity. The trap answer is 'yes' — the correct answer is no.
IB-style question — name the genome and the right cell
(a) State the term used for the whole of the genetic information of an organism. [1]
How to score the mark
- Read what is asked. It wants the single term for all of an organism's DNA — not a gene, not a chromosome.
- Give the term. The answer is the genome. (Award 1 mark for 'genome'.)
Final answer
The genome.
IB-style question — which cell holds a full copy?
(b) A scientist needs a complete copy of a person's genome. Identify a type of cell that could provide one, and explain why. [2]
Model answer
- Name a suitable cell. Any nucleated body cell — for example a white blood cell, a skin cell or a cheek (epithelial) cell.
- Explain why. Every nucleated body cell contains a complete copy of the whole genome, so a single such cell carries all of the person's DNA. (Mark 1: a named nucleated body cell. Mark 2: each cell holds a complete copy of the genome.)
Final answer
A nucleated body cell (e.g. a white blood cell or cheek cell) — because every nucleated body cell contains a complete copy of the whole genome.
✓ Why these score: Part (a) needs the exact term — genome — not a description.
Part (b) scores by naming a nucleated cell (a red blood cell has no nucleus, so it would not work) AND giving the reason: every nucleated cell carries the whole genome.
| Level | What it is | How much of the DNA |
|---|---|---|
| Base | One DNA letter: A, T, C or G | A single position in the sequence |
| Gene | A length of DNA that codes for one product | A small section of one chromosome |
| Chromosome | One long DNA molecule carrying many genes | One of the cell's DNA molecules |
| Genome | ALL of an organism's genetic information | EVERY chromosome — the whole lot |