- Products
- Research Areas
- Epigenetics
- Amino Acids, Drugs and other small molecules
- Apoptosis
- Autophagy
- Cancer
- Cell Biology
- Cell Cycle and Replication
- Cellular Markers
- Cytoskeleton
- DNA Repair
- Base Excision Repair
- Checkpoint signaling
- Chromatin Research
- Direct Reversal of DNA Damage
- DNA Double Strand Break Repair
- DNA Polymerases
- DNA replication, Transcription, Translation and Splicing
- Editing and Processing Endonucleases
- Genes Sensitive to DNA Damaging Agents
- Homologous Recombination
- Mismatch Repair
- Modulation of DNA Pools
- Non-homologous end-joining
- Nucleotide-Excision Repair
- Zinc Finger
- Epitope Tags
- GPCR
- Hypoxia
- Immunology
- Lipid and Metabolism
- Loading Controls
- MAP Kinase Signaling
- Membrane Trafficking and Chaperones
- Neuroscience
- Nuclear Receptors, Coactivators and Corepressors
- Phospho-Specific
- Protein Kinase
- Protein Phosphatase
- Protein Turnover
- Signal Transduction
- Stem Cell Markers
- Transcription Factors and Regulators
- Translation Control
- Tyrosine Kinases
- Wnt Signaling Pathway
- modENCODE Antibodies
- Support
- Distributors
- About
DNA Replication, Transcription, Translation and Splicing
The central dogma of molecular biology is that protein synthesis is a unidirectional process. The first step of protein synthesis is DNA replication in which the DNA double helix serves as a template for the replication of a second, complementary strand. Next, transcription of this complementary DNA strand involves synthesizing mRNA within the nucleus. The next step, translation, converts this mRNA into protein within the cytoplasm. Splicing is the posttranscriptional modification of RNA that results in the removal of introns and joining of exons.
All DNA Replication Antibodies, Lysates, Proteins, and RNAi
Research Cloud — Top terms most co-occuring with "DNA replication" in scientific publications. Click to explore.