Cell nucleus: structure and function

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Think about your favorite superhero: regular  person by day, a vigilante in spandex and a  

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cape by night. Saving the world isn’t an easy job,  so most superheroes have support. Enter the “guy  

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behind the computer,” the all-knowing tech whiz  that helps the hero succeed! Hacking blueprints,  

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giving directions, monitoring surveillance,  the guy-behind-the-computer does it all. We  

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can think of the cell nucleus like the guy behind  the computer — making calls, sending directions,  

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and overall being in charge of the superhero  cell (despite always getting less credit than  

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the superhero themselves…). The nucleus is  a multi-functional organelle that is found  

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in eukaryotes. Generally, eukaryotes have only  one nucleus, but this isn’t always the case!  

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Certain eukaryotic cells, like red blood cells,  and prokaryotes, like bacteria and archaea, don’t  

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have nuclei either; these are called enucleate  cells. Other cells, like those of slime mold,  

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have 2 or more nuclei and are called multinucleate  cells. The nucleus (if there is one!) makes up  

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approximately 10% of the cell’s volume and has an  incredibly important purpose in the cell. The cell  

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nucleus functions as the information processing  center of the cell, storing genetic material and  

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organizing all of the cell’s activities from cell  division to synthesizing proteins. The nucleus is  

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especially important for protein synthesis.  Oh yeah! It’s the site of transcription where  

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messenger RNA, or mRNA, is produced! The nucleus  may appear to be one, lone, blob of an organelle.  

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But, in fact, it’s made of many different  structures that contribute to the overall function  

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of the nucleus: the nuclear membrane, nucleoplasm,  chromatin/chromosomes, and the nucleolus.  

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Now, let’s see what kind of programs the  guy-behind-the-computer nucleus runs in the  

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superhero cell. The first important structure  making up the nucleus is the nuclear envelope.  

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The nuclear envelope is like your computer’s  antivirus: it keeps everything where it should be,  

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and screens for everything before allowing it  on your computer (or in this case, the nucleus).  

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You can’t be a superhero’s sidekick with a virus  on your computer, can you? The nuclear envelope  

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consists of two phospholipid bilayers that act  as a “wall” for the nucleus, keeping all of the  

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contents in place. This protective envelope is  actually composed of two membrane layers: an  

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inner nuclear membrane (or INM), facing “inside”  towards the inside of the nucleus, and an outer  

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nuclear membrane (or ONM), facing “away” from the  nucleus towards the cytoplasm of the cell. The ONM  

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also connects directly to the rough endoplasmic  reticulum and is covered in ribosomes. There is  

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also a fluid-filled space between the INM and the  ONM called perinuclear space, separating the two  

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membrane layers. Although the nuclear envelope  acts as a wall to keep the nucleus in shape, it  

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also has another important function: selectively  allowing things into the nucleus. Small holes in  

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the envelope, called nuclear pores, act as a safe  passageway for different molecules like proteins  

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and RNA. The pores are like a bodyguard: unless  you pass the check, you’re not allowed entry.  

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And this keeps the nucleus safe, and allows it to  keep doing it’s job without issue! Next up, let’s  

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talk internet. The guy-behind-the-computer can’t  function without internet , right? That magical  

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hidden network that can get you anywhere you need  to go, much like the nucleoplasm of the nucleus.  

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The nucleoplasm — composed of water, salts,  enzymes, and other organic molecules — helps  

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the nucleus in a number of ways. First, it acts as  a cushion for the nucleus, protecting all of the  

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contents within the organelle, and also helps the  nucleus keep its shape. But, more importantly, the  

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nucleoplasm acts as a transportation network for  the nucleus, much like the internet of the cell.  

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Imagine: you’re helping a superhero on a  mission, you search up “bad guys near me” and  

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you immediately get the perfect website back on  your browser because of your super fast internet.  

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The nucleoplasm works in sort of the same way.  Say the nucleus needs something like an enzyme,  

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for example. The enzyme travels through the  cell and the nucleoplasm “internet,” right  

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through the nuclear pores into the nucleus.  It’s like cellular-level internet — but cooler.  

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Now, let’s think about how a computer actually  works. If you’re a superhero’s right hand man,  

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you have to have a top-notch, state-of-the-art  computer, and you can’t run a computer without  

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code. The code on your computer dictates how every  single thing on it runs, so it’s really important!  

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Chromosomes are like USB sticks for computers,  but instead they store the blueprint to our  

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bodies. They store and share code in the form of  DNA. Chromosomes have all our body's information,  

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from “how-to” manuals on cell growth to  “development and reproduction 101.” Chromosomes  

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live in the nucleus, but in a “resting” form;  when the cell is not in active reproduction stage,  

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chromosomes exist in long, free-floating  strands of DNA and protein called chromatin.  

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And chromatin can be classified even further  into heterochromatin — the inactive form of  

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chromatin — and euchromatin — the looser, more  delicate form of chromatin. Chromatin (in all  

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its forms) comes together during cell division  to form chromosomes! The nucleolus is the final  

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feature we’ll talk about, and it actually directly  relates to chromosomes and chromatin! Think of the  

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nucleolus like a temporary line of code that  your guy-behind-the-computer uses to save the  

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day. It’s put in your computer to finish one  job, and once it’s done, the code disappears…  

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until you need it again. The nucleolus is a  membrane-less feature that spends its time  

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floating around in the nucleoplasm, and also plays  a big role in protein synthesis. The nucleolus,  

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which stores proteins and RNA inside, has features  called “nucleolar organizers” that are integral  

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for creating ribosomes during the process of  protein synthesis. Ribosomes are formed during  

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protein synthesis and then, when the cell is  ready to divide, the nucleolus disappears!  

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Talk about not taking credit for your work! In an  almost-but-not-quite divided cell, the nucleolus  

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reappears as sets of chromosomes meet on opposite  sides of the cell during mitosis. Like a line of  

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disappearing code, the nucleolus fulfills its  job, then lets the rest of the cell take charge.  

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Much like how your favourite superhero depends on  their guy-behind-the-computer (and, let’s face it,  

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the computer itself), our entire body depends  on the function of the nucleus. Whether it’s  

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providing code for our bodies to replicate DNA  or make new proteins, or it’s simply helping the  

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necessary coding information pass through to be  read by the nucleus, the various functions of this  

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organelle are something we literally could not  live without. Now speaking of organelles, click  

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on the next video to learn about another important  organelle closely related to the nucleus - the  

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endoplasmic reticulum. Remember to like the  video so you tell me and Youtube you want more  

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of these. And subscribe to the channel, so you  don’t miss the next upload. I will see you soon!