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These videos seriously mean more than you can imagine, I am so profoundly interested in biology and I’m starting a molecular biology degree next year. Your videos only feed my hungry passion, and for that I want to thank you! Nowhere else can you find such intricate and inspiring effort put into biology/biochemistry content. I can’t believe you don’t have millions of views with this kind of content. Keep up your amazing work, people like me look forward to it so much!
I absolutely will! I cannot even BEGIN to tell you how jealous I am that you're about to accelerate your journey into MolBio. What an incredible time to join the field! Make sure you sneak in as many Math/ CompSci/ Engineering credits as you can. Those fundamentals will pay big dividends as you establish your niche in the field! Thank you so much for taking the time to comment!
The 3d animation is so much more informative compared to your older 2d style, i love being able to see the physical structure of molecules, keep it up!!
@@_biggy_cheese_5348 there’s still going to be moments where I sneak a modified 2d style when we’re dealing with REALLY complicated structures. Things are gonna start getting WAY wilder soon.
When I was a teen, I dropped some lsd and realized that the trees are incredibly simular to lungs. Of course that's a common idea now, but it was a bit of an epiphany for me at the moment.
More like a giant bundle of straws. It's a good way to think of wood grain when you're trying to understand how it'll behave when cutting it in various ways.
JULY: One video every three years SEPTEMBER: One video every two months OCTOBER: TWO VIDEOS IN ONE MONTH (technically!) Can I get a few 📈 in comments y'all? We're only just starting to ramp up here.
So cool to learn about the anthocyanin radical scavenger duty against the free chlorophyll. Thanks for not dumming down but still making the info understandable
This video is my first exposure to your content. Your enthusiasm earned a view from beginning to end, a like, this comment, and a subscribe. I very rarely do that.
The only thing I'm here to do is produce stuff that is a genuinely valuable use of your time. I will always push harder and harder to make sure I'm using your time in a way that you won't think is wasted. I really appreciate you taking the time to comment. I really hope I continue to honor this gift you've given me.
@@Clockworkbio You videos are like cramming one last bit of information into my brain after a long day (or summer), in the hour before settling for the night (or winter). Thank you for helping me recycle some neural synapses
I was literally just trying to explain this to my son the other day and I struggled to find the right vocabulary... I'll be back soon to watch this video with him! Thanks for your work!
This channel has already joined the ranks of veritasium, cody’s lab and the likes in my personal opinion, I’m sure it’s only a matter of time before your subscriber count starts to represent the quality of these videos
@@thefakeelon2673 Agreed, but it is also extremely niche. Some people will just never want to learn about biochemistry. Early Veritasium was solid, but I think the demands to keep churning out content for a wide audience has diluted it.
How do we feel about segments like the impromptu Clockwork Book Club™ included here? We're genuinely in a moment where there's a proliferation of AMAZING biology books out there. The platform where this video is hosted has been VERY LOUDLY telling creators to tag things like books in our videos. Do y'all feel comfortable with that as a recurring segment?
Amazing vid. I grow, ahem, recreational plants, and this opened my eyes to a critical part of the process, and also what may be going on during drying and curing. Thanks friend!
Why does the anthocyanin production ramp up with the first cold spell? Shouldn't it steadily increase before the photo enzyme breakdown when free chlorophyll can produce singlet oxygen and the intensity of light will also decrease with the first cold spell so the anthocyanins would be less useful around this time. Or is there a more important sub function at play here? fire sale :) also could you make a video on jasmonic acid synthesis and the octadecanoid pathway? Superb and very underrated video man. Good luck
New mango leaves are also purple when they are small, is that due to anthocyanins as well? Although there technically isn't a fall season here in mumbai, all the mango trees have these new red-purple leaves. Is this a different pathway followed by evergreen plants in other latitudes?
@@Animationofficial-bc6ox if it is blue/red/purple and a plant odds are a type of anthocyanin is responsible. The word goes that mango saplings grow fast to have a shot at getting enough sunlight, and that as a consequence they don't yet have the nutrients to produce enough cholorofyll. Whether it is true is another question. It might just be selected for x traits and early reddish leaves are a harmless confounding variable.
