Science News has a more balanced take, with additional quotes from peers.
> Some have also grumbled about Adamala’s efforts to draw attention to the work, which she says was rejected by Cell after one reviewer said SpudCells were not real biology. She then sent the 190-page manuscript to journalists, under embargo, even before she had uploaded it to the preprint server bioRxiv, where her colleagues could read and assess it. She says her group will submit it to a new journal soon. “It’s an unusual way of doing things,” says Kerstin Göpfrich, a synthetic biologist at Heidelberg University.
Exoplanets also aren't planets. Some things just seem to have definitions with a history that get applied to new discoveries that don't fall within the definition. Distinguishing random rocks in space from planets was done by requiring planets to orbit around the sun, and so planets elsewhere cannot be called planets no matter that it's 1:1 the same thing. Biology probably has a similar history of trying to draw a line somewhere between what was created and what evolved to be part of the 'natural' world
Exoplanets are planets. Also, for clarification, biology is not defined as “the study of things produced exclusively by natural evolution.” Synthetic biology works with biological components and living systems (DNA, proteins, regulatory networks, cells and organisms). It differs from much traditional biology mainly in its constructive, engineering-oriented approach. Synthetic systems are often built precisely to test hypotheses about how natural biological systems function. Claiming it is not biology is wrong IMO.
Not defending anyone but it's quite common for people to hold different definitions of words with some unknown presumed context in mind that others don't see in the moment. I'd argue it's the single biggest reason for all arguments in recent human history.
That's fair, but rejecting a paper for that reason seems excessive to me. Even if the reviewer may think that synthetic biology is not biology, they would know that plenty of synthetic biology papers have been published in Cell.
Yeah, I have a hard time reconciling this especially since biology and biologic research often involves things like enzymes which both aren't alive and are synthetically created.
I'm certain cell magazine has published articles on novel enzyme discovery.
The problem is this: as an academic you tend to know the reviewer landscape within your field. You have seen this happen to a colleague before, they submitted a paper, it had interesting results - it was forcefully rejected by 1 or 2 extremely negative reviewers. The publication gets delayed, you need to wait another 6 months to get the next set of reviews. Meanwhile, some "colleague" from another lab publishes nearly identical experiments and gets slightly better results. They push onto a pre-pub server and immediately get it into a tier-1 venue. They are now state of the art. You are now merely the person reproducing original work.
“This was where the field had been stuck for some time. Researchers before Adamala had figured out different ways to feed and grow synthetic cells and to replicate their DNA. But cell division is a different beast. A typical cell reorganizes its cytoskeleton — a network of protein fibers that provide structural support — to halve its DNA and split. Synthetic biologists could not figure out how to get their cells to undergo this complex process.
So Adamala decided to ditch the cytoskeleton. One day, while tearing through the literature, she came across an interesting mechanism in a paper (opens a new tab). By attaching protein tags to a cell membrane, the synthetic biologist Reinhard Lipowsky (opens a new tab) at the Max Planck Institute of Colloids and Interfaces attracted other proteins to crowd around and physically bend the membrane, forcing the cell to divide. Following this approach, Adamala tweaked a cell-membrane protein and tested it in her protocells. After several tries, it worked.“
I interpreted it as the author adding some internal dialog about how they want to do more research on the article/person in question so they were opening up a new tab so they could learn more. But I can see how this could certainly be some copy/paste artifact.
You stumble upon a news article from 2226. You read it to see who, between Google, OpenAI and Anthropic, won the AI race.
Instead, your learn Biotic.
It's now the leading polity in the solar system and its environs. It bought Alphabet, OpenAI and Anthropic in a single day back in 2084.
Human are no longer desired. Their reproduction is capped to an optimal minimum assuring the survival of the species as a relic.
For productive matters, Biotec preferes to rely on its biomachines. Imagine drones giving birth to offspring when traffic is at a peak. It takes more energy, sure. But no factory, nor workers are needed.
If left alone, machines would multiply out of control, instead of rotting to waste like in the olden days.
Interesting that this is led by the same Dr. Kate Adamala who ended the right-handed-proteins experiment a couple of years ago. Given how close she was I'm not surprised she's made this work.
> 'Unlike living natural cells... the synthetic SpudCell can't survive and replicate without feeding on external food and ribosomes'
So in the future when there's a lab leak from the Wuhan Institute of SpudCellular Biology, the SpudCells will devour all biological life they can in order to harvest the building blocks they need. "Just social distance and wear two masks," the Surgeon General tells the CNN correspondent, as he disolves to red gray goo on live TV.
There are multiple FDA-approved lab-grown meats on the market. You can literally go to a handful of restaurants and order lab-grown meat today. The production process is just expensive and it's getting scaled out.
