Protein Synthesis (Updated)

Protein Synthesis (Updated)

Captions are on! Click CC at bottom right to turn off. Stay up to date with us by following us on Twitter (@AmoebaSisters) and Facebook! After learning about DNA, have you ever wondered,
how can the DNA actually result in a trait? Let’s take an example – like eye color. Yes, your DNA has the genetic information
that codes for the color of your eyes. Your eye color is based on a pigment that
is inside the eyes. But, in order to have that pigment, you have
genes, which are portions of DNA, that can code for proteins which help make that pigment. So what we’re going to talk about is how
your DNA can lead to the making of a protein. This process is called protein synthesis. Synthesis essentially means to “make something”
so protein synthesis means to make protein. And you may wonder, “What’s the big deal
about proteins?” Well you may not realize this but proteins
are kind of a big deal. They do all kinds of things. Proteins are involved in transport, in structure,
in acting as enzymes that make all kinds of materials, in protecting the body…and so
much more. You’ve got to make proteins – it’s essential
for you to live. And what is so COOL is that you are making
proteins right now as you sit and watch this video. It’s happening in your cells. They’re making proteins. So back to your DNA and its role in all of
this. All of your cells have DNA—well a few exceptions—and
that DNA is in the nucleus. Some DNA is noncoding DNA. Some DNA makes up genes that are not activated. More about that in our gene regulation video. But we’re going to talk about genes that
are coding for active proteins. So how are we going to get the information
from these genes out of the nucleus so that the cell can start producing the proteins
that it needs to make? Well let us introduce you to the amazing work
of RNA. We have a video comparing and contrasting
RNA—we’ll be brief here in saying that RNA is a nucleic acid like DNA. But it has a few differences. Its role in protein synthesis also is HUGE. Before we get into the process, please note
our typical disclaimer: we tend to simplify topics while staying as accurate as we can—but
as always, we hope you will have the desire to explore this complex, amazing process later
on to learn all about the extra information that we don’t have the ability to include
in this short video. In protein synthesis, we can look at two major
steps. One is transcription and the other is translation. Transcription has a C in it, and translation
has an L in it. I remember that C comes before L in the alphabet,
which helps me remember that transcription comes first. I like a lot of alphabet mnemonics. Now, transcription is when we’re going to
transcribe the DNA into a message. In your cells, the DNA is in the nucleus,
so therefore, we’re doing transcription in the nucleus. In the step of transcription, an enzyme called
RNA polymerase will connect complementary RNA bases to the DNA. These RNA bases are bonded together to form
a single stranded mRNA. The m in mRNA stands for messenger. Messenger RNA consists of a message made of RNA that has been based on the DNA. We do want to mention that this mRNA is not
usually ready to go right away. There’s usually a significant amount of mRNA editing that occurs— we highly encourage you to do some reading about that because it’s
not only fascinating—it’s critical for the process to work correctly. So what’s something great about being mRNA? Well in eukaryotes, you get out of the nucleus. The mRNA can go out of the nucleus into the cytoplasm where it’s going to attach to a ribosome. Ribosomes make protein. The ribosome is made of rRNA, and that’s
an easy one to remember because the “r” stands for ribosomal RNA. The ribosome is going to build our protein
in the next step called translation! You know, you can find a lot of great clips
and animations on translation that are just fantastic. We’re just going to break down some basics of what’s happening. In the cytoplasm, if you look at this, you have all these tRNA molecules available. tRNA stands for transfer RNA. They carry an amino acid on them. An amino acid is the monomer for a protein;
it’s a building block for protein. Since we’re making proteins, we’re going
to need those amino acids to build it. If you have a bunch of amino acids together,
you can build a protein. So it’s the tRNA that is going to bring
those amino acids together to make that. But wait, how does the tRNA know which amino
acids to bring? That’s why the mRNA, the message, is so
important because it’s going to direct which tRNAs come in and therefore which amino acids
are transferred. All of these tRNAs are looking for complementary bases. When they find the complementary bases on the mRNA, they transfer their amino acid When tRNA is bringing in the amino acids,
it reads the bases—represented by these letters here on the mRNA— in threes. So it doesn’t read one letter at a time;
it reads it in triplets. That’s called a codon. So, for example, in this mRNA, the tRNA would
read the codon AUG. One of these tRNAs contains a complementary
anticodon—which in this case is UAC. All tRNAs that have the anticodon UAC will
be carrying an amino acid called methionine. A tRNA with the UAC anticodon comes in to
pair with the complementary AUG codon on the mRNA. It transfers the amino acid it carries, methionine. The tRNA will eventually leave, but it will
leave behind its amino acid. That’s the first amino acid before looking at the next codon. Before we do the next codon to carry this on— if you’re wondering—how did you know that the tRNA that went with the AUG codon
would be carrying an amino acid called methionine? Well, for that, you will find a codon chart
helpful! You can learn to use a codon chart to determine
which amino acid each mRNA codon will code for. Isn’t is so fascinating that scientists
have been able to determine which amino acid corresponds with these codons? I used to have a codon chart poster and just
marvel at that. You can see on a codon chart that the AUG
codon on the mRNA codes for methionine. AUG is also considered a start codon as methionine
is typically going to be your first amino acid in proteins. There are many types of amino acids in the
codon chart, but there are even more possible codon combinations. That means there can be more than one codon
that code for the same amino acid. For example, according to the mRNA codon chart,
all of these mRNA codons here code for the same amino acid: leucine. That means their complementary tRNAs all carry
the same amino acid: leucine. Ok, so going back to the mRNA—let’s try
the next codon on this mRNA. CCA. On the codon chart, you can see that codes
for the amino acid proline. The complementary tRNA has the anticodon GGU and look, there’s the proline that we knew it would be carrying. The tRNA will transfer that amino acid and
eventually leave where it can go pick up another amino acid. These amino acids are held together by a peptide
bond. And it will keep on growing. Typically at the very end of the mRNA, there
is a stop codon. Stop codons do not code for an amino acid, but when the ribosome reaches it, it indicates that the protein building is finished. So the result of translation is that you built
a chain of amino acids that were brought in certain sequences based on the coding of
the mRNA. But remember that mRNA was complementary to
the DNA. So the DNA ultimately was the director of
the entire protein building, of course, it couldn’t have done it without some serious
help from mRNA, rRNA, and tRNA. Protein folding and modification may occur
and the protein may need to be transported—this can all vary based on the protein’s structure and function. Another fascinating topic for another Amoeba
Sisters video. Well that’s it for the Amoeba Sisters and
we remind you to stay curious!

