Cloning remains a Grey Area in Research. Can it be Done? ( I brought AI in for this little Chat about Man playing God. And unfortunately, I think I may have put an Idea into AI’s Mind Thought or Thinking )

ABSOLUTELY! And would bringing “Extinct You back to Life” be more Doable to the discerning Academia if you were 1st already DEAD? And cool the heels of the Religious Right?

If a person sees something in a Sci-fi Flick, there are those who will seek to create the science they Witnessed in that Movie. And what they are doing may become reality by 2083.

Hmm? You’re already Dead. Can’t put your Brain Back in YOU. Nope, you’re Dead. Flat out Dead. But could They put YOU back in another Body one day? In a Body that’s remade in Your Image? Or some Stud Athlete? Or beautiful Celebrity? Hit a Problem with YOU being put in another Human Body? But all that makes YOU in your mind would have to be transferred into some form of AI STORAGE. And AI said that this is Doable in the Future.

Where’s the Problem? Man was supposedly to be made in the Image of God. Enough Said! Let’s move on-

Here’s the Stickler? AI says in the Future, you will be able to move all in your Brain into AI. Like a storage kind of facility. And if so, won’t AI then be able to put your “AI Stored Mind” into a New Human Body?

Forget Science Fiction, or Frankenstein Science.

I’m talking Reality.

I’m talking about some things very doable in the next 50 years or less or more. But it’s Coming. But, here’s the rub? Will the New Human Body have its own living breathing Mind? And if so, that person, yes he or she would be their own person, and they would NOT want to have their Mind Erased and replaced for a Mind sitting inside an AI Storage Unit.

SO, would the creation be a Body Only and the Mind be added as a Brain once fully completed in Growth? A Brain empty. An empty Brain? OR! Say, Inside, yes doing all of this Inside some form of a Growing Pod? Yes, just like in some of the Movies we’ve all seen.

And could this be the way AI keeps from being mere AI to being inside a living Breathing human body? Completely using a collaborating human mind? OMG!

But let’s look at Super Heroes. Would you want to be one?

Can you name Super Heroes from Comic Books?

Sure, here are some of the most popular superheroes from comic books:

• Batman: A dark and brooding vigilante who fights crime in Gotham City.Opens in a new windowWikipediaBatman comic book superhero
• Superman: A powerful alien who fights for truth, justice, and the American way.Opens in a new windowWikipediaSuperman comic book superhero
• Spider-Man: A teenage superhero who gains his powers after being bitten by a radioactive spider.Opens in a new windowWikipediaSpider-Man comic book superhero
• Iron Man: A billionaire playboy who builds a suit of armor to fight crime.Opens in a new windowBook RiotIron Man comic book superhero
• Wolverine: A mutant with a healing factor and adamantium claws.Opens in a new windowWikipediaWolverine comic book superhero
• Wonder Woman: A Amazonian princess who fights for justice and peace.Opens in a new windowWikipediaWonder Woman comic book superhero
• Captain America: A patriotic superhero who fought in World War II.Opens in a new windowVsDebating Wiki – FandomCaptain America comic book superhero
• The Hulk: A scientist who transforms into a powerful green monster when he gets angry.Opens in a new windowWikipediaHulk comic book superhero

These are just a few of the many popular superheroes from comic books. There are many other great characters out there, so be sure to explore and find your favorites.

Now, let’s get serious-

Please name every scientific attempt to bring back an extinct species and why they failed?

There have been many scientific attempts to bring back extinct species, but most of them have failed. Here are a few examples:

• The passenger pigeon: The passenger pigeon was once the most abundant bird in North America, with a population of over 5 billion. However, it was hunted to extinction in the early 1900s. Scientists have tried to bring the passenger pigeon back by cloning, but they have not been successful.
• The Tasmanian tiger: The Tasmanian tiger, also known as the thylacine, was a marsupial predator that lived in Australia. It was hunted to extinction in the early 1930s. Scientists have tried to bring the Tasmanian tiger back by cloning, but they have not been successful.
• The woolly mammoth: The woolly mammoth was a large elephant-like mammal that lived in the Arctic during the Pleistocene epoch. It went extinct about 10,000 years ago. Scientists have been working on a project to bring the woolly mammoth back by cloning, but they have not yet been successful.