Lab-grown meat seems completely unrelated to synthetic biology. For lab grown meat the problem to my knowledge is that it is very expensive to grow vertebrate cells in the absence of an immune system because every contamination kills the batch.
> “It’s a big step forward to this holy grail of making a living thing out of dead components,” said Sijbren Otto, a systems chemist at the Stratingh Institute for Chemistry in the Netherlands who was not involved in the work.
That is the holy grail? I get that the goal is to "grow" biofuels, plastic, fertilizer, drugs, or whatever else we can imagine. But is that worth the many apocalyptic sci-fi outcomes we can imagine?
Yes, mechanically constructing life would be absolutely stupendous for science. The real tragedy of modern sci-fi is that everyone read the books and decided it was reality.
“Penicillin?! A poison from fungus that kills living cells?! Haven’t you played the sci fi game The Last of Us?”
Stories are stories, man. Story-logic is biased towards interesting tales. And “discovery from the natural world turned to human aims with great results” is uninteresting because we do amazing things these days.
I think the issue is that those stories are rooted very much in the failures of human systems that we see every day. They are us imagining what could go wrong based on what has gone wrong and is going wrong.
It would be a lot easier to set those warnings aside if we didn't have so many examples of the very things they warn about happening in real life.
We currently have a system where private individuals can fund private science and then deploy the results globally to their own profit with very few mechanisms for enforcing restraint and caution. And we've seen this backfire with horrific consequences over and over again.
Lead in the gasoline. Microplastics in the water. Pesticides widely applied to the biosphere. In my area PCBs are a massive risk due to past soil contamination. In other areas fracking biproducts make the water undrinkable.
Hell the AI rush in the face of climate change. We literally have heatwaves killing massive numbers of people while a tiny handful of investors and the companies they control are drastically increasing our carbon emissions in the race for AI.
It's easy to imagine all the ways in which synthetic life could go horribly wrong, even with out those sci-fi stories, especially since all but the youngest of us have been through a brutal pandemic in living memory.
It's very, very hard to imagine our current system showing proper restraint with this technology.
It's important to emphasize that cars are the leading source of carbon emissions. Anyone fighting against AI on the basis of climate change should be fighting for safe and reliable alternatives to driving everywhere.
This is "whatabboutism" which is a logical fallacy.
Someone doesn't have to talk about the climate impacts of cars every time they talk about the climate impacts of AI. Both have climate impacts, independently of each other, and we should be dealing with the climate impacts of both simultaneously.
Regardless, don't assume the person you are talking to isn't consistent. Peruse my personal blog and you will see that I, in fact, ran a whole city council campaign on a platform of "to fight climate change we should not be driving".
Someone doesn't have to talk about the climate impacts of cars every time they talk about the climate impacts of AI.
Actually they do, because the best way to get cars off the road is to replace many if not most of their occupants with AI.
Private ownership of cars is not the problem. The assumption that people have to drive all over the place to get stuff done is the problem. Let's work on that.
And the most promising of those alternatives is, ironically enough, AI itself. Fighting data centers is literally like fighting nuclear power. If you just want more carbon emissions, then by all means, proceed.
Of course most people who commute to work don't need to be doing that now, but that's the other big elephant in the room with AI. We don't use the intelligence we already have, so what makes us think the emergence of ASI/AGI will change anything?
At one end we're creating artificial life, the other we are creating artificial intelligence.
We're coming at everything we as the human race have known for millennia from both ends, simultaneously. We're recreating that, from scratch.
That is absolutely fucking wild.
Ironically this "holy" grail will end up being the thing that finally puts religious creation myths in their place (i.e. as bullshit) since we will be able to answer with 100% certainty that we are not alone or unique in the universe since we recreated life in the fucking petri dish so why not across the billions and trillions of other planets out there?
> Ironically this "holy" grail will end up being the thing that finally puts religious creation myths in their place (i.e. as bullshit) since we will be able to answer with 100% certainty that we are not alone or unique in the universe since we recreated life in the fucking petri dish so why not across the billions and trillions of other planets out there?
> we will be able to answer with 100% certainty that we are not alone or unique in the universe since we recreated life in the fucking petri dish
I don't think we are alone, but this is not logically sound. The conditions in the petri dish might be easily so special that their natural prevalence is < 1 per universe.
The first time this happens in a petri dish will likely have to be under extremely controlled circumstances. But the process will be modified and toyed with once it exists and I think that this will eventually lead to whole spectrum of (quasi?)biological systems that together cover a broad range of environmental conditions.
You if believe creating life will end religion then you're wrong.
We thought evolutionary theory would do the same, now we got people who believe god directed evolution. Some believe everything evolved from a common ancestor except Humans.