The work and wait was 👏 well 👏 worth 👏 it 👏 Love the analogy of chlorophyll as a death laser! All forms of energy generation are really just highly controlled weapons lol
ok now i’m really curious what goes on in evergreen trees. my guess is somehow seal up what water was evaporating through, maybe get pretty waxy, and build up antifreeze molecules of some sort.
Absolutely loved how in-depth this goes for a youtube video. @Clockworkbio Slight inaccuracy at 18:16 though, singlet oxygen is not a free radical, it's in the name, because singlet "anything" means all of its electrons are paired up and the total spin of the molecule is 0. Helium is a singlet, so are your nice stable molecules like carbon dioxide, water, _etc._ Why is this a problem for oxygen then? If you look at the molecular orbitals O2 has, the most stable electronic configuration O2 can achieve is a biradical, _i.e._, one unpaired electron in each of its two highest occupied molecular orbitals. This normal version of O2 is called triplet oxygen, and it's more stable, than say, singlet oxygen which has two electrons paired up in only *one* of its two highest occupied molecular orbitals. You might recognise this is just Hund's rules applied onto the molecular orbitals of O2. Anyway, triplet oxygen is a rather lousy free radical, broadly speaking, because each unpaired electron of the biradical is spread out on opposite ends of each oxygen atom, and when reacted with other non-radical molecules provides little overall stabilisation. This is also why we don't disintegrate into white powder in the atmosphere, which is 20 % of this biradical oxygen. Singlet oxygen, however, is a strong nucleophile, because the lone pair of electrons shoved into one single molecular orbital are now begging to be stabilised by forming a bond with another electrophilic species, for example, *anything* with conjugated double bonds (very common in your body, in plants, and in everything that's alive). This is the danger that plants face when singlet oxygen is produced.
One of the coolest things I noticed this fall was that the leaves of a purple maple tree in a nearby park had lightened to green. Most other trees around here have gone to yellow and red. I will go look again in a day or two to see what comes next.
Thanks for this video! It's amazing, and I am appreciating autumn much more with this knowledge. Feedback: the density of information combined with the pace can make it hard to follow, even having watched your other video's. I often pauze, rewind, and watch a specific part a couple of times. It must be hard for you, because there is so much to tell and you can't make this a 5-hour video. I would watch a series or a longer format if possible, so that I have more time to let all the concepts you explain settle a bit before switching to a next step.
My favorite season is Fall, and I love how this describes how the natural world even tucks in for colder times. Cheers and warm snuggles to you and yours.
I find it so fun to see the reuse of chemicals from plants in animals. Beta-carotene helps convert light to food. Animals eat the plants and convert to beta-carotene to retinol to convert light to signals for the brain. Anthocyanins protect the plant from oxidative stress and UV and does the same for us. Leafy greens are high in magnesium so the plant to produce food and we usethat magnesium for signaling.
For what it’s worth, I’ve never came across your channel before (I’m extremely into science channels!) and I clicked this video because the thumbnail really caught my attention. Great video!
I thought I understood the process, I realize now that I was inadequate taught before. I'm only 10 minutes in, and I have learned more about the process than I ever knew. So beautifully, thoughtfully, and thoroughly explained and produced!👏 I'm glad the algorithm put this video in front of me. ❤
26 mins well spent. I learned a lot, thanks for making this. Plants can be so fascinating, and it's good to see such well formatted and presented content. 💚
"Life is about those small, incremental triumphs you can make over chaos and death." I didn't expect to be a blubbering mess of tears at the start of this video.
This video made me look up cold spat. A cold spat is a skin reaction to cold, while a cold spell is a period of cold weather. Really cool video, and clear explanation! 😌🍁✨
This is the explanation I've been wanting all along. Thank you, from the bottom of my heart, for answering questions I've been yearning for for the last 15 years!
I am literally doing a project on this and researching such a niche topic is so hard until I see you posted a video literally like an hour before I started tysm
Wow I've never seen this channel, yet .. the script and the narration are great, explanations are clear, and the quality of the animation ... seriously, through the roof. Subscribed!
I would very much LOVE you to pursue the additional topics you said were coming 'someday'. I am a lifelong gardener and botany lover. I learned so much from your video I hadn't heard before (I am 60!). More Please ! Thank you so much !
