Imagine showing this to the scientists that discovered all of this. How mind blowing it is that our technology has grown so far that we can witness the creation of life.
It's that super fast moment when the joined pairs of chromosomes in the middle of the nucleus (the paired squiggly lines in the center) split to opposite sides taking one line of genetic info from each chromosome. Shortly after, the genetic material on each side mixes together and cleavage forms two identical daughter cells from the original parent. 1:16
0:52-0:59 Prophase: The centrioles move towards the ends of the cell to remove fibers called microtubules which disintegrate the cell membrane leaving the chromosomes free in the cytoplasm. 0:59-1:18 Metaphase: The chromosomes join the microtubules and are positioned in the middle of the cell. 1:18-1:21 Anaphase: Sister chromatids separate and move to opposite side, microtubules disperse. 1:21-1:25 Telophase: Chromatids move towards centrioles and new nuclear membranes form around the chromosomes to form two nuclei. 1:25 Cytokinesis: The cytoplasm divides giving rise to daughter cells with the same genetics as the cell of origin. Love from Ecuador 🇪🇨❤
Interphase: The cell goes through 3(with an additional 4 stage called g0) named respectively g1, s, g2, and if all fails, g0. Growth 1 - Molecules are produced for synthesis - Does normal cell processes Synthesis: Replicates DNA into a form called chromatin Growth 2 - Molecules are produced for mitosis - does normal cell processes When in mitosis, prophase, this DNA is packaged and condense into chromosome for travel, the chromosome has two sister chromatids (arm like structure in the chromosome) joined together by a centromere, this forms the chromosomes. A chromosome can also have one sister chromatids, and is not exclusive to two. Centromeres are what regulates the count of chromosomes, you should not be confused with centrosome which is a structure that forms the microtubules. You should mention that in metaphase, these microtubules (otherwise known as spindle fibres) are formed in the centrosome of the cell, and are collectively know as the spindle apperatus. In anaphase, the spindle fibres assist the chromosomes to be moved at the poles, where spindle fibres become smaller and pull whilst attached to the centromere to separate the chromosomes into two. These microtubules are then broken down in telophase. In cytokinesis, the cell (in animal cells) deepen the equator of the cell cytoplasm with the assistance of molecules. In plant cells, this effect is different because of it's rigid plant structure, and therefore, a cell plate is formed in the equator, and a cell wall forms around it, hence why animals cells are close together, and in prokaryotic cells, cells with no membrane bound organelles, since there isn't a nucleus, the cell undergoes cell division by just replicating DNA, taking it to the cell membrane, and then splitting it when the cell gets bigger. After this, the cell starts at G1.
Think about this. The cells that made up a giant hunk of meat with what are basically wires made from MORE cells are receiving the signals from a bunch of cells that made a squishy eye, that picked up light from a device that was made by a bunch of other people who are just cells. And I, a cluster of cells, am replying to another cluster of cells
Flargarbason that’s the result of evolution. We don’t know how the first ones to appear were like. My point is that I think it’s just not right to say that this cells are aligned in a way because it could generate confusion and wrong questions
A skin cell dies around seven days (give or take a few days), blood cells arkund 3 months or so. So yeah, your cells constantly divide, and they need to. Not dividing leads to old and faulty cells that does more damage than good.
This is extemely fascinating.I just can't seem to understand how the chromosomes are in such order when they look completely out of order. No chromosome goes to the wrong place.They look all mixed up but every single chromosome somehow finds its place.Just amazing how this happens every single day millions of times in our body and we're not even aware of it.
It's incredible... so many questions: How could anaphase be so synchronized? How do chromosomes know which group to go into? What's their method of locomotion? I've heard that it's "spindles" but how do the spindles end up attached to each chromatid and to opposite ends of the cell? And how do they know when to pull the chromatids apart? How does the cellular membrane know where to form and how does it do so uniformly? What does the nucleus regrow from and how?
centrioles form spindle fibres which attach to chromosomes by their centromeres. During anaphase, the spindle fibres contract, causing the centromeres to split and so the chromosomes get pulled to opposite ends of the cells.
Half of your question is basically millions of years of evolution. The spindles end up to each chromatid probably through a series of chemical and molecular collisions, and the method of locomotion is counteracting movements (physics) which line them up.