So the believers will adapt to believe that Genesis was talking about exactly this.
Science can't disprove religion. Consider the "big bang", is that any less of a miracle than "God did it"? Science is like "just give us one miracle and we'll explain the rest".
The big bang theory isn't even incompatible with the idea that 'God did it'; the idea was first proposed by a Catholic priest, as a matter of fact! I think the anti-science stance of evangelicals has eclipsed in the modern consciousness the fact that modern science owes much to the Catholic church.
> This startling idea first appeared in scientific form in 1931, in a paper by Georges Lemaître, a Belgian cosmologist and Catholic priest.
I think this is really the wrong framing. Science can't disprove religion. The question is whether it makes any sense to believe in the religion in the first place, given what observation and science say about the universe. Science can't prove that God didn't create the universe a nano-second ago in exactly the state to produce this temporal evolution, but no one believes that because its not explanatory and also fails a bunch of other, not-necessarily scientific, but rationally motivated epistemological tests.
The way I see this is that science cannot disprove any particular religion, but it can probably offer more compelling explanations for the state of the world than religion can offer. People haven't flocked away from religion because explanations for the state of the world aren't really what people want from religion. They want a sop for their anxieties. they want community, etc. I think believing in nonsense is a real shitty way to get these things, but I'm not most people.
(Disclaimer: on religion I try to be respectful, as an agnostic atheist) I do think our ability to “build tools that create life” is incredible, but to me has a limited argumentative impact on what I guess you could call the “prime mover” question: _But how did everything start?_ Does that seem reasonable or am I downplaying the implications you mentioned?
Thomas Aquinas made the argument that all life comes from other life in the 13th Century. I wouldn't classify it as a modern pivot so much as one of the central philosophical arguments for the existence of a Creator.
I'm not a biologist so I can't say for sure, but it seems like it would be a lot easier to edit an existing living organism to produce those products than it would be to create completely from scratch. We already do this with the process known as precision fermentation. We've gotten very good at editing genomes via CRISPR and related techniques and are only getting better
but those guys could probably add components to their cell to make it truly self-supporting although in biology there is a big difference between "barely works" and "high performance"
It seems that eventually you could build much more flexible and powerful if you build from scratch. Hacking existing cells is a shortcut but longer term we may get grey goo.
If you can disassemble and reassemble a thing, you can say you understand it. Not perfectly. But understand it. I’d imagine properly understanding rudimentary cellular biology will come with perks.
(Also, does the Holy Grail imply both a boon and a cost? Or is that just Indian Jones.)
I think one useful application of this would be life built on stuff that doesn't interact with our cells - artifical bases, nucleotides and all. Then we could have non-biological self-replicating robots
While this is an impressive step forward, there remains an extremely long way, probably of several decades, until being able to design and synthesize a cell comparable in complexity with a bacterium.
The thing that they made is more alive than a crystal, which when placed in a suitable solution will grow and reproduce its own structure, but much less alive than even the simplest known living cells.
Its "life" is similar to that of a brain-dead human, whose body is not left to die by a bunch of machines that pump air into its lungs and nutrients through its blood vessels.
The techniques developed to make this pseudo-cell might evolve eventually into techniques able to make a true cell and it is likely that valuable information can be extracted from experiments with it, but it is very unlikely that any of the ancestors of the living beings has ever had even a remote resemblance with this (because it is far too dependent on continuously receiving complex cellular components and nutrients from outside; simplified parasitic living beings could appear only when there already existed sufficiently complex living hosts for the parasites).
Some components of this thing are growing by reproducing themselves, but like I have said, so does any crystal, thus it is difficult to choose a criterion that will distinguish with certainty what is living from what is non-living.
The growth is followed by a kind of division into 2 vesicles, but that happens by a mechanism very different from any living cell. Many inorganic things will split when growing over a certain size, so again it is hard to decide whether this can be called living.
> Its "life" is similar to that of a brain-dead human, whose body is not left to die by a bunch of machines that pump air into its lungs and nutrients through its blood vessels
A brain-dead human is alive, but just facing systemic collapse, aka death. That's not to imply that what the scientists here have created is alive, but the comparison isn't so apt.
As a multi-cellular organism, a brain-dead human is not alive, even if most of its cells may remain alive as long as they are fed from outside.
OK, what I have said above is not generally true, as some brain-dead humans may be more alive than others, e.g. some integrative functions, like some feedback loops that function through the endocrine system or through the autonomous nervous system, may still be working, connecting some organs with each other.
My comparison was with a very dead brain-dead human, who was reduced to the equivalent of a tissue culture.