This answers so many questions I've had since childhood that most sources of information reduce to an unsatisfying degree. No shade to the simple answers, but I've been craving something with this level of visual detail paired with the verbal explanation for a very, very long time. Thank you for this amazing piece of work on such a "simple" process that largely goes unnoticed by many ☘️🍂🍁🍃
great video as always, thanks for this stuff, i'd be happy to see a video about how dna is turned into rna and how that is read to make proteins in the future tbh
It's so funny because I really don't either, and I'm the guy who makes this stuff. Really appreciate you taking the time. Promise I'll always try to use it well!
I got this one out in 26 days!!! Some folks had to wait years between uploads lol. You're right though. Still working hard to get upload gap down to just two weeks.
@@ClockworkbioWell yes , i was lucky that within moths of finding your channel , you started posting again . Absolutely top notch work. Mate take your time i don't mind waiting if content is this good.
Your narrated visuals always manage to glue me to the screen in ways unparalleled by any other TH-camr, and in the process add additional dimensions to the knowledge in my noggin. Much obliged.
Amazing video. I'm so excited about what's coming next. Keep up the amazing work ❤❤ lots of love from two students in Italy binge watching your videos before going to bed.
The main goal of this video was getting it out as fast as possible. I cut a few corners to balance speed with quality -- but I really thought I had my typo review dialed in. EMBARRASSED. Thank you for pointing it out!
Capillarity has nothing to do with evaporatIon. Capillary action can prime a tube for a syphon drawn by evaporation, but capillarity by itself is far cooler and weirder than a syphon.
I am just as obsessed with these topics as you are and they’re getting peppered in throughout season 2. Really want to build up enough of a base so I can make serious videos about serious astrobiology at some point.
Never seen or heard so much Enthusiasm - Passion not to mention dedication in describing and showing these wonderful molecular biological processes that is the essence of life it's self - I'm sure this series will educate and inspire our next crop of molecular biologists and a few parents and educators alike, Fabolous keep it up - ps keep the book recommendations coming👌
The animations of working parts of the cell just make me smile with childlike giddiness. In 10 more years, well have some insane knowledge of these systems down to the molecule.
Your extraordinary receptivity, sense of beauty and artistic soul... - these are the essential things that make you a great scientist. Seriously I'm in awe. Not only your knowledge amazes me but also the genuine fascination which is really inspiring.
Another informative and interesting video! Seems like each one of yours is incrementally better than the last. You take a dense subject like biochemistry and make it more accessible. I appreciate your hard work and I look forward to more content like this in the future. 👍🏻
OMG, story telling, good explanation keeping it as simple as posible but with enought details, and the animation jesus. You guys r doing a really good job here congrats! and keep making these sort of videos pls!!
soooo.... what about the trees that don't drop their leaves? What about the needles? :> How are they fine in the exact same climate as trees that do drop their leaves?
So glad you're still making these videos, I wish more people would see them, this is SOOO informative! Thank you, and now I know about the deadly death rays from Chlorophyll as the leaves are starting to die!
New sub here. Really great video. Thank you for respecting your audience and not dumbing it down. I'm heading to your catalog to see what you've got for me.
I worry the simplicity of the name "Clockwork" might get you buried in the algorithm. This is important content man, and no one's really doing it with quality graphics like you. In this age of idiocy we're gonna need to promote all the educational content we can
My partner (Australian) has been absolutely TORCHING me for this. Undone by my foolish northern hemisphere bias! It would have been so easy to write this more accurately too. I know it may seem small-but it is still very important and I really appreciate you taking the time.
@@Clockworkbio Aww, very kind of you. I just don't wanna leave out our southern friends. I absolutely love your videos, by the way. I still think about how cool that ice binding protein is. Ever consider doing a video on the apoptosome? That thing looks rad as hell and acts like a tiny cellular nuke x)
Incredible video, but I would highly recommend changing the thumbnail. I was so confused about why this vid was in my recommended until I saw your channel name. Perhaps have the chlorophyll and such be more prominent?
