Introduction
Gene regulation is the process of turning the genes on and off. Gene regulation mainly enables the organism to respond to changes in the environment. Let us dive deep into today’s article to know more about gene expression and regulation.
Gene Expression and Regulation
The study of gene expression mainly reveals the following:
- All human cells have a nucleus. The nucleus of the cells consists of genes which in turn consist of the DNA strings hidden within them
- The gene causes the production of the DNA string, and DNA produces amino acids
- There are multiple types of cells, and each cell manufactures different types of proteins. The cells know which type of protein to manufacture based on the gene consisting of the DNA string
- A well-developed and strong string of DNA makes ribonucleic acid. These ribonucleic acids are interpreted to form a protein which is coded from the nucleic acid codon to protein-coding
Genes cannot control any organism or a species on their own. Genes have to interact with the environment around the organism or a species and respond accordingly. Some genes are always active and do not depend on the organism’s environmental circumstances. Such genes form the most important fundamentals of a cell’s genome. These genes control the ability of the DNA to replicate, demonstrate and restore itself. They also control the synthesis of protein and the central metabolism of the organism. The other types of genes are regulated. The need for regulated genes is occasional. These genes get turned on and off, and special molecules control these genes.
Regulation of Genes in Prokaryotes and Eukaryotes
The regulation of genes in prokaryotes and eukaryotes differs from each other.
Regulation of Genes in Prokaryotes
Most of the regulatory proteins for the prokaryotes are negative. Hence the genes are turned off. The cells are primarily dependent on the small protein molecule. The small protein molecule signals the cell if gene expression is required. Some of the regulatory proteins are attached to the genes and can bind. However, a few regulatory proteins that are not attached to the genes, cannot bind. Most of the regulatory proteins are explicit to one gene. A fine-tuning system known as attenuation uses mRNA construction to break both transcription and translation.
Regulation of Genes in Eukaryotes
There is no exact attenuation as the nucleus forms the base for the occurrence of the transcription, and cytoplasm forms the base for the occurrence of the translation. The coordinated effect becomes impossible in these situations. There are different sets of genes that determine the cell differences. For example, the unfertilized egg looks different and acts differently from a skin cell. The neuron or a muscle cell can act differently as the cells possess genes that act differently. Each cell expresses different genes.
Another example is that of a cancer cell. A cancer cell acts differently from a normal cell, and both the cells contain genes; however, the genes contained in both the cells are different. Scientists and researchers use these differences in the genes to identify and diagnose the diseases and formulate appropriate treatments. In eukaryotes, the gene expression of the default state remains to be off.
Capabilities of the Chromatin
Chromatin is the complex of DNA, and this group of basic proteins is found in the nucleus. The most evolutionarily conserved proteins are histones, and they are highly vital for the well-being of eukaryotes. The gene is off when it is tightly bound with histone. All the changes of the histones absolutely charge the amino acids and create areas in which DNA is open.
Structure of the Human Gene
There are three billion pairs of DNA bases. These pairs fragment the DNA and form structural units of genetic material called genes. DNA is used to synthesize proteins or synthesize different types of RNA. There are different types of RNA present:
- Ribosomal RNA (rRNA): They are a primary component of ribosomes and are essential for all the cells
- Transfer RNA (tRNA): They support decoding a messenger RNA arrangement into a protein
- Messenger RNA (mRNA): They are single-stranded RNA molecules and play a vital role in protein synthesis
There are more than 30,000 genes contained in the human genome. The functions of each gene are still being researched and remain largely unknown.
Conclusion
Gene regulation refers to a set of complex mechanisms that cells use to turn the genes on or off as per the requirement and needs of organism. This is important for an organism to respond and adapt to environmental changes.