These artificial cells also have some components that continue to work like in a living cell, doing some nucleic acid replication and some protein and lipid synthesis from precursors provided from outside, but they lack the capability to perform many of the chemical reactions that would be needed to close the complex network of feedback loops that enable a true living cell to live autonomously.
Yeah, imagine if one day it will become trivial to blow up the world. Enough people hate humanity that they would do it, by tomorrow if they could. Seems like out exponential growth in technology will eventually lead up to that. If not actual nuclear explosion, then biological weapons. Would we need to enslave humans not to do it. How would that work.
I agree with your conclusion. We start by enslaving certain classes of humans like Peter Thiel or Elon Musk. Anyone with more than $1B gets the collar. Populism is a helluva drug.
This is great, I assumed we were getting close (and not quite there), so it's great to see the progress. The path from here to building a single-celled organism out of nonlive materials looks very straight.
I vastly prefer the explanation like of Roadside Picnic. They didn't try to create us, they don't care that we're here, and, ultimately, we will never be able to know them in any meaningful sense. ;)
Or another take, life isn't all that special if we can make it this easily.
We have always theorized the start of life but this could actively show that life could have started on a rock floating in space given enough time. No sky daddy and no aliens necessary!
From cells dividing to human generation there is a single step.
Similarly a program that runs on a computer, where its only interactions are strings of numbers is the same as an entity having to interact with the world.
Interesting, we should be able to have LLMs generate full genetic code or Inpaint into existing code that can be installed into a cell as DNA and have it divide out into any custom creature.
We could launch these custom bacteria in stasis to planets around the galaxy and seed life everywhere.
Definitely. An implication of several strands of idealism is that we will be able to create artificial life (with consciousness)... it will just look like biology.
Science News has a more balanced take, with additional quotes from peers.
> Some have also grumbled about Adamala’s efforts to draw attention to the work, which she says was rejected by Cell after one reviewer said SpudCells were not real biology. She then sent the 190-page manuscript to journalists, under embargo, even before she had uploaded it to the preprint server bioRxiv, where her colleagues could read and assess it. She says her group will submit it to a new journal soon. “It’s an unusual way of doing things,” says Kerstin Göpfrich, a synthetic biologist at Heidelberg University.
https://www.science.org/content/article/lab-created-spudcell...
Crazy that a Cell reviewer would claim synthetic biology is not biology
Exoplanets also aren't planets. Some things just seem to have definitions with a history that get applied to new discoveries that don't fall within the definition. Distinguishing random rocks in space from planets was done by requiring planets to orbit around the sun, and so planets elsewhere cannot be called planets no matter that it's 1:1 the same thing. Biology probably has a similar history of trying to draw a line somewhere between what was created and what evolved to be part of the 'natural' world
Exoplanets are planets. Also, for clarification, biology is not defined as “the study of things produced exclusively by natural evolution.” Synthetic biology works with biological components and living systems (DNA, proteins, regulatory networks, cells and organisms). It differs from much traditional biology mainly in its constructive, engineering-oriented approach. Synthetic systems are often built precisely to test hypotheses about how natural biological systems function. Claiming it is not biology is wrong IMO.
Right? It's biology when you study enzymes in vitro, but as soon as you put a membrane around them then it's ... something else?
Bizarre argument.
> Exoplanets also aren't planets.
Imagine writing this.
Not defending anyone but it's quite common for people to hold different definitions of words with some unknown presumed context in mind that others don't see in the moment. I'd argue it's the single biggest reason for all arguments in recent human history.
That's fair, but rejecting a paper for that reason seems excessive to me. Even if the reviewer may think that synthetic biology is not biology, they would know that plenty of synthetic biology papers have been published in Cell.
Well of course, it doesn't have a soul. /s
Yeah, I have a hard time reconciling this especially since biology and biologic research often involves things like enzymes which both aren't alive and are synthetically created.
I'm certain cell magazine has published articles on novel enzyme discovery.
Cause of all the theists at cell
> “It’s an unusual way of doing things,” says Kerstin Göpfrich, a synthetic biologist at Heidelberg University.
That's being kind; it's a complete overreaction, simply put.
In fairness, it's a workaround against something that likely should not have happened. Problems require creative (aka unusual) solutions.
The problem is this: as an academic you tend to know the reviewer landscape within your field. You have seen this happen to a colleague before, they submitted a paper, it had interesting results - it was forcefully rejected by 1 or 2 extremely negative reviewers. The publication gets delayed, you need to wait another 6 months to get the next set of reviews. Meanwhile, some "colleague" from another lab publishes nearly identical experiments and gets slightly better results. They push onto a pre-pub server and immediately get it into a tier-1 venue. They are now state of the art. You are now merely the person reproducing original work.
TL;DR politics breaks everything.