I LOVE these videos!! I too am mostly a fan of summer but my esteem of autumn has gone up _dramatically_ - now I know there's so much cool stuff going on! Aside: could you fix the captions please? :) There's several missing segments and multiple typos (or straight up wrong words - I saw "crap" when it should have been "crepe").
In regards to 25:29 X-linked dominant protoporphyria (XLDPP) is a condition that causes overproduction of Protoporphyrinogen a precursor to Heme. people with this condition are very sensitive to light cos. When Protoporphyrinogen is hit with ultraviolet radiation it will produce reactive oxygen species. Since there is an overproduction of protoporphyrinogen these people will produce even more reactive oxygen species causing them to develop painful blisters whenever they're exposed to sunlight. Since protoporphyrinogen contains a porphyrin ring like chlorophyll I wonder if something similar to what is happening in 17:34 fig 84: but in humans instead.
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To try everything Brilliant has to offer-free-for a full 30 days, visit brilliant.org/Clockwork/ You’ll also get 20% off an annual premium subscription.
This channel is criminally undersubscribed. If you keep this up, the algorithm is destined to reward you in a huge way.
It is such a solid way to get an introduction to these extremely complicated systems.
@@russtuff we’ve already 4x’d in 2024. The question is simple: are we bad enough dudes to *10x* in 2024?
These videos seriously mean more than you can imagine, I am so profoundly interested in biology and I’m starting a molecular biology degree next year. Your videos only feed my hungry passion, and for that I want to thank you!
Nowhere else can you find such intricate and inspiring effort put into biology/biochemistry content. I can’t believe you don’t have millions of views with this kind of content. Keep up your amazing work, people like me look forward to it so much!
I absolutely will! I cannot even BEGIN to tell you how jealous I am that you're about to accelerate your journey into MolBio. What an incredible time to join the field! Make sure you sneak in as many Math/ CompSci/ Engineering credits as you can. Those fundamentals will pay big dividends as you establish your niche in the field! Thank you so much for taking the time to comment!
The 3d animation is so much more informative compared to your older 2d style, i love being able to see the physical structure of molecules, keep it up!!
@@_biggy_cheese_5348 there’s still going to be moments where I sneak a modified 2d style when we’re dealing with REALLY complicated structures. Things are gonna start getting WAY wilder soon.
"Trees are giant straws". Bro. I've never thought about it like that.
Bro there's a whole handful of classic Veritasium videos exploring this: th-cam.com/video/BickMFHAZR0/w-d-xo.html
Bro, come on, if you're not teaching people about how trees are giant straws then what are you teaching, really? 😂
When I was a teen, I dropped some lsd and realized that the trees are incredibly simular to lungs. Of course that's a common idea now, but it was a bit of an epiphany for me at the moment.
More like a giant bundle of straws. It's a good way to think of wood grain when you're trying to understand how it'll behave when cutting it in various ways.
Now we gonna use tree to replace straws
JULY: One video every three years
SEPTEMBER: One video every two months
OCTOBER: TWO VIDEOS IN ONE MONTH (technically!)
Can I get a few 📈 in comments y'all? We're only just starting to ramp up here.
IM EXCITED!! WOOP WOOP!!!
🎉🎉
📉
@@Nanorooms Omg, you and clockwork have the best biochem channels!
So I heard daily uploads by March. Gotta love an exponential curve!
yk the day is gonna be good when you see clockwork upload 🙏
So cool to learn about the anthocyanin radical scavenger duty against the free chlorophyll. Thanks for not dumming down but still making the info understandable
It's such a fun needle to thread! I'm OVERJOYED there's an audience for stuff this niche!
This video is my first exposure to your content. Your enthusiasm earned a view from beginning to end, a like, this comment, and a subscribe.
I very rarely do that.
The only thing I'm here to do is produce stuff that is a genuinely valuable use of your time. I will always push harder and harder to make sure I'm using your time in a way that you won't think is wasted.
I really appreciate you taking the time to comment. I really hope I continue to honor this gift you've given me.
@@Clockworkbio You videos are like cramming one last bit of information into my brain after a long day (or summer), in the hour before settling for the night (or winter).