I know we know a lot, but there is still so much going on there that we do not understand... I could watch that 24/7 for days and keep getting insight and inspiration. Never ceases to amaze me.
during Anaphase i couldn't help stare in awe at how easily the chromosomes just split and separate, i was even a bit unsettled at how something so simple compared to us is also so complex
Unbelievable. Can you post more videos like this? Can you post a sequence of metaphase and anaphase in extreme slow motion? What is the actual real time? Thank you!
This video is a amazing scientific profiecy that we all strive from and sustain the main factor in which we are made from. Life itself is not subsequential but rather extraordinary in the fact that life has defeated all odds to exist. And that we should admire.
Fearfully and wonderfully made. Psalms 139:14 The machinery and inter-workings of the cells and how they work together to pull apart the cell’s chromosomes and form new identical cells is absolutely fascinating.
I am in awe. Life is SO FASCINATING. I seriously cannot wrap my head around the boundless wonder that all this is. From the microscope level to the macro. Who gave it all permission to exist and be so damn mysterious and mind blowing!?!?!?
Yahweh- the one who made us, knows us, and wants to be in relationship with us. THIS is why I am in awe of Him. We can’t even make sense of ourselves to know how everything even knows to do what it does. How much more are we not even aware of to ask questions about (????!!!!)
Hi! I am currently making an experiment on orchids,and I want to see their cell division in the microscope,I had tried to use blue methyl but it doesn’t work,so could you help me with an advice please? It would be awesome if you could gave me some feedback.
I am in love with the cell’s division , it’s just mind blowing , about how could the little cell’s can do all of that and we were didn’t know about it 😅🧐
Nice video, thanks a lot. I can see significative cell mass increase after division process is done. Is not most of the cell mass increase suppose to happen before DNA replication?
Can I ask you which type of microscope do you use for this visualization? I've an optical microscope with 3W LED - Köller illuminationwith good resolution. The movie looks amazing, do you think it is possible to get similar results with my microscope?
These videos were made in the 1950s by Bajer and Mole-Bajer. They used Phase contrast (Zeiss-Jena) equipment with 16mm cine film. If you search google-scholar for "cine-micrographic author:Bajer" you will get all the original references.
Think about this, in a way the original cell still hasn’t died. It divides into another copy and essentially makes two of itself. It’s kind of like copying and pasting text. If you erase the original you can still copy the copy since they say the same thing.
So does the original cell ever die? Does the original cell gather all its parts into one of the daughter cells or are the copy and original components mixed between the daughter cells.
At 0:23 sec each chromosome suddenly splits into a pair - it seems to be an almost immediate change. Is the frame rate suddenly changed, or does the chromosome replication really happen so fast?
Well as I have read it, the chromosomes replicate themselves at the synthesis phase of interphase in mitosis/meiosis. In the video they appear to have two arms, but actually, they are having four arms at 0:23 sec. When they align as the metaphase plate, they simply split.
0:01 Prophase
0:18 Metaphase
0:23 Anaphase
0:33 Telophase
lol xd yea buddy
Thank you
good
Je t'aime
1:24 Cytokinesis
when you record a video on a computer of a video recorded on a computer
And then you watch that video on a computer
Justice Yoo and then record it again
And then i record it and put it on the internet
The inception won't stop! :D
I am recording it again!
And then I watch you watch the video through a webcam on my computer
Imagine showing this to the scientists that discovered all of this. How mind blowing it is that our technology has grown so far that we can witness the creation of life.
So true!!
shut up. God made us, Not this.
@@MohamedBASMR lol
@@MohamedBASMR A pretty nice way to make someone believe in God!
specially when he wasnt taken seriously
I love when it goes from metaphase to anaphase, it's so cool!
i know it's beautiful
we get it you're in biology
when is it.. I don't study biology XD
It's that super fast moment when the joined pairs of chromosomes in the middle of the nucleus (the paired squiggly lines in the center) split to opposite sides taking one line of genetic info from each chromosome. Shortly after, the genetic material on each side mixes together and cleavage forms two identical daughter cells from the original parent. 1:16
yessss
0:52-0:59 Prophase: The centrioles move towards the ends of the cell to remove fibers called microtubules which disintegrate the cell membrane leaving the chromosomes free in the cytoplasm.