“This was where the field had been stuck for some time. Researchers before Adamala had figured out different ways to feed and grow synthetic cells and to replicate their DNA. But cell division is a different beast. A typical cell reorganizes its cytoskeleton — a network of protein fibers that provide structural support — to halve its DNA and split. Synthetic biologists could not figure out how to get their cells to undergo this complex process.
So Adamala decided to ditch the cytoskeleton. One day, while tearing through the literature, she came across an interesting mechanism in a paper (opens a new tab). By attaching protein tags to a cell membrane, the synthetic biologist Reinhard Lipowsky (opens a new tab) at the Max Planck Institute of Colloids and Interfaces attracted other proteins to crowd around and physically bend the membrane, forcing the cell to divide. Following this approach, Adamala tweaked a cell-membrane protein and tested it in her protocells. After several tries, it worked.“
This is the novel bit.
(opens a new tab)
Yeah, I was wondering about that as well. Some weird AI transcriber?
I interpreted it as the author adding some internal dialog about how they want to do more research on the article/person in question so they were opening up a new tab so they could learn more. But I can see how this could certainly be some copy/paste artifact.
More likely stuff that gets picked up when you copy and paste. I’ve seen that happen in the Google Chat electron app.
Maybe an accessibility feature for TTS or blind users?
that's exactly it, not AI at all. If you inspect any link in the article it shows it as screen-reader-text
You stumble upon a news article from 2226. You read it to see who, between Google, OpenAI and Anthropic, won the AI race.
Instead, your learn Biotic.
It's now the leading polity in the solar system and its environs. It bought Alphabet, OpenAI and Anthropic in a single day back in 2084.
Human are no longer desired. Their reproduction is capped to an optimal minimum assuring the survival of the species as a relic.
For productive matters, Biotec preferes to rely on its biomachines. Imagine drones giving birth to offspring when traffic is at a peak. It takes more energy, sure. But no factory, nor workers are needed.
If left alone, machines would multiply out of control, instead of rotting to waste like in the olden days.
Interesting that this is led by the same Dr. Kate Adamala who ended the right-handed-proteins experiment a couple of years ago. Given how close she was I'm not surprised she's made this work.
If anyone is interested in the actual manuscript, here it is: https://www.biotic.org/research/spudcell/spudcell-manuscript...
> 'Unlike living natural cells... the synthetic SpudCell can't survive and replicate without feeding on external food and ribosomes'
So in the future when there's a lab leak from the Wuhan Institute of SpudCellular Biology, the SpudCells will devour all biological life they can in order to harvest the building blocks they need. "Just social distance and wear two masks," the Surgeon General tells the CNN correspondent, as he disolves to red gray goo on live TV.
Waiting for lab-grown meat. Hope it comes closer to fruition before my kidneys give out.
There are multiple FDA-approved lab-grown meats on the market. You can literally go to a handful of restaurants and order lab-grown meat today. The production process is just expensive and it's getting scaled out.
Yes. It's still quite a distance away from a feel and taste of meat. At least the affordable ones.
Lab-grown meat seems completely unrelated to synthetic biology. For lab grown meat the problem to my knowledge is that it is very expensive to grow vertebrate cells in the absence of an immune system because every contamination kills the batch.
let me put it this way .. it will come before the wallet gives out! (for masses)
Craig Venter wanted to do this. But he died earlier this year.
> “It’s a big step forward to this holy grail of making a living thing out of dead components,” said Sijbren Otto, a systems chemist at the Stratingh Institute for Chemistry in the Netherlands who was not involved in the work.
That is the holy grail? I get that the goal is to "grow" biofuels, plastic, fertilizer, drugs, or whatever else we can imagine. But is that worth the many apocalyptic sci-fi outcomes we can imagine?
Yes, mechanically constructing life would be absolutely stupendous for science. The real tragedy of modern sci-fi is that everyone read the books and decided it was reality.
“Penicillin?! A poison from fungus that kills living cells?! Haven’t you played the sci fi game The Last of Us?”
Stories are stories, man. Story-logic is biased towards interesting tales. And “discovery from the natural world turned to human aims with great results” is uninteresting because we do amazing things these days.
> Stories are stories, man. Story-logic is biased towards interesting tales.
Also known as the fallacy of “generalizing from fictional evidence”.
https://www.lesswrong.com/posts/rHBdcHGLJ7KvLJQPk/the-logica...
I think the issue is that those stories are rooted very much in the failures of human systems that we see every day. They are us imagining what could go wrong based on what has gone wrong and is going wrong.
It would be a lot easier to set those warnings aside if we didn't have so many examples of the very things they warn about happening in real life.
We currently have a system where private individuals can fund private science and then deploy the results globally to their own profit with very few mechanisms for enforcing restraint and caution. And we've seen this backfire with horrific consequences over and over again.