Thank you for helping me recycle some neural synapses
I was literally just trying to explain this to my son the other day and I struggled to find the right vocabulary... I'll be back soon to watch this video with him! Thanks for your work!
im so happy this channel exists, science culture badly needs intuitive mechanical explanations like this
correction - Anthocyanins do not make tomatoes red, lycopene does. Solanum lycopersicum does not create anthocyanins in the fruits at all.
Important correction! Needs to be pinned up!
This channel has already joined the ranks of veritasium, cody’s lab and the likes in my personal opinion, I’m sure it’s only a matter of time before your subscriber count starts to represent the quality of these videos
This guy is way better than Veritasium, videos are well researched with non-sensational titles
@@thefakeelon2673 Agreed, but it is also extremely niche. Some people will just never want to learn about biochemistry.
Early Veritasium was solid, but I think the demands to keep churning out content for a wide audience has diluted it.
How do we feel about segments like the impromptu Clockwork Book Club™ included here? We're genuinely in a moment where there's a proliferation of AMAZING biology books out there. The platform where this video is hosted has been VERY LOUDLY telling creators to tag things like books in our videos. Do y'all feel comfortable with that as a recurring segment?
I do. Good book recommendation is always welcome.
Dude I'm gonna need a third bookshelf just for my YT science channel recs
Yes very cool
For the love of god, yes
Hell yeah, more books baby. Godspeed
Whata gem of a channel
Amazing vid. I grow, ahem, recreational plants, and this opened my eyes to a critical part of the process, and also what may be going on during drying and curing. Thanks friend!
may your terpene balance come out smooth and your cure turn crispy & crystalline. Thanks for taking the time out of your day!
Your channel is one of the reasons I study molecular biology, please keep up the good work. Love the animation style!
Thanks for the video! A comment for the algorithm. It is amazing that you can produce such high-quality videos for our niche!
Love your videos!! Now i can geek out about yet another thing as i observe the world around us, and attempt to explain it to my 7 year old son
All of your videos are masterpieces of visual representation.
I wish i had these videos when I was studying biology, this is so cleverly explained and show the beauty of nature
10/10
A new deep subject that i never even heard of? Hell yeah!
Nice seeing your channel grow after turning on new leaf (haha). See y'all next spring.
It's insane how much more complex trees (and plants in general) can be, although they might look simple on the surface there's a lot going on behind.
ur underrated af man, the production quality is insane. how do u even achieve such quality in like the span of a month
this video is the treasures of youtube
I love every season as I get older. There is still so much I wish to learn about our world!
Another amazing video! Here's hoping that you get a million subscribers so these videos can go on for quite some time to come! 😃
Another glorious post from the clockwork king
I am so glad you keep posting:)))
ONLY MORE AND ONLY FASTER
Absolutely loved it ❤️
Absolutely loved THIS COMMENT SPECIFICALLY.
Why does the anthocyanin production ramp up with the first cold spell? Shouldn't it steadily increase before the photo enzyme breakdown when free chlorophyll can produce singlet oxygen and the intensity of light will also decrease with the first cold spell so the anthocyanins would be less useful around this time. Or is there a more important sub function at play here?
fire sale :) also could you make a video on jasmonic acid synthesis and the octadecanoid pathway? Superb and very underrated video man. Good luck
is the stimulus for anthocyanin release cold spell or free chlorophyll?
It's probably the cold spell.
New mango leaves are also purple when they are small, is that due to anthocyanins as well? Although there technically isn't a fall season here in mumbai, all the mango trees have these new red-purple leaves. Is this a different pathway followed by evergreen plants in other latitudes?
@@Animationofficial-bc6ox Interesting question, although I think its due to other properties of anthocyanins (antioxidants... idk)
@@Animationofficial-bc6ox if it is blue/red/purple and a plant odds are a type of anthocyanin is responsible. The word goes that mango saplings grow fast to have a shot at getting enough sunlight, and that as a consequence they don't yet have the nutrients to produce enough cholorofyll. Whether it is true is another question. It might just be selected for x traits and early reddish leaves are a harmless confounding variable.
The work and wait was
👏 well 👏 worth 👏 it 👏
Love the analogy of chlorophyll as a death laser! All forms of energy generation are really just highly controlled weapons lol
ok now i’m really curious what goes on in evergreen trees. my guess is somehow seal up what water was evaporating through, maybe get pretty waxy, and build up antifreeze molecules of some sort.
