The immune system’s white blood cells, B cells and T cells are in charge of an organism’s adaptive immunological response. The bone marrow produces both types of cells. T cells migrate to the thymus and mature there, while B cells mature in the bone marrow. These cells are physically similar and have a role in an organism’s adaptive immune response.
What are B cells?
These cells develop in the bone marrow and respond to antigens by producing antibodies. The humoral reaction is mediated by B lymphocytes. B cells create plasma cells and memory B cells as soon as they come into contact with antigens.
What are T cells?
T cells develop in the thymus after starting in the bone marrow. T helper cells and T cytotoxic cells are two types of T cells. They are in charge of eliminating infections from the body. T cells cause B cells to form plasma cells and activate T killer cells, which kill the invaders’ cells as soon as the foreign antigen penetrates the cells.
Similarities between B cells and T cells
- Both B cells and T cells are non-phagocytic and belong to the lymphatic system
- Both support the immune system and aid in the battle against infections
- The cells are motile and nucleated
- They are engaged in adaptive immunity and are a kind of lymphocyte
- B and T cells are lymphocytes that originate in the bone marrow
B Cell Division
When a parent cell splits into at least daughter cells, it is known as B cell division. Usually, cell division happens as part of a broader cell cycle. Every cell divides into two daughter cells, with each parental cell producing two daughter cells.
These recently generated daughter cells may divide and expand, resulting in the formation of a novel cell population from the expansion and division of a single parental cell and its descendants.
To put it another way, such division and growth cycles enable a particular cell to expand into a complex with millions of cells.
Learn about the many kinds and phases of B cell division by looking through the cell division notes.
Types of Cell Division
The vegetative division is the initial kind of cell division, in which each descendant cell replicates the parent cell. Mitosis is the second kind of cell division when each daughter cell repeats the parent cell. The second is meiosis, which produces four haploid daughter cells.
- Mitosis: Mitosis is the process through which cells double themselves. Mitosis may be found in practically every cell in the body, including those in the hair, skin, eyes, and muscles
- Meiosis: Instead of identical daughter cells, egg or sperm cells are created in this kind of cell division
- Binary Fission: organisms with only one cell such as bacteria reproduce by replicating themselves
Phases of the Cell Cycle
The cell cycle is divided into two phases:
- Interphase: Previously thought to be a resting stage between cell divisions, new research has revealed that it is really a very active phase.
- M Phase (Mitosis Phase): The cell divides during this phase. There are two elements to this phase: karyokinesis and cytokinesis.
There are three phases in the interphase:
- Resting Phase – G0 Phase: During this phase, the cell does not divide or prepare for division.
- Gap 1 – G1 Phase: During this phase, the cell is metabolically dynamic and continues to expand.
- Synthesis – S phase: During this step, DNA synthesis or replication takes place.
- Gap 2: In the G2 phase, protein synthesis takes place.
- Inactive Stage – G0: Cells that don’t divide further depart the G1 phase and reach the inactive stage. The cell cycle’s quiescent stage is named after this stage.
The M Phase is divided into four stages: telophase, anaphase, metaphase and prophase.
Cytochalasin B cell cycle
Cytochalasin B (CB) is a mycotoxin that may pass through cells. It blocks the synthesis of contractile microfilaments in the cytoplasm, limits cell motility, and causes nuclear extrusion.