Lead in the gasoline. Microplastics in the water. Pesticides widely applied to the biosphere. In my area PCBs are a massive risk due to past soil contamination. In other areas fracking biproducts make the water undrinkable.
Hell the AI rush in the face of climate change. We literally have heatwaves killing massive numbers of people while a tiny handful of investors and the companies they control are drastically increasing our carbon emissions in the race for AI.
It's easy to imagine all the ways in which synthetic life could go horribly wrong, even with out those sci-fi stories, especially since all but the youngest of us have been through a brutal pandemic in living memory.
It's very, very hard to imagine our current system showing proper restraint with this technology.
It's important to emphasize that cars are the leading source of carbon emissions. Anyone fighting against AI on the basis of climate change should be fighting for safe and reliable alternatives to driving everywhere.
This is "whatabboutism" which is a logical fallacy.
Someone doesn't have to talk about the climate impacts of cars every time they talk about the climate impacts of AI. Both have climate impacts, independently of each other, and we should be dealing with the climate impacts of both simultaneously.
Regardless, don't assume the person you are talking to isn't consistent. Peruse my personal blog and you will see that I, in fact, ran a whole city council campaign on a platform of "to fight climate change we should not be driving".
Someone doesn't have to talk about the climate impacts of cars every time they talk about the climate impacts of AI.
Actually they do, because the best way to get cars off the road is to replace many if not most of their occupants with AI.
Private ownership of cars is not the problem. The assumption that people have to drive all over the place to get stuff done is the problem. Let's work on that.
Should also be fighting for that.
And the most promising of those alternatives is, ironically enough, AI itself. Fighting data centers is literally like fighting nuclear power. If you just want more carbon emissions, then by all means, proceed.
Of course most people who commute to work don't need to be doing that now, but that's the other big elephant in the room with AI. We don't use the intelligence we already have, so what makes us think the emergence of ASI/AGI will change anything?
> That is the holy grail?
At one end we're creating artificial life, the other we are creating artificial intelligence.
We're coming at everything we as the human race have known for millennia from both ends, simultaneously. We're recreating that, from scratch.
That is absolutely fucking wild.
Ironically this "holy" grail will end up being the thing that finally puts religious creation myths in their place (i.e. as bullshit) since we will be able to answer with 100% certainty that we are not alone or unique in the universe since we recreated life in the fucking petri dish so why not across the billions and trillions of other planets out there?
What a time to be alive.
> Ironically this "holy" grail will end up being the thing that finally puts religious creation myths in their place (i.e. as bullshit) since we will be able to answer with 100% certainty that we are not alone or unique in the universe since we recreated life in the fucking petri dish so why not across the billions and trillions of other planets out there?
How does it affect religious ideas per se? its something many religious people long to find https://www.theatlantic.com/culture/2026/06/disclosure-day-a...
> we will be able to answer with 100% certainty that we are not alone or unique in the universe since we recreated life in the fucking petri dish
I don't think we are alone, but this is not logically sound. The conditions in the petri dish might be easily so special that their natural prevalence is < 1 per universe.
The first time this happens in a petri dish will likely have to be under extremely controlled circumstances. But the process will be modified and toyed with once it exists and I think that this will eventually lead to whole spectrum of (quasi?)biological systems that together cover a broad range of environmental conditions.
You if believe creating life will end religion then you're wrong.
We thought evolutionary theory would do the same, now we got people who believe god directed evolution. Some believe everything evolved from a common ancestor except Humans.
So the believers will adapt to believe that Genesis was talking about exactly this.
Who thought evolutionary theory would end religion? Sounds like wishful thinking from people who were hoping for an end to religion.
Mainstream Christianity was not not biblical literalist anyway. Read what Augustine or Origen had to say about interpreting Genesis.
Science can't disprove religion. Consider the "big bang", is that any less of a miracle than "God did it"? Science is like "just give us one miracle and we'll explain the rest".
The big bang theory isn't even incompatible with the idea that 'God did it'; the idea was first proposed by a Catholic priest, as a matter of fact! I think the anti-science stance of evangelicals has eclipsed in the modern consciousness the fact that modern science owes much to the Catholic church.
> This startling idea first appeared in scientific form in 1931, in a paper by Georges Lemaître, a Belgian cosmologist and Catholic priest.
excerpt from https://www.amnh.org/learn-teach/curriculum-collections/cosm...
I think this is really the wrong framing. Science can't disprove religion. The question is whether it makes any sense to believe in the religion in the first place, given what observation and science say about the universe. Science can't prove that God didn't create the universe a nano-second ago in exactly the state to produce this temporal evolution, but no one believes that because its not explanatory and also fails a bunch of other, not-necessarily scientific, but rationally motivated epistemological tests.