This is phenomenal
I don't know you
but I love you
Absolutely loved how in-depth this goes for a youtube video. @Clockworkbio Slight inaccuracy at 18:16 though, singlet oxygen is not a free radical, it's in the name, because singlet "anything" means all of its electrons are paired up and the total spin of the molecule is 0. Helium is a singlet, so are your nice stable molecules like carbon dioxide, water, _etc._
Why is this a problem for oxygen then?
If you look at the molecular orbitals O2 has, the most stable electronic configuration O2 can achieve is a biradical, _i.e._, one unpaired electron in each of its two highest occupied molecular orbitals. This normal version of O2 is called triplet oxygen, and it's more stable, than say, singlet oxygen which has two electrons paired up in only *one* of its two highest occupied molecular orbitals. You might recognise this is just Hund's rules applied onto the molecular orbitals of O2.
Anyway, triplet oxygen is a rather lousy free radical, broadly speaking, because each unpaired electron of the biradical is spread out on opposite ends of each oxygen atom, and when reacted with other non-radical molecules provides little overall stabilisation. This is also why we don't disintegrate into white powder in the atmosphere, which is 20 % of this biradical oxygen. Singlet oxygen, however, is a strong nucleophile, because the lone pair of electrons shoved into one single molecular orbital are now begging to be stabilised by forming a bond with another electrophilic species, for example, *anything* with conjugated double bonds (very common in your body, in plants, and in everything that's alive). This is the danger that plants face when singlet oxygen is produced.
One of the coolest things I noticed this fall was that the leaves of a purple maple tree in a nearby park had lightened to green. Most other trees around here have gone to yellow and red. I will go look again in a day or two to see what comes next.
good stuff
Thanks for this video! It's amazing, and I am appreciating autumn much more with this knowledge. Feedback: the density of information combined with the pace can make it hard to follow, even having watched your other video's. I often pauze, rewind, and watch a specific part a couple of times. It must be hard for you, because there is so much to tell and you can't make this a 5-hour video. I would watch a series or a longer format if possible, so that I have more time to let all the concepts you explain settle a bit before switching to a next step.
I already share this with all my friends but have an additional comment for the algorithm.
My favorite season is Fall, and I love how this describes how the natural world even tucks in for colder times. Cheers and warm snuggles to you and yours.
I find it so fun to see the reuse of chemicals from plants in animals.
Beta-carotene helps convert light to food. Animals eat the plants and convert to beta-carotene to retinol to convert light to signals for the brain.
Anthocyanins protect the plant from oxidative stress and UV and does the same for us.
Leafy greens are high in magnesium so the plant to produce food and we usethat magnesium for signaling.
For what it’s worth, I’ve never came across your channel before (I’m extremely into science channels!) and I clicked this video because the thumbnail really caught my attention. Great video!
I'm not even done watching your video. And you are everything I need in a channel, I love this!
I thought I understood the process, I realize now that I was inadequate taught before. I'm only 10 minutes in, and I have learned more about the process than I ever knew. So beautifully, thoughtfully, and thoroughly explained and produced!👏 I'm glad the algorithm put this video in front of me. ❤
I'm not a scientist but as an enthusiast, this is by far one of my favorite channels.
26 mins well spent. I learned a lot, thanks for making this. Plants can be so fascinating, and it's good to see such well formatted and presented content. 💚
"Life is about those small, incremental triumphs you can make over chaos and death."
I didn't expect to be a blubbering mess of tears at the start of this video.
This video made me look up cold spat. A cold spat is a skin reaction to cold, while a cold spell is a period of cold weather.
Really cool video, and clear explanation! 😌🍁✨
This is the explanation I've been wanting all along. Thank you, from the bottom of my heart, for answering questions I've been yearning for for the last 15 years!
I am literally doing a project on this and researching such a niche topic is so hard until I see you posted a video literally like an hour before I started tysm
I see autumn as the leaves showing their true colors as they go down for the winter.
That's what I used to see too! But WOW is there ever a lot more going on here!
What a fantastic video! The quality is off the charts; I’m loving the 3d animation and beautiful colors.