0:59-1:18 Metaphase: The chromosomes join the microtubules and are positioned in the middle of the cell.
1:18-1:21 Anaphase: Sister chromatids separate and move to opposite side, microtubules disperse.
1:21-1:25 Telophase: Chromatids move towards centrioles and new nuclear membranes form around the chromosomes to form two nuclei.
1:25 Cytokinesis: The cytoplasm divides giving rise to daughter cells with the same genetics as the cell of origin.
Love from Ecuador 🇪🇨❤
thank you so much
Glorious is Allah
Interphase: The cell goes through 3(with an additional 4 stage called g0) named respectively g1, s, g2, and if all fails, g0.
Growth 1 - Molecules are produced for synthesis
- Does normal cell processes
Synthesis: Replicates DNA into a form called chromatin
Growth 2 - Molecules are produced for mitosis
- does normal cell processes
When in mitosis, prophase, this DNA is packaged and condense into chromosome for travel, the chromosome has two sister chromatids (arm like structure in the chromosome) joined together by a centromere, this forms the chromosomes. A chromosome can also have one sister chromatids, and is not exclusive to two. Centromeres are what regulates the count of chromosomes, you should not be confused with centrosome which is a structure that forms the microtubules.
You should mention that in metaphase, these microtubules (otherwise known as spindle fibres) are formed in the centrosome of the cell, and are collectively know as the spindle apperatus.
In anaphase, the spindle fibres assist the chromosomes to be moved at the poles, where spindle fibres become smaller and pull whilst attached to the centromere to separate the chromosomes into two.
These microtubules are then broken down in telophase.
In cytokinesis, the cell (in animal cells) deepen the equator of the cell cytoplasm with the assistance of molecules. In plant cells, this effect is different because of it's rigid plant structure, and therefore, a cell plate is formed in the equator, and a cell wall forms around it, hence why animals cells are close together, and in prokaryotic cells, cells with no membrane bound organelles, since there isn't a nucleus, the cell undergoes cell division by just replicating DNA, taking it to the cell membrane, and then splitting it when the cell gets bigger.
After this, the cell starts at G1.
Ecuador's economy is a joke
This is literally what we are made of. This is literally life being made before my eyes. Wow man
Think about this. The cells that made up a giant hunk of meat with what are basically wires made from MORE cells are receiving the signals from a bunch of cells that made a squishy eye, that picked up light from a device that was made by a bunch of other people who are just cells.
And I, a cluster of cells, am replying to another cluster of cells
exactly!
@@flargarbason1740 O m g.. :o and it just gets crazier than that
Nah fr
i just read about mitosis and i couldn't help but to search for this immediately. i had the same reaction
This. This is life. Everything else is peripheral.
Nah, meiosis is kind of key too
And these are just made up of a bunch of carbon, nitrogen, and water atoms aligned in just a way to make up everything in existence
Flargarbason that’s the result of evolution. We don’t know how the first ones to appear were like. My point is that I think it’s just not right to say that this cells are aligned in a way because it could generate confusion and wrong questions
This makes me dont ever try to get my skin injured... The cells work so hard idk
Ikr our poor cells 😭
@@frankenst0in Wow. Severus Snape. I just rewatched Harry Potter & the Chamber of Secrets yesterday.
@@bonuravenclawprincess3898 congrats?
A skin cell dies around seven days (give or take a few days), blood cells arkund 3 months or so. So yeah, your cells constantly divide, and they need to. Not dividing leads to old and faulty cells that does more damage than good.
This is extemely fascinating.I just can't seem to understand how the chromosomes are in such order when they look completely out of order. No chromosome goes to the wrong place.They look all mixed up but every single chromosome somehow finds its place.Just amazing how this happens every single day millions of times in our body and we're not even aware of it.
korosensei I wonder how they somehow know to split like that
It's incredible... so many questions: How could anaphase be so synchronized? How do chromosomes know which group to go into? What's their method of locomotion? I've heard that it's "spindles" but how do the spindles end up attached to each chromatid and to opposite ends of the cell? And how do they know when to pull the chromatids apart? How does the cellular membrane know where to form and how does it do so uniformly? What does the nucleus regrow from and how?
centrioles form spindle fibres which attach to chromosomes by their centromeres. During anaphase, the spindle fibres contract, causing the centromeres to split and so the chromosomes get pulled to opposite ends of the cells.