The way I see this is that science cannot disprove any particular religion, but it can probably offer more compelling explanations for the state of the world than religion can offer. People haven't flocked away from religion because explanations for the state of the world aren't really what people want from religion. They want a sop for their anxieties. they want community, etc. I think believing in nonsense is a real shitty way to get these things, but I'm not most people.
(Disclaimer: on religion I try to be respectful, as an agnostic atheist) I do think our ability to “build tools that create life” is incredible, but to me has a limited argumentative impact on what I guess you could call the “prime mover” question: _But how did everything start?_ Does that seem reasonable or am I downplaying the implications you mentioned?
Nah. The natural pivot is from “we have never observed abiogenesis” to “see? Life required a creator.”
You can’t win
Thomas Aquinas made the argument that all life comes from other life in the 13th Century. I wouldn't classify it as a modern pivot so much as one of the central philosophical arguments for the existence of a Creator.
Aye, but this will let us gradually work towards more and more basic cell forms, so that we can eventually figure out abiogenesis.
I might in some sense agree with you but check your wording: creationism... we recreated life... see where I'm going?
That’s because we’re almost to the Technological Singularity
Kurzweil puts it between 2029-2032 and that seems right to me
https://en.wikipedia.org/wiki/Technological_singularity
Wait you think creating life disapproves creationism?
I’m no 7 day creationist but haha my guy…
I'm not a biologist so I can't say for sure, but it seems like it would be a lot easier to edit an existing living organism to produce those products than it would be to create completely from scratch. We already do this with the process known as precision fermentation. We've gotten very good at editing genomes via CRISPR and related techniques and are only getting better
https://en.wikipedia.org/wiki/Precision_fermentation
It seems like this cell barely evolves, because the system they built for duplicating the DNA makes very few errors.
Natural life tends to evolve, which may have consequences for production.
For example, quorn production has to be restarted from a seed population after ~1000 hours because it tends to evolve colonial variants that break the product standards: https://www.davidmoore.org.uk/21st_century_guidebook_to_fung...
Very interesting! Thanks for sharing
It's desirable to have some kind of simple base to start from that is an easy-to-configure platform to deploy any kind of metabolic machinery.
Their "minimal" cell is not quite a minimum product because it depends on prebuilt ribosomes and can't reproduce on it's own. No danger of gray goo!
This is more like it
https://www.jcvi.org/research/first-minimal-synthetic-bacter...
but those guys could probably add components to their cell to make it truly self-supporting although in biology there is a big difference between "barely works" and "high performance"
It seems that eventually you could build much more flexible and powerful if you build from scratch. Hacking existing cells is a shortcut but longer term we may get grey goo.
> That is the holy grail?
If you can disassemble and reassemble a thing, you can say you understand it. Not perfectly. But understand it. I’d imagine properly understanding rudimentary cellular biology will come with perks.
(Also, does the Holy Grail imply both a boon and a cost? Or is that just Indian Jones.)
To your aside: No, in this abstract sense Holy Grails are just a boon, a desirable piece of knowledge, achievement, that sort of thing.
I think one useful application of this would be life built on stuff that doesn't interact with our cells - artifical bases, nucleotides and all. Then we could have non-biological self-replicating robots
While this is an impressive step forward, there remains an extremely long way, probably of several decades, until being able to design and synthesize a cell comparable in complexity with a bacterium.
The thing that they made is more alive than a crystal, which when placed in a suitable solution will grow and reproduce its own structure, but much less alive than even the simplest known living cells.
Its "life" is similar to that of a brain-dead human, whose body is not left to die by a bunch of machines that pump air into its lungs and nutrients through its blood vessels.
The techniques developed to make this pseudo-cell might evolve eventually into techniques able to make a true cell and it is likely that valuable information can be extracted from experiments with it, but it is very unlikely that any of the ancestors of the living beings has ever had even a remote resemblance with this (because it is far too dependent on continuously receiving complex cellular components and nutrients from outside; simplified parasitic living beings could appear only when there already existed sufficiently complex living hosts for the parasites).
Some components of this thing are growing by reproducing themselves, but like I have said, so does any crystal, thus it is difficult to choose a criterion that will distinguish with certainty what is living from what is non-living.
The growth is followed by a kind of division into 2 vesicles, but that happens by a mechanism very different from any living cell. Many inorganic things will split when growing over a certain size, so again it is hard to decide whether this can be called living.
> Its "life" is similar to that of a brain-dead human, whose body is not left to die by a bunch of machines that pump air into its lungs and nutrients through its blood vessels
A brain-dead human is alive, but just facing systemic collapse, aka death. That's not to imply that what the scientists here have created is alive, but the comparison isn't so apt.
