Dashboard

Featured nodes

Roots

  • Public root

Templates

  • Test template
  • iCorps template
  • Guanyu's Latex template
  • Ivar's latex template
  • Family Tree template
  • Latex template
  • Router template

Trees

  • Public trees

Orphans

  • Browse orphan nodes
Related nodes

Parents2

  • [TECH] Chemical Industry
  • [SCI] Quantum Mechanics

Siblings14
  • Sort by title
  • Sort by date

  • [SCI] Nuclear Physics
  • [SCI] Theory of Metals
  • [TECH] Petroleum Refining
  • [SCI] Semiconductor Physics
  • [SCI] Laser Physics & Stimulated Emission
  • [SCI] Quantum Field Theory (QED/QCD)
  • [TECH] Solar Cells (Photovoltaics)
  • [SCI] Molecular Biology & Biochemistry
  • [SCI] Cryogenics
  • [SCI] Electrochemistry
  • [TECH] Battery Technology
  • [SCI-Idea] Nuclear Fusion Science & Plasma Physics
  • [TECH-Idea] Direct Air Carbon Capture (DAC)
  • [ALT] Phlogiston Theory

Children7
  • Sort by title
  • Sort by date

  • [SCI] Genomics & Computational Biology
  • [SCI-Idea] Aging Biology & Longevity Science
  • [SCI-Idea] Synthetic Biology & Programmable Living Systems
  • [TECH-Idea] mRNA & RNA Therapeutics
  • [ALT] Bacteriophage Therapy
  • [ALT] ZFN & TALEN Gene Editing (Pre-CRISPR Era)
  • [ALT] Lysenkoism (State-Enforced Biology)
Knowenβ
  • Help
    • Welcome to Knowen!
    • Edit test node (no login required)
    • Create new test node (no login required)
  • Not logged in
    • Sign in
    • Sign up

History & Comments

Back

Structural addition

Description:Missing node added during graph restructuring
# [SCI] Molecular Biology & Biochemistry
⏎
**Molecular Biology** is the study of biological processes at the molecular level — DNA, RNA, proteins, and the mechanisms of gene expression — founded in the 1940s–1950s at the intersection of physics, chemistry, and biology.
⏎
## Overview
⏎
Schrödinger's *What is Life?* (1944) proposed that genes must be aperiodic crystals storing information, inspiring physicists (Crick, Wilkins) to enter biology. Chargaff's rules (1950) showed base pairing in DNA. Franklin's X-ray diffraction (1952) revealed the helical structure. Watson and Crick's double helix model (1953) showed how genetic information is stored and copied. Crick's Central Dogma (1958) described the information flow: DNA → RNA → Protein. The genetic code was cracked (1961–1965). PCR (Mullis 1983) allowed amplification of specific DNA sequences, democratising molecular biology.
⏎
Biochemistry — the chemistry of living systems — developed in parallel, elucidating metabolic pathways (Krebs cycle 1937, ATP synthesis), enzyme kinetics, and membrane transport.
⏎
## Key Figures & Recognition
⏎
- **James Watson** (1928–) & **Francis Crick** (1916–2004): DNA double helix. **Nobel Prize 1962** (shared with Wilkins; Franklin died 1958).
- **Rosalind Franklin** (1920–1958): X-ray diffraction of DNA. No Nobel (died before award; widely considered an injustice).
- **Frederick Sanger** (1918–2013): Protein sequencing (Nobel 1958) and DNA sequencing (Nobel 1980) — two separate prizes.
- **Kary Mullis** (1944–2019): PCR. **Nobel Prize 1993**.
⏎
## Seminal Papers
⏎
- Watson, J. & Crick, F. "A Structure for Deoxyribose Nucleic Acid." *Nature* 171 (1953).
- Crick, F. "On Protein Synthesis." *Symp. Soc. Exp. Biol.* 12 (1958) — Central Dogma.
- [Sanger, F. et al. "DNA sequencing with chain-terminating inhibitors." *PNAS* 74 (1977)](https://doi.org/10.1073/pnas.74.12.5463)
⏎
## What This Enables
⏎
- **[SCI] Genomics & Computational Biology** — Genomics is molecular biology scaled to the entire genome; sequencing, assembly, and functional annotation all depend on molecular biology foundations.
⏎
# Parents
⏎
* [SCI] Quantum Mechanics⏎
Sign in to add a new comment

Contact us or leave feedback

© KTree Inc. 2026