Half of your question is basically millions of years of evolution. The spindles end up to each chromatid probably through a series of chemical and molecular collisions, and the method of locomotion is counteracting movements (physics) which line them up.
The breath of life
Life is weird
So for the attachment of spindle fibers to the chromatin, it's done by a protein structure called kinetochores.
I know we know a lot, but there is still so much going on there that we do not understand... I could watch that 24/7 for days and keep getting insight and inspiration. Never ceases to amaze me.
during Anaphase i couldn't help stare in awe at how easily the chromosomes just split and separate, i was even a bit unsettled at how something so simple compared to us is also so complex
Well this is actually sped up over most likely the course of 90 minutes or more
Simple compared to us ? That's in us
AUUUGGH THIS IS HAPPENING TO EVERY ONE OF MY CELLS RIGHT NOW??
No, that would be bad.....
Yes but not rapid division. Cancer is a cell that that divides rapidly. This happens when you get a cut to repair your body. It’s amazing.
It's a timelapse.
Not all at once, no.
No, because that would be uncontrolled mitosis.
That last one was amazing
I like balls
Engineers: You wanna have as few moving parts as possible to minimize points of failure
Life:
life sets everyone up for cancer
@@paisenpaisen thats deep
Unbelievable. Can you post more videos like this? Can you post a sequence of metaphase and anaphase in extreme slow motion? What is the actual real time? Thank you!
I honestly think this is kinda beautiful.
It is. It's how we all started anyway
we know right
God made life. It's a wonderful thing, isn't it?
Lance Curry 😒
...what?
Incredible. Beautiful. Which microscope made this video?
Exactly what I was looking for! That‘s so cool
God's creativity is really a miracle 👌👼
Oparin isn't proud of your comment
@@lisandrocombin8813 how? lol
That's right
This video is a amazing scientific profiecy that we all strive from and sustain the main factor in which we are made from. Life itself is not subsequential but rather extraordinary in the fact that life has defeated all odds to exist. And that we should admire.
Fearfully and wonderfully made. Psalms 139:14 The machinery and inter-workings of the cells and how they work together to pull apart the cell’s chromosomes and form new identical cells is absolutely fascinating.
man... it's so neat to look at this and think about the fact that it's happening on your body hundreds of thousands of times
This looks soo beautiful !!!
This is absolutely astounding to watch.
Anybody else got tingles from that
Sweet Potato well it’s damn amazing, that’s for sure
Me
It looks gross 😭
The anaphase & the phragmoplast formation though🤩🤩
I cried! So beautiful! We're miracle!
It is seriously fabulous
Loved it
Perhaps the most beautiful characteristic of Life is its ability to recreate itself.
Abc AwesomeP Yep. Everything dies, but if it lived right it passed on it’s genes and essentially live on.
THAT’S SO COOL! I have to watch this for science and my mind is blown 🤯
Where this process is happening and how you record it ?
Please can you little bit explain?
This is amazing. Thank you so much.
It’s so graceful.
That was magnificent!!!
this is just beautiful
I am in awe. Life is SO FASCINATING. I seriously cannot wrap my head around the boundless wonder that all this is. From the microscope level to the macro. Who gave it all permission to exist and be so damn mysterious and mind blowing!?!?!?
Allah
Yahweh- the one who made us, knows us, and wants to be in relationship with us. THIS is why I am in awe of Him. We can’t even make sense of ourselves to know how everything even knows to do what it does. How much more are we not even aware of to ask questions about (????!!!!)
@@yashfaashar9340 bsdk
Hi! I am currently making an experiment on orchids,and I want to see their cell division in the microscope,I had tried to use blue methyl but it doesn’t work,so could you help me with an advice please?
It would be awesome if you could gave me some feedback.