As a multi-cellular organism, a brain-dead human is not alive, even if most of its cells may remain alive as long as they are fed from outside.
OK, what I have said above is not generally true, as some brain-dead humans may be more alive than others, e.g. some integrative functions, like some feedback loops that function through the endocrine system or through the autonomous nervous system, may still be working, connecting some organs with each other.
My comparison was with a very dead brain-dead human, who was reduced to the equivalent of a tissue culture.
These artificial cells also have some components that continue to work like in a living cell, doing some nucleic acid replication and some protein and lipid synthesis from precursors provided from outside, but they lack the capability to perform many of the chemical reactions that would be needed to close the complex network of feedback loops that enable a true living cell to live autonomously.
Yeah, imagine if one day it will become trivial to blow up the world. Enough people hate humanity that they would do it, by tomorrow if they could. Seems like out exponential growth in technology will eventually lead up to that. If not actual nuclear explosion, then biological weapons. Would we need to enslave humans not to do it. How would that work.
I agree with your conclusion. We start by enslaving certain classes of humans like Peter Thiel or Elon Musk. Anyone with more than $1B gets the collar. Populism is a helluva drug.
Have you not seen Jurassic Park?
Man, I am so tired of the cynicism around here.
Anytime you do something interesting or useful someone accuses you of trying to build the apocalypse.
This is great, I assumed we were getting close (and not quite there), so it's great to see the progress. The path from here to building a single-celled organism out of nonlive materials looks very straight.
Reminded me of Maturana and his autopoiesis.
I wonder if these principles could be applied to non-organic components. I imagine a completely synthetic robo-cell would raise interesting questions.
Also, go MN!
The aliens that seeded life on Earth are seeing us making baby steps. Expect a visit soon!
> aliens that seeded life on Earth are seeing us making baby steps
Or like a grad student didn’t dispose of their work properly and are desperately trying to distract from their scandal.
I vastly prefer the explanation like of Roadside Picnic. They didn't try to create us, they don't care that we're here, and, ultimately, we will never be able to know them in any meaningful sense. ;)
https://shkrobius.livejournal.com/401292.html offers a fascinating narrative rooted in cell biology
Or another take, life isn't all that special if we can make it this easily.
We have always theorized the start of life but this could actively show that life could have started on a rock floating in space given enough time. No sky daddy and no aliens necessary!
I never thought of it this way... who knows, could be a possibility! Oh, this is creepy...
There is a whole movie about it: https://www.youtube.com/watch?v=d1azwUwKrPo
It's rare to see posts like this with such pure, crystalized ideology.
Just wait 'til he finds out the alien was Trelane and he just wanted more soldiers for his play army.
This is really cool. But I dislike the dialog where because step 1 happened people talk like steps 2-100 are not inevitable.
Also discussed here: https://news.ycombinator.com/item?id=48747038
"The cell is not alive by any definition..." "But it’s the strongest demonstration yet that it is possible to generate life from nonlife."
Contradicting themself in the same paragraph.
The wheel is not a car. However a wheel is a strong indication that car-like structures are at least possible.
I wonder what animal or plant would grow out of that...
Neither. This is a single cell.
Replicating eukaryogenesis with synthetic components is something I hope to see in my lifetime.
So what is being described here? Scratch-built self-replicating nano-machines inspired by biology? That itself seems significant.
"If you wish to make an apple pie from scratch, you must first invent the universe"
"And that is why God is far less interested in modern mortal affairs than Theists want Him to be." - [source forgotten]
Going by people’s reactions to AI, what will our reactions be to artificial humans generated from these methods?
Will they be hated? Killed off? Will they ever be see as legitimate, or just soulless beings, p-zombies.
From cells dividing to human generation there is a single step.
Similarly a program that runs on a computer, where its only interactions are strings of numbers is the same as an entity having to interact with the world.
Interesting, we should be able to have LLMs generate full genetic code or Inpaint into existing code that can be installed into a cell as DNA and have it divide out into any custom creature.
We could launch these custom bacteria in stasis to planets around the galaxy and seed life everywhere.
For the love of all things holy, can we not do these kinds of experiments on the same planet we live on?
Oh shut up, can we get some frontier stuff going without some doom and gloom. All this knowledge for all these years and next to no progress.
I blame black mirror for this attitude. If you're going to speculate on imaginary futures why can't they be positive?
>why can't they be positive?
Because no one minds if good things happen...
Uh-oh
That is closer to consciousness than AI will ever be. :)
Definitely. An implication of several strands of idealism is that we will be able to create artificial life (with consciousness)... it will just look like biology.
Elan conscietal? (a pun on elan vital)