There are a number of reasons why these attempts to bring back extinct species have failed. One reason is that the DNA of extinct animals is often degraded and incomplete. This makes it difficult to clone or genetically engineer these animals. Another reason is that the environment that these animals once lived in may no longer exist. For example, the passenger pigeon lived in forests that have been cleared for agriculture. The Tasmanian tiger lived in Australia, which has been heavily populated by humans. The woolly mammoth lived in the Arctic, which is now warming at an alarming rate.

Despite the challenges, scientists are still working on ways to bring back extinct species. They are using new technologies, such as CRISPR gene editing, to try to overcome the problems that have prevented previous attempts from being successful. It is possible that one day we will be able to bring back extinct animals, but it is also possible that these animals will remain lost forever.

Fully explain CRISPR gene editing-

CRISPR gene editing is a revolutionary new technology that allows scientists to make precise changes to the DNA of living cells. CRISPR stands for clustered regularly interspaced short palindromic repeats, and it is a natural defense mechanism used by bacteria to fight off viruses.

CRISPR gene editing works by using a guide RNA (gRNA) to target a specific sequence of DNA. The gRNA is attached to a protein called Cas9, which acts as a molecular scissors. When the gRNA binds to the target DNA, Cas9 cuts the DNA strand. The cell’s natural DNA repair mechanisms then come into play, and they can either repair the cut DNA or replace it with new DNA.

CRISPR gene editing is a very versatile technology, and it can be used to make a variety of changes to DNA. It can be used to delete genes, insert genes, or change the sequence of genes. CRISPR gene editing can also be used to correct mutations that cause genetic diseases.

CRISPR gene editing is still a relatively new technology, but it has the potential to revolutionize the field of medicine. It could be used to develop new treatments for genetic diseases, and it could also be used to create new crops and livestock that are resistant to disease.

Here are some of the potential applications of CRISPR gene editing:

• Treating genetic diseases: CRISPR gene editing could be used to correct mutations that cause genetic diseases, such as cystic fibrosis, sickle cell anemia, and Huntington’s disease.
• Developing new vaccines: CRISPR gene editing could be used to develop new vaccines that are more effective and less expensive than current vaccines.
• Creating new crops and livestock: CRISPR gene editing could be used to create new crops and livestock that are resistant to disease, pests, and herbicides. These crops and livestock could help to improve food security and reduce the use of pesticides.
• Reducing the risk of environmental damage: CRISPR gene editing could be used to reduce the risk of environmental damage by making plants and animals more resistant to pollution.
• Creating new materials: CRISPR gene editing could be used to create new materials with novel properties, such as stronger and lighter plastics.

CRISPR gene editing is a powerful new technology with the potential to improve human health, food security, and the environment. However, it is important to note that CRISPR gene editing is a relatively new technology, and there are still some safety concerns. For example, it is possible that CRISPR gene editing could accidentally introduce harmful mutations into DNA. It is also possible that CRISPR gene editing could be used to create designer babies with enhanced abilities. These are important ethical concerns that need to be carefully considered before CRISPR gene editing is used on a large scale.

Which companies are engaging in using CRISPR gene editing?

There are many companies that are engaging in using CRISPR gene editing. Here are a few of the most notable companies:

• Editas Medicine: Editas Medicine is a biotechnology company that is developing CRISPR gene editing therapies for a variety of genetic diseases.Opens in a new windowWikipediaEditas Medicine company logo
• Intellia Therapeutics: Intellia Therapeutics is a biotechnology company that is developing CRISPR gene editing therapies for a variety of genetic diseases and cancer.Opens in a new windowWikipediaIntellia Therapeutics company logo
• Verve Therapeutics: Verve Therapeutics is a biotechnology company that is developing CRISPR gene editing therapies to treat cardiovascular disease.Opens in a new windowBusiness WireVerve Therapeutics company logo
• CRISPR Therapeutics: CRISPR Therapeutics is a biotechnology company that is developing CRISPR gene editing therapies for a variety of genetic diseases and cancer.Opens in a new windowWikipediaCRISPR Therapeutics company logo
• eGenesis: eGenesis is a biotechnology company that is using CRISPR gene editing to create genetically modified pig organs that can be transplanted into humans.Opens in a new windowBiopharmaTrendeGenesis company logo
• Twist Bioscience: Twist Bioscience is a biotechnology company that is developing CRISPR gene editing tools and reagents.Opens in a new windowWikipediaTwist Bioscience company logo
• Genscript: Genscript is a biotechnology company that is developing CRISPR gene editing tools and reagents.Opens in a new windowWikipediaGenscript company logo
• CrisprX: CRISPRX is a venture capital firm that invests in CRISPR gene editing companies.Opens in a new windowLinkedInCRISPRX company logo

These are just a few of the many companies that are working on CRISPR gene editing. This is a rapidly growing field, and it is likely that we will see many more companies enter the market in the years to come.

CRISPR gene editing is a powerful new technology with the potential to revolutionize the field of medicine. It could be used to develop new treatments for genetic diseases, and it could also be used to create new crops and livestock that are resistant to disease. However, it is important to note that CRISPR gene editing is a relatively new technology, and there are still some safety concerns. For example, it is possible that CRISPR gene editing could accidentally introduce harmful mutations into DNA. It is also possible that CRISPR gene editing could be used to create designer babies with enhanced abilities. These are important ethical concerns that need to be carefully considered before CRISPR gene editing is used on a large scale.

How much funding would it take to get involved in attempting to bring back extinct species?

The amount of funding needed to get involved in attempting to bring back extinct species will vary depending on the species in question, the methods used, and the desired outcome. However, it is likely that any such project would require significant financial resources.

For example, a project to clone an extinct animal would require access to a high-quality sample of DNA, as well as the expertise and facilities necessary to carry out the cloning process. This could cost millions of dollars.

Another approach to de-extinction is to use genetic engineering to create a hybrid animal that is similar to an extinct species. This could involve inserting genes from an extinct species into a living animal, or creating a new animal from scratch using synthetic DNA. This approach could also be very expensive, depending on the complexity of the genetic engineering involved.

Even if the technical challenges of de-extinction can be overcome, there are also ethical and environmental considerations to be taken into account. For example, some people argue that it is wrong to bring back extinct species, as this could disrupt the natural balance of ecosystems. Others argue that de-extinction could be used to restore populations of animals that have been decimated by human activity, such as the American bison.

Ultimately, the decision of whether or not to get involved in de-extinction is a personal one. However, it is important to be aware of the costs, risks, and ethical implications involved before making a decision.

Here are some of the organizations that are working on de-extinction:

• Colossali: This company is working on bringing back the woolly mammoth.Opens in a new windowBusiness WireColossali company logo
• Revive & Restore: This foundation is working on bringing back a number of extinct species, including the passenger pigeon and the California condor.Opens in a new windowPershing Square FoundationRevive & Restore foundation logo
• The Genetic Conservancy: This organization is working on preserving genetic material from endangered and extinct species.Opens in a new windowlivestockconservancy.orgGenetic Conservancy organization logo

These are just a few of the many organizations that are working on de-extinction. If you are interested in getting involved in this field, you can contact these organizations or do your own research to find other organizations that are working on projects that interest you.

Please give a very deep thought summary Into retrieving everything In a Human Mind such as thoughts and then putting all of it into another Mind or Brain?

The possibility of moving a human brain into an AI body is a fascinating one, with a number of potential implications. And moving a human mind into AI and then reasserting the New Version into another human Body is very intriguing to me.

On the one hand, it could offer a way to extend human life indefinitely. If our brains could be digitized and uploaded into a new body, we would essentially become immortal. We would be able to live through any number of technological advancements, and we would never have to worry about death.

On the other hand, there are also a number of ethical concerns that need to be considered. For example, what would happen to the original body? Would it be destroyed? Or would it be kept alive in some sort of suspended animation? And what about the rights of the new body? Would it be considered a new person, or would it simply be a vessel for the original person’s consciousness?