Wow I've never seen this channel, yet .. the script and the narration are great, explanations are clear, and the quality of the animation ... seriously, through the roof. Subscribed!
I would very much LOVE you to pursue the additional topics you said were coming 'someday'. I am a lifelong gardener and botany lover. I learned so much from your video I hadn't heard before (I am 60!). More Please !
Thank you so much !
Dude this rules!!
This answers so many questions I've had since childhood that most sources of information reduce to an unsatisfying degree. No shade to the simple answers, but I've been craving something with this level of visual detail paired with the verbal explanation for a very, very long time. Thank you for this amazing piece of work on such a "simple" process that largely goes unnoticed by many ☘️🍂🍁🍃
great video as always, thanks for this stuff, i'd be happy to see a video about how dna is turned into rna and how that is read to make proteins in the future tbh
lol well you’re in luck within the next 3-4 weeks!
“Life in the You Factory” is in active development and the next episode to publish!
@@Clockworkbio nice! it has been one of my biggest curiosities about biology till now
Blown away by another amazing video! I would have been a biologist if I have seen this in high school. Gifted communicator.
Usually don't have the attention span for anything over 10 minutes. So glad I did here, great video!
It's so funny because I really don't either, and I'm the guy who makes this stuff. Really appreciate you taking the time. Promise I'll always try to use it well!
You could be a poet good sir. The way you package this knowledge and present it in such moving words is an art form I now massively respect
Was waiting for a new video for soo long 📈📈📈📈📈📈📈📈
I got this one out in 26 days!!! Some folks had to wait years between uploads lol.
You're right though. Still working hard to get upload gap down to just two weeks.
@@ClockworkbioWell yes , i was lucky that within moths of finding your channel , you started posting again . Absolutely top notch work. Mate take your time i don't mind waiting if content is this good.
Your narrated visuals always manage to glue me to the screen in ways unparalleled by any other TH-camr, and in the process add additional dimensions to the knowledge in my noggin. Much obliged.
Amazing video.
I'm so excited about what's coming next. Keep up the amazing work ❤❤ lots of love from two students in Italy binge watching your videos before going to bed.
3:32 nutruients!
Minterals!
The main goal of this video was getting it out as fast as possible. I cut a few corners to balance speed with quality -- but I really thought I had my typo review dialed in. EMBARRASSED. Thank you for pointing it out!
THERE'S MORE??
@Clockworkbio at least they're right there next to each other
The shift in color isn't global - we have the Southern hemisphere 😄
Capillarity has nothing to do with evaporatIon. Capillary action can prime a tube for a syphon drawn by evaporation, but capillarity by itself is far cooler and weirder than a syphon.
Can't believe i'd cry over some dried up leaves. That part about leaf clinging to life is especially beautiful.
What a video and I’m a few minutes in
What an amazing rabbit hole this video has invited me down. I will be watching your whole photosynthesis playlist for sure
Severely underrated channel--- this is such quality content ❤️❤️❤️ keep it up and I'll keep on praying the algorithm gods bless you
adding that book to my Christmas list! I LOVE it when evidence-based science channels recommend books!
thanks! i always wondered how such a mass of life in the summer could be just thrown down. well. turns out it ISN'T :)
Clicked on the thumbnail with low expectations, subbed in 3 min.
I'd love to see a Clockwork video on Purple Earth, Anoxic photosythesis, chemosynthesis, GOE and basically anything related to photosythesis.
I am just as obsessed with these topics as you are and they’re getting peppered in throughout season 2. Really want to build up enough of a base so I can make serious videos about serious astrobiology at some point.
awesome!!!!
Never seen or heard so much Enthusiasm - Passion not to mention dedication in describing and showing these wonderful molecular biological processes that is the essence of life it's self - I'm sure this series will educate and inspire our next crop of molecular biologists and a few parents and educators alike, Fabolous keep it up - ps keep the book recommendations coming👌
The animations of working parts of the cell just make me smile with childlike giddiness. In 10 more years, well have some insane knowledge of these systems down to the molecule.
Your extraordinary receptivity, sense of beauty and artistic soul... - these are the essential things that make you a great scientist.