81 Replies to “Protein Synthesis (Updated)”

  1. UPDATE: We have an updated version of the handout that uses this video. Just like the old handout, it uses this "protein synthesis" video and it also uses our "DNA vs RNA" video . You can find it on our handout page — just look under the topic "Protein Synthesis." [No worries if you like the original version; we still keep our old videos and old handouts available if you prefer them.]
    Check out our other milestones here

  2. shoutout to ms ryan for introducing the amoeba sisters to us

    this is what is going to help me pass my final lol

  3. Thank u for this!
    Your videos are awesome! Helped me understand very easily. You got a new subscriber😁😁

  4. i literally have been studying this concept for an hour and gotten nowhere and this video explained it to me in 8 minutes

  5. I am a high school biology student and I have a question that is open to anyone that will respond! the question: where/and how is tRNA made/from? I am taking my Biology final tomorrow, so anyone who can answer the question…PLEASE do so!

  6. your video is great! but I'm still a bit confused- does the rna enzyme copy the strand in which the bases code for the protein or does it copy the complimentary strand to those bases that make the sequence of amino acids needed?

  7. Thank you so much, it's so informative, helpfun and also so cute and fun!!! You're really helping people with your videos plus it's just so fun to watch your videos.😊😊 Thank you so much for your creations ^-^ 😊😊😊 You're a gen-ius 😁😁😃

  8. My teacher shows your videos in school before diving deeper into the subject. I always come back to your channel to try to understand what shes talking about. So thank you.

  9. Thank you for making such interesting video which will help students in understanding and also memorizing ! <3

  10. Amoeba sisters y'all both doing a wonderrrrful job! This is really simplified! ❤️ love and kisses your way!

  11. THANK YOU SO MUCH LITERALLY CHANGED MY LIFE !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! PLEASE MAKE VIDEOS ON LITERALLY EVERYTHING IN PHYSIOLOGY PLS

  12. It's 1 am right now and tomorrow (actually today) i got my final exams of highschool. You don't know how much this is helping me!

  13. Very informative. ♥️♥️ It’s very helpful to have such lighthearted and playful educational videos while studying undergrad. Very great work!!! I love all ur vids and they help me so much!

  14. This is explained very well. College professors makes stuff seem more complicated than they really are.

  15. this was more easier to watch and learn than to be trapped in a classroom writing down poorly written notes from a power point and not begin able to catch up.

  16. I have really loved the way you interpret these really complex processes. Keep going. Newly subscribed to your your channel Amoeba sisters.
    Edit : It's a day before my exam

  17. Thank you so much, you deserve the world, you explain really good and the drawings are so cute that makes it fun to learn💖

  18. who else here's been pronouncing leucine "leh-yoo-seen" instead of "loo-seen" for the entirety of their lives??? just me? welp

  19. Came back to college in my mid-20s because my first degree sucked…
    Thanks to this channel i just got an easy A for my Bio class without even buying the useless textbook

  20. Thanks for the sunset, Arturo. Thanks for the education my professor isn’t giving me, Ameoba sisters lol

  21. U guys are the best!!! Genetics is a topic that I always felt boring and vague but my opinion on genetics has completely changed now!!! Thanks to u amoeba sisters, ps love ur voice

  22. Great video and interesting illustrations. Thank you so much , learned more here than I ever did in Lecture classes. I don't even get what are the dislikes are for????

  23. Oh my god
    What a simple and lucid explanation
    Resolved so many doubts in a single video of 9 mins
    Thank you so much 😘

  24. I love your videos. I remember trying to teach this subject to my niece and she was so overwhelmed and frustrated, but when I showed her this video she was so excited to finally understand the basic process of protein synthesis.

  25. This is so well made 😍 appreciate your creations, that you choose to share and to have found this beauty 🙏🏾🙌🏾💃🏽
    Making self educating an adventure of even more wonder 🐢💨

  26. Neend any animation help… Plz ask me… Hi my name is feroz kadir i m from india.. I hv 15years of experience in 2d and 3d animation… Plz do let me kw if u have any work for me.

  27. I'm in matric and since grade 10 my bio teacher has shown us your videos and this makes it so much easier , I even use them to study if I don't feel like reading😅. Thank you sooo much these are so so helpful and fun😊

  28. Whats the difference between RNA polymerase and DNA polymerase? Super confusing… other video says RNA primer initiate DNA polymerase to make new strand,,, but this video is saying its the RNA Polymerase…..

  29. When the amoeba was like ' Ugh, Everyday' to the to do list, i felt that. This school business. Sigh. We move

  30. Great job, Amoeba Sisters! I have watch many videos, but you simplified it and made it easy to understand. Thank you 😊.
    God is good.

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