With what species did you obtain these images?
idk why this makes my skin crawl. literally and metaphorically
hey, show the full video pls
Great I'm watching a video on a video on a video
I am in love with the cell’s division , it’s just mind blowing , about how could the little cell’s can do all of that and we were didn’t know about it 😅🧐
the anaphases and telophases are strangely satisfying to watch
Nice video, thanks a lot.
I can see significative cell mass increase after division process is done.
Is not most of the cell mass increase suppose to happen before DNA replication?
Why the FUCK dont our science teachers show us real life examples of these things? They're so cool and much more memorable
Can I ask you which type of microscope do you use for this visualization? I've an optical microscope with 3W LED - Köller illuminationwith good resolution. The movie looks amazing, do you think it is possible to get similar results with my microscope?
These videos were made in the 1950s by Bajer and Mole-Bajer. They used Phase contrast (Zeiss-Jena) equipment with 16mm cine film. If you search google-scholar for "cine-micrographic author:Bajer" you will get all the original references.
@@pathh1 Thank you for your response!
Think about this, in a way the original cell still hasn’t died. It divides into another copy and essentially makes two of itself. It’s kind of like copying and pasting text. If you erase the original you can still copy the copy since they say the same thing.
Darn! Even my cells get it going on
0:39 nucleus: ight, imma head out
😂😂😂😂😂😂😂😂😂😂😂😂😂😂
Any video for meiosis of this type????
This is like a car accident. I want to look away but I can't.
They look cute!
is there any way to differentiate meiosis and mitosis under microscope?
Anaphase looks cool
this is the coolest thing i have ever seen
WOWW!! Glory be to our intelligent God! Bro this is just amazing, we're literally made of this woww
This is FUCKING Beautiful video! it's first time to see a REAL mitosis
what is your age
0:24 is soo satisfying !
That's so cool!!
What is more amazing, the photography or the cell division??
Who owns the videos you show here? I'm asking because I'd like to contact them regarding using some of it in a public video project.
Wow ,more amazing in real life.
Thank you for few examples
How beautiful ❤
Eu quero ser gente ainda para compreender essas coisas!
How beautiful our life is!!!!!!!😊
Why am I so awestruck yet sickened at the same time?
It looks so satisfying
Got to be honest this makes me really itchy
Just awesome.
is it just me or other people cry watching these kind of videos ?
The last one was the most accurate
What organism was the first event?
So does the original cell ever die? Does the original cell gather all its parts into one of the daughter cells or are the copy and original components mixed between the daughter cells.
Hi can I use this for a project i'm working on?
You don't need permission if you are using the video for educational purposes.
What application is that?
helpful to learn the process of mitosis!
wow...it looks complicated but interesting...
This is the very thing that we live and work for. Life. so interesting. just like me and this community.
Indeed
wtf how do we exist
Anaphase is so fascinating that it scares me
That make my eye bloody
seeing cytokinesis is always the most satisfying part
I found this very disturbing to watch but... interesting!
How you can do it...plz make video on this procedure..plz
Hats off to you team
Amazing ❤️👌
I can't see the centromere and where are the centrosomes in the first stage?
Kinda worrying that the Medical Research Community doesn't know how to upload a video
0:35 Wooosh !!! THAT'S MITOSIS in PLANT cell, The line in the middle is the middle lamella which is a precursor to cell wall.
How they shoot this video what is the technology involved in this video capturing tech.
this is some daily dose of internet shit
At 0:23 sec each chromosome suddenly splits into a pair - it seems to be an almost immediate change. Is the frame rate suddenly changed, or does the chromosome replication really happen so fast?
Well as I have read it, the chromosomes replicate themselves at the synthesis phase of interphase in mitosis/meiosis. In the video they appear to have two arms, but actually, they are having four arms at 0:23 sec. When they align as the metaphase plate, they simply split.
does anyone know the name of the first cells shown (the squiggly ones)? thx
all I know is that theyre vegetal cells because of the pectocellulosic barrier that appears in telophase
That straggler chromatid looked like he was pushed into the party by one of those little black dots. @1:10
This beautiful life
and people still think all of this is caused by an explosion
somebody explain this to me. For a project
السلام عليكم
رجاءاً اريد ان اسأل اذا كان لديك صور عن تلك الالواح ٨