Cell-Structures-and-Functions-wapa-nahuman-aaaaaaa.pdf

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Cell Structures and Functions
All living organisms are made up of one or more cells. The cells are the building block of life.
Each contains materials that carry out basic life processes. These materials are called
organelles.

A useful technique for studying cell structure and function, which takes cell parts and separates
major organelles and other subcellular structures from one another is called Cell
Fractionation.

Centrifuge speed for every cell structure:

Nucleus - 3,000 rpm for 5 minutes
Ribosomes - 28,800 rpm for 16 hours
Mitochondria - 14,000 for 7 minutes
Endoplasmic Reticulum - 35,000 for 70 minutes
DNA (Deoxyribonucleic Acid) - 12,000 rpm for 2 minutes

The Nucleus

Typically, the nucleus is the most prominent organelle in a cell. Contains most of the cells’
DNA—its master plans—and controls the cells’ activities by directing protein synthesis.

A prominent structure within the nondividing nucleus is the nucleolus, here a type of RNA is
synthesized (rRNA or Ribosomal RNA). Also, in the nucleolus, the proteins imported from the
cytoplasm are assembled with rRNA into large and small subunits of ribosomes.

The Nuclear Envelope

A double membrane structure that constitutes the outermost portion of the nucleus. The
envelope is punctuated with pores—called nuclear pores—that control the passage of
ions, molecules, and RNA between the nucleoplasm and cytoplasm.
Nucleoplasm - the semi-solid liquid inside the nucleus, where we find the chromatin and
the nucleolus.

Chromatin and Chromosomes

Within the nucleus, DNA is organized into discrete unit called chromosomes, structures that
carry the genetic information. Each chromosome contains one long DNA molecule associated
with proteins—histone and nonhistone proteins. The complex of DNA and proteins making up
chromosomes is called chromatin.

Chromatin describes the material that makes up the chromosomes both when condensed
and uncondensed.

Ribosomes
These are complexes made of ribosomal RNA and protein, are cellular components that carry
out protein synthesis. They may be attached to the cytoplasmic side of the plasma membrane
or the cytoplasmic side of the endoplasmic reticulum and the outer membrane of the nuclear
envelope.

Two cytoplasmic locales: Free Ribosomes (cytosol) and Bound Ribosomes
Free Ribosomes catalyze the first steps of sugar breakdown; The produced protein
stays inside the cell.
Bound Ribosomes are responsible for membrane insertion; Packaging within certain
organelles and for secretion; The produced protein is transported to other cells.

Cells with high rates of protein synthesis have particularly large numbers of ribosomes as well
as prominent nucleoli, which makes sense, given the role of nucleoli in the ribosome assembly.

The Endomembrane System
This system carries out a variety of tasks in the cell, including synthesis of proteins, transport of
proteins into membranes and organelles or out of the cell, metabolism and movement of lipids,
and detoxification of poisons. The membranes of this system are related either through direct
physical continuity or by the transfer of membrane segments as tiny vesicles.

The Endomembrane System consists of the following:
Nuclear Envelope
Endoplasmic Reticulum
Golgi Apparatus
Lysosomes
Various kinds of vesicles and vacuoles
Plasma Membrane

Endoplasmic Reticulum (ER)

The Endoplasmic Reticulum is an extensive network of membranes that it accounts for
more than half the total membrane in many eukaryotic cells.

The Endoplasmic Reticulum consists of a network of membranous tubules and sacs called
cisternae, a reservoir of liquid.
The ER membrane separates the internal compartment of the ER, called the ER lumen
(cavity) or cisternal space, from the cytosol. The ER membrane is a phospholipid bilayer
 embedded with proteins, is continuous with the nuclear envelope.

Smooth Endoplasmic Reticulum (SER)

Functions in diverse metabolic processes, which vary with cell type. This processes
include synthesis of lipids, metabolism of carbohydrates, detoxification of drugs and
poisons, and storage of calcium ions.

Enzymes of the smooth ER are important in the synthesis of lipids, including oils, steroid, and
new membrane phospholipids. Among the steroids produced by the smooth ER in animal cells
are the sex hormones of vertebrates and the various steroid hormones secreted by the adrenal
glands.
Other enzymes of the smooth ER help detoxify drugs and poisons, especially in liver cells.
Detoxification usually involves adding hydroxyl groups to drug molecules, making them more
water-soluble and easier to flush from the body.

In muscle cells, a specialized SER called the sarcoplasmic reticulum is responsible for
storage of the calcium ions that are needed to trigger the coordinated contractions of the
muscle cells.

Rough Endoplasmic Reticulum (RER)

So named because the ribosomes attached to its cytoplasmic surface give it a studded
appearance when viewed though an electron microscope.

Many cells secrete proteins that are produced by ribosomes attached to the rough ER. For
instance, certain pancreatic cells synthesize the protein insulin in the ER and secrete this
hormone into the bloodstream. Most secretory proteins are glycoproteins, proteins with
carbohydrates covalently bond bonded to them. Secretory proteins depart from the ER
wrapped in the membranes of vesicles that bud from like bubbles from a specialized
region called transitional ER.

Golgi Apparatus

After leaving the ER, many transport vesicles travel to the Golgi apparatus. It serve as a
warehouse for receiving, sorting, shipping, and even some manufacturing. In the Golgi
apparatus, products of the ER, such as proteins, are modified and stored and then sent to other
destinations. It is especially extensive in cells specialized for secretion.
 The Golgi Apparatus also manufactures some macromolecules. Many polysaccharides
secreted by cells are Golgi products. For example, pectin and certain other non-cellulose
polysaccharides are made in the Golgi of plant cells and then incorporated along with
cellulose into their cell walls.

Lysosomes