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  • Welcome to the NDSU Virtual Cell.

  • It's time to climb into one of our cell submarines and take a virtual tour of our cellular landscape.

  • Looking straight ahead, you should see a large blue object studded with small yellow openings.

  • That is the nucleus of the cell.

  • It will be our first stop today.

  • The nucleus is uniquely recognizable by the system of pores embedded within its outer membrane.

  • Biological materials move in and out through the pores.

  • They are the communication channel between the internal world of the nucleus

  • and the cellular cytoplasm.

  • The nucleus contains the vast majority of the DNA in the cell.

  • The DNA contains all of the genetic information necessary

  • to carry out all of the functions of the cell,

  • as well as the tissues and organs in which the cell can be found.

  • That information is mobilized first by the process of transcription.

  • Let's pause and take a short look at the process.

  • During this process,

  • the DNA is used as a template to make RNA.

  • Here, you can see that process in action.

  • The final product of transcription

  • is then spliced and modified

  • into one of three RNA molecules:

  • messenger RNA (or mRNA),

  • transfer (or tRNA),

  • and ribosomal (or rRNA).

  • These are all important components of the process call translation that is used to make proteins.

  • If we follow the final mRNA products out of the nucleus

  • we can see them in action during the process of translation.

  • Here you can see a particulate organelle called the ribosome.

  • It is partially composed of the rRNA we just spoke of.

  • Attached to it is the mRNA.

  • As translation starts,

  • a tRNA molecule binds to it

  • and delivers the correct amino acid.

  • As the protein grows,

  • additional amino acids are brought into place by the correct tRNA molecules.

  • The correct tRNA

  • is determined by triplet codes found in the mRNA.

  • Proteins are the product of translation

  • Although some of these proteins stay within the cytoplasm,

  • others are trafficked to different locations within the cell

  • and some are exported from the cell.

  • Most of this trafficking

  • involves the endoplasmic reticulum (or ER)

  • and the golgi apparatus.

  • We are now looking at the ER, or endoplasmic reticulum.

  • Some of the cell's ribosomes are attached to the ER

  • and the proteins they manufacture

  • are inserted directly into the space inside the ER.

  • Those proteins can be packaged into vesicles

  • which depart the ER and migrate to the golgi apparatus.

  • Here, the vesicles merge to form a golgi cisterna

  • with the proteins located inside the cisterna's membrane.

  • As the cisterna matures,

  • enzymes inside can modify the protein.

  • This modification creates a molecular tag

  • that is used to target the protein

  • to a specific cellular location.

  • Eventually, the cisterna will mature into the trans golgi network.

  • From here vesicles can deliver proteins to cellular locations

  • such as endsome or the cell membrane

  • where the proteins can be embedded or exported from the cell. \

  • Once proteins have been translated,

  • they can also be delivered to other organelles in the cell,

  • such as the mitochondria and the chloroplast.

  • Delivery here is by a different process.

  • Some proteins are produced with transit peptides.

  • These are specialized sequences on the end of the protein

  • recognized by pores

  • in the mitochondrial membrane.

  • With the help of additional specialized proteins,

  • the protein is delivered into the organelle.

  • Transport to the chloroplast involves a similar process.

  • Mitochondrias and chloroplasts are the sites for unique cellular processes.

  • We'll first look at the mitochondria.

  • This organelle produces ATP,

  • an energy molecule that is used by many other cellular processes.

  • ATP is produced by a complex in the mitochondrial membrane

  • called ATP synthase.

  • The energy to produce ATP

  • is provided by a gradient of protons

  • (or hydrogen ions)

  • found on the two sides of the membrane.

  • Protons flow from the area of high concentration

  • through the ATP synthase,

  • to the area of low concentration.

  • As they flow through ATP synthase,

  • ATP is produced.

  • This gradient is produced by the action of the electron transport system.

  • As electrons are passed from one carrier

  • to another in the system,

  • protons are pumped across the membrane.

  • This creates the gradient required for ATP production.

  • Here we see can see the electrons

  • moving between the carriers.

  • Finally, we see an organelle only found within plant cells.

  • This is the chloroplast.

  • Here light energy from the sun

  • is converted into chemical energy in the form of ATP.

  • As with the electron transport system,

  • electrons are passed from one carrier to another

  • and protons are passed across the membrane.

  • The gradient this creates

  • produces ATP by a similar ATP synthase complex.

  • It begins with a photon of light

  • that produces the energy necessary

  • to release an electron down the carrier chain.

  • Here you can see the electron moving between the carriers

  • along with ATP being produced by ATP synthase.

  • And that brings us to the end of our fly through.

  • There are many processes going on within our virtual cell,

  • and this trip featured only a few of the major functions.

  • We are always working to expand our collection,

  • and we hope you will return to explore our newest additions.

Welcome to the NDSU Virtual Cell.

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バーチャルセルを介して (Through the Virtual Cell)

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    wshuang999 に公開 2021 年 01 月 14 日
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