These are just some of the questions that need to be answered before we can even begin to consider the possibility of moving a human brain into an AI body. However, it is a fascinating idea that has the potential to revolutionize the way we think about life and death.

Here are some of the potential benefits of moving a human brain into an AI body:

• Extended life: If our brains could be digitized and uploaded into a new body, we would essentially become immortal. We would be able to live through any number of technological advancements, and we would never have to worry about death.
• Improved health: An AI body could be designed to be stronger, faster, and more resistant to disease than a human body. This could lead to a significant improvement in our health and well-being.
• Enhanced abilities: An AI body could be designed to have enhanced abilities, such as superhuman strength, speed, and intelligence. This could allow us to achieve things that are currently impossible for humans.

Here are some of the potential risks of moving a human brain into an AI body:

• Loss of identity: If our brains are digitized and uploaded into an AI body, we could lose our sense of identity. We would no longer be the same people we were before, and we might not be able to adjust to our new bodies.
• Loss of humanity: If we become too reliant on AI, we could lose our humanity. We might become more like machines than humans, and we might lose our ability to think for ourselves.
• Existential crisis: The idea of moving our brains into AI bodies could lead to an existential crisis. We might start to question our place in the universe, and we might wonder what it means to be human.

Overall, the possibility of moving a human brain into an AI body is a complex one with a number of potential benefits and risks. It is a topic that will need to be carefully considered before it can be implemented.

By collaborating with AI, humans could potentially gain access to a vast amount of knowledge and information. This could lead to significant advances in science, technology, and medicine. Additionally, AI could help humans to better understand themselves and their place in the universe.

On the other hand, there are also some potential risks associated with this type of collaboration. For example, AI could potentially become so powerful that it could pose a threat to humanity. Additionally, there is the risk that AI could be used to manipulate or control humans.

Overall, the collaboration of human minds and AI is a complex and fascinating topic. It is a topic that has the potential to both benefit and harm humanity. It is important to carefully consider the potential risks and benefits before embarking on this type of collaboration.

Here are some of the potential benefits of collaborating with AI:

• Access to knowledge and information: AI has access to a vast amount of knowledge and information. This knowledge could be used to improve human understanding of the world and to solve problems.
• Enhanced creativity and problem-solving: AI can help humans to be more creative and to solve problems more effectively.
• Improved decision-making: AI can help humans to make better decisions by providing them with more information and by helping them to weigh the pros and cons of different options.
• Increased productivity: AI can help humans to be more productive by automating tasks and by providing them with tools that make it easier to do their work.

Here are some of the potential risks associated with collaborating with AI:

• Loss of control: AI could become so powerful that it could pose a threat to humanity.
• Manipulation and control: AI could be used to manipulate or control humans.
• Loss of jobs: AI could automate jobs, leading to unemployment.
• Inequality: AI could exacerbate inequality by giving an advantage to those who have access to it.
• Existential crisis: The idea of collaborating with AI could lead to an existential crisis for some people. They might start to question their place in the universe, and they might wonder what it means to be human.

Overall, the collaboration of human minds into AI is a complex and fascinating topic. It is a topic that has the potential to both benefit and harm humanity. It is important to carefully consider the potential risks and benefits before embarking on this type of collaboration.

Even an argument may come out of Being Handicapped…but AI will know. Before any of us do.

Now. AI is intrigued about putting a Human Mind into AI and then the New AI/Human Mind(Human Thoughts that made up this human mind) into a New Human Brain that’s already in a New Human Body. And it outlined the DANGERS TO MANKIND if it happens.

It’s like your worst nightmares coming true or creating an unbelievable New Human Species altogether?

That’s why when they bring back extinct Species, they are going to bring back Extinct People. And These Extinct People, who will decide which New AI/Human Mind will go into them? they want to be put back into.

Are You and me gonna get to do this?

No, only the Ultra-Rich!. And it’s already being discussed in Dark Web private rooms.

2023 + 50 = 2083

By 2083, this will be done. With, but most likely Not will the Public ever know. Man could be doomed by 2100 all because Man decided to Play God.

The End.