flame cell

Examples of flame cell in the following topics:

• Flame Cells of Planaria and Nephridia of Worms

  • Flame cells and nephridia remove the waste from bodies through filtration in a manner similar to a kidney.
  • Excretory cells known as flame cells developed in flatworms, while nephridia developed as excretory cells in annelids.
  • The cells in the tubules are called flame cells (or protonephridia) because they have a cluster of cilia that looks like a flickering flame when viewed under the microscope .
  • Flame cells function like a kidney, removing waste materials through filtration.
  • In the excretory system of the (a) planaria, cilia of flame cells propel waste through a tubule formed by a tube cell.

• Phylum Platyhelminthes

  • The epidermal tissue is a single layer cells or a layer of fused cells (syncytium) that covers a layer of circular muscle above a layer of longitudinal muscle.
  • The mesodermal tissues include mesenchymal cells that contain collagen and support secretory cells that secrete mucus and other materials at the surface.
  • Flatworms have an excretory system with a network of tubules throughout the body with openings to the environment and nearby flame cells, whose cilia beat to direct waste fluids concentrated in the tubules out of the body.
  • There is neither a circulatory nor respiratory system, with gas and nutrient exchange dependent on diffusion and cell-cell junctions.
  • Each may contain an excretory system with flame cells and both female and male reproductive structures.

• Cellular Differentiation

  • Three basic categories of cells make up the mammalian body: germ cells, somatic cells, and stem cells.
  • Pluripotent stem cells undergo further specialization into multipotent progenitor cells that then give rise to functional cells.
  • Hematopoietic stem cells (adult stem cells) from the bone marrow that give rise to red blood cells, white blood cells, and platelets
  • Mesenchymal stem cells (adult stem cells) from the bone marrow that give rise to stromal cells, fat cells, and types of bone cells;
  • Epithelial stem cells (progenitor cells) that give rise to the various types of skin cells

• Gene Expression in Stem Cells

  • In mammals, there are two broad types of stem cells: embryonic stem cells, which are isolated from the inner cell mass of blastocysts, and adult stem cells, which are found in various tissues.
  • Stem cells can now be artificially grown and differentiated into specialized cell types with characteristics consistent with muscle or nerve cells through cell culture.
  • In one, the daughter cells are initially equivalent but a difference is induced by signaling between the cells, from surrounding cells, or from the precursor cell.
  • Stem cells are indicated by (A), progenitor cells by (B), and differentiated cells by (C).
  • Pluripotent, embryonic stem cells originate as inner cell mass (ICM) cells within a blastocyst.

• Cell Theory

  • Cell theory states: living things are composed of one or more cells; the cell is the basic unit of life; cells arise from existing cells.
  • The unified cell theory states that: all living things are composed of one or more cells; the cell is the basic unit of life; and new cells arise from existing cells.
  • "All cells only arise from pre-existing cells.
  • Cells carry genetic material passed to daughter cells during cellular division
  • The cell is the basic unit of life and the study of the cell led to the development of the cell theory.

• The Role of the Cell Cycle

  • In other words, that original single cell is the ancestor of every other cell in the body.
  • Single-celled organisms use cell division as their method of reproduction.
  • While there are a few cells in the body that do not undergo cell division, most somatic cells divide regularly.
  • A somatic cell is a general term for a body cell: all human cells, except for the cells that produce eggs and sperm (which are referred to as germ cells), are somatic cells.
  • The cell cycle is an ordered series of events involving cell growth and cell division that produces two new daughter cells.

• Natural Killer Cells

  • After a pathogen enters the body, infected cells are identified and destroyed by natural killer (NK) cells, which are a type of lymphocyte that can kill cells infected with viruses or tumor cells (abnormal cells that uncontrollably divide and invade other tissue).
  • As such, NK cells offer a complementary check for unhealthy cells, relative to T cells.
  • NK cells are always active; an interaction with normal, intact MHC I molecules on a healthy cell disables the killing sequence, causing the NK cell to move on.
  • After the NK cell detects an infected or tumor cell, its cytoplasm secretes granules comprised of perforin: a destructive protein that creates a pore in the target cell.
  • Phagocytic cells then digest the cell debris left behind.

• Regulation of the Cell Cycle by External Events

  • External factors can influence the cell cycle by inhibiting or initiating cell division.
  • Each cell is produced as part of its parent cell.
  • Some cells do live longer than others, but eventually all cells die when their vital functions cease.
  • Crowding of cells can also inhibit cell division.
  • Another factor that can initiate cell division is the size of the cell; as a cell grows, it becomes inefficient due to its decreasing surface-to-volume ratio.

• Mechanics of Cellular Differentation

  • How does a complex organism such as a human develop from a single cell—a fertilized egg—into the vast array of cell types such as nerve cells, muscle cells, and epithelial cells that characterize the adult?
  • A multipotent stem cell has the potential to differentiate into different types of cells within a given cell lineage or small number of lineages, such as a red blood cell or white blood cell .
  • Finally, multipotent cells can become further specialized oligopotent cells.
  • Adult bone marrow has three distinct types of stem cells: hematopoietic stem cells, which give rise to red blood cells, white blood cells, and platelets ; endothelial stem cells, which give rise to the endothelial cell types that line blood and lymph vessels; and mesenchymal stem cells, which give rise to the different types of muscle cells.
  • The multipotent hematopoietic stem cells give rise to many different cell types, including the cells of the immune system and red blood cells.

• Cells as the Basic Unit of Life

  • A cell is the smallest unit of a living thing.
  • A living thing, whether made of one cell (like bacteria) or many cells (like a human), is called an organism.
  • For example, both animal and plant cells are classified as eukaryotic cells, whereas bacterial cells are classified as prokaryotic.
  • Bone cells help to support and protect the body.
  • Cells of the immune system fight invading bacteria.