Cancer Biology

Molecular, cellular, and evolutionary basis of cancer.

field tier

Cancer Biology sits within biology and addresses molecular, cellular, and evolutionary basis of cancer. The page below sketches the conceptual scope of the area, the methodological tools it relies on, and the recent literature anchoring its current frontier.

The area organises around a small number of recurring axes: scope (what biological scales the work spans), method (the dominant experimental or computational tools), data regime (what kinds of measurements are now routine vs. still frontier), and open questions (what the field cannot yet do reliably). The sources below cover different combinations of these axes.

Foundational references

Weinberg, The Biology of Cancer is a standard reference for the foundations covered here, used across the field to anchor terminology, canonical models, and the relationships between sub-areas of cancer biology. Treat it as the entry point to which the more specialised work below adds frontier detail.

Frontier results

A primary recent reference for this area is Hallmarks of cancer: the next generation (Hanahan et al., 2011), which contributes to the methodological or empirical conversation that defines the current frontier of cancer biology. It illustrates the kind of question the field is actively pursuing — the specific technical claim, the dataset or system on which it was validated, and the way subsequent work builds on it.

A primary recent reference for this area is Hallmarks of cancer: new dimensions (Hanahan, 2022), which contributes to the methodological or empirical conversation that defines the current frontier of cancer biology. It illustrates the kind of question the field is actively pursuing — the specific technical claim, the dataset or system on which it was validated, and the way subsequent work builds on it.

Open questions

Open questions in cancer biology cluster around scaling current methods to larger systems, integrating measurements across modalities, and producing predictive rather than descriptive models. The references above mark the work that the next iteration of this page should engage with in more specific detail.

Prerequisites

Sources

In context

Where this topic sits in the prerequisite graph. Click any node to jump.

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  1. 01

    Hallmarks of Cancer

    The canonical cellular phenotypes that define malignant transformation.
  2. 02

    Oncogenes and Tumor Suppressors

    Driver genes that initiate and constrain tumor formation.
  3. 03

    Cancer Genomics

    Pan-cancer mutational landscapes and driver identification.
  4. 04

    Tumor Microenvironment

    Stromal, immune, and vascular components shaping tumor behavior.
  5. 05

    Cancer Metabolism

    Warburg effect, glutamine addiction, and metabolic vulnerabilities of tumors.
  6. 06

    Metastasis

    Mechanisms of invasion, dissemination, and colonization.
  7. 07

    Tumor Heterogeneity and Evolution

    Clonal evolution, intratumor heterogeneity, and resistance dynamics.
  8. 08

    Liquid Biopsy

    Circulating tumor DNA and cells for diagnosis and monitoring.
  9. 09

    Targeted Cancer Therapy

    Small-molecule and biologic therapies against specific molecular drivers.

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