Seriously I'm in awe. Not only your knowledge amazes me but also the genuine fascination which is really inspiring.
What a poetic and catching narration! Couldn't stop watching.. 🍂
I'm going to exercise more appreciation for the autumn and the plants.
this is the coolest thing ive learned in a while
This video is amazing, going to share with my biology students
Another informative and interesting video! Seems like each one of yours is incrementally better than the last. You take a dense subject like biochemistry and make it more accessible. I appreciate your hard work and I look forward to more content like this in the future. 👍🏻
OMG, story telling, good explanation keeping it as simple as posible but with enought details, and the animation jesus. You guys r doing a really good job here congrats! and keep making these sort of videos pls!!
soooo.... what about the trees that don't drop their leaves? What about the needles? :> How are they fine in the exact same climate as trees that do drop their leaves?
Another excellent video. These videos are so incredibly valuable, so glad I exist at the right time to get to explore biochemistry at this level.
I love free radicals in my yellow leaf salad :P
THE TOP COMMENTS ALWAYS COME FROM THE PHY NEUTROPHIL CINEMATIC UNIVERSE
So glad you're still making these videos, I wish more people would see them, this is SOOO informative! Thank you, and now I know about the deadly death rays from Chlorophyll as the leaves are starting to die!
New sub here. Really great video. Thank you for respecting your audience and not dumbing it down.
I'm heading to your catalog to see what you've got for me.
Really hoping that the past versions of me will end up holding down the fort here. Thanks so much for stopping by!
@Clockworkbio thank you for making interesting, smart videos. So far, so good. I'm impressed.
I worry the simplicity of the name "Clockwork" might get you buried in the algorithm. This is important content man, and no one's really doing it with quality graphics like you. In this age of idiocy we're gonna need to promote all the educational content we can
Small correction to the opening, I wouldn't say the leaves change "globally", in the southern hemisphere they're just starting to grow their leaves.
My partner (Australian) has been absolutely TORCHING me for this. Undone by my foolish northern hemisphere bias! It would have been so easy to write this more accurately too. I know it may seem small-but it is still very important and I really appreciate you taking the time.
@@Clockworkbio Aww, very kind of you. I just don't wanna leave out our southern friends. I absolutely love your videos, by the way. I still think about how cool that ice binding protein is. Ever consider doing a video on the apoptosome? That thing looks rad as hell and acts like a tiny cellular nuke x)
Those molecular animations look so familiar!!! It’s almost like how things look in a dmt visionary experience.
Very fascindd add ting friend!! 😊
Incredible video, but I would highly recommend changing the thumbnail. I was so confused about why this vid was in my recommended until I saw your channel name. Perhaps have the chlorophyll and such be more prominent?
Invaluable feedback at this stage of the video -- I was worried the chlorophyll was too small!! Thank you for your serivce
I don't get it
thank you for making these videos, they are awesomely animated and explained :D
Bro is creating top-notch scientific content, and yt doesn't see it for 3 years
Love your work so much! Thank you for all the work and I can see your passion bleed through this beautifully made video!
I LOVE these videos!! I too am mostly a fan of summer but my esteem of autumn has gone up _dramatically_ - now I know there's so much cool stuff going on!
Aside: could you fix the captions please? :) There's several missing segments and multiple typos (or straight up wrong words - I saw "crap" when it should have been "crepe").
Also free chlorophyll does not create singlet oxygen via splitting water, it would require manganese cofactors and the OEC to do that
Thank you for explaining how this all works!
Yeah, good one mate. I wanna hear about the blender protein next. Sounds fascinatingly multi-use.
In regards to 25:29 X-linked dominant protoporphyria (XLDPP) is a condition that causes overproduction of Protoporphyrinogen a precursor to Heme. people with this condition are very sensitive to light cos. When Protoporphyrinogen is hit with ultraviolet radiation it will produce reactive oxygen species. Since there is an overproduction of protoporphyrinogen these people will produce even more reactive oxygen species causing them to develop painful blisters whenever they're exposed to sunlight. Since protoporphyrinogen contains a porphyrin ring like chlorophyll I wonder if something similar to what is happening in 17:34 fig 84: but in humans instead.