Googles AI co-scientist is based on the firms Gemini large language modelsRaa/NurPhoto/ShutterstockGoogle has unveiled an experimental artificial intelligence system that uses advanced reasoning to help scientists synthesize vast amounts of literature, generate novel hypotheses, and suggest detailed research plans, according to its press release. The idea with [the] AI co-scientist is to give scientists superpowers, says Alan Karthikesalingam at Google.The tool, which doesnt have an official name yet,builds on Googles Gemini large language models. When a researcher asks a question or specifies a goal to find a new drug, say the tool comes up with initial ideas within 15 minutes. Several Gemini agents then debate these hypotheses with each other, ranking them and improving them over the following hours and days, says Vivek Natarajan at Google. AdvertisementDuring this process, the agents can search the scientific literature, access databases and use tools such as Googles AlphaFold system for predicting the structure of proteins. They continuously refine ideas, they debate ideas, they critique ideas, says Natarajan.Google has already made the system available to a few research groups, which have released short papers describing their use of it. The teams that tried it are enthusiastic about its potential, and these examples suggest the AI co-scientist will be helpful for synthesising findings. However, it is debatable whether the examples support the claim that the AI can generate novel hypotheses.For instance, Google says one team used the system to find new ways of potentially treating liver fibrosis. However, the drugs proposed by the AI have previously been studied for this purpose. The drugs identified are all well established to be antifibrotic, says Steven OReilly at UK biotech company Alcyomics. There is nothing new here. The latest science news delivered to your inbox, every day.Sign up to newsletterWhile this potential use of the treatments isnt new, team member Gary Peltz at Stanford University School of Medicine in California says two out of three drugs selected by the AI co-scientist showed promise in tests on human liver organoids, whereas neither of the two he personally selected did despite there being more evidence to support his choices. Peltz says Google gave him a small amount of funding to cover the costs of the tests.In another paper, Jos Penads at Imperial College London and his colleagues describe how the co-scientist proposed a hypothesis matching an unpublished discovery. He and his team study mobile genetic elements bits of DNA that can move between bacteria by various means. Some mobile genetic elements hijack bacteriophage viruses. These viruses consist of a shell containing DNA plus a tail that binds to specific bacteria and injects the DNA into it. So, if an element can get into the shell of a phage virus, it gets a free ride to another bacterium.One kind of mobile genetic element make its own shells. This type is particularly widespread, which puzzled Penads and his team, because any one kind of phage virus can infect only a narrow range of bacteria. The answer, they recently discovered, is that these shells can hook up with the tails of different phages, allowing the mobile element to get into a wide range of bacteria.While that finding was still unpublished, the team asked the AI co-scientist to explain the puzzle and its number one suggestion was stealing the tails of different phages.We were shocked, says Penads. I sent an email to Google saying, you have access to my computer. Is that right? Because otherwise I cant believe what Im reading here.However, the team did publish a paper in 2023 which was fed to the system about how this family of mobile genetic elements steals bacteriophage tails to spread in nature. At the time, the researchers thought the elements were limited to acquiring tails from phages infecting the same cell. Only later did they discover the elements can pick up tails floating around outside cells, too.So one explanation for how the AI co-scientist came up with the right answer is that it missed the apparent limitation that stopped the humans getting it.What is clear is that it was fed everything it needed to find the answer, rather than coming up with an entirely new idea. Everything was already published, but in different bits, says Penads. The system was able to put everything together.The team tried other AI systems already on the market, none of which came up with the answer, he says. In fact, some didnt manage it even when fed the paper describing the answer. The system suggests things that you never thought about, says Penads, who hasnt received any funding from Google. I think it will be game-changing.Whether it really is game-changing will become clearer over time. Googles track record when it comes to claims about AI tools to help scientists is mixed. Its AlphaFold system is living up to the hype, winning the team behind it a Nobel prize last year.In 2023, however, the company announced thataround 40 new materials had been synthesised with the help of its GNoME AI. Yet, according to a 2024 analysis by Robert Palgrave at University College London, not one of the synthesised materials was actually new.Despite his findings, Palgrave thinks AI can help scientists. In general, I think AI has a huge amount to contribute to science if it is implemented in collaboration with experts in the respective fields, he says.Topics:Google