A recent paper published in Science has highlighted the changing fitness effects of mutations through long-term bacterial evolution. The study has gained attention for exemplifying the success of collaborative science, as two groups initially working independently joined forces to produce this significant research. The paper has been praised for demonstrating how civility, cooperation, and collaboration can thrive in the competitive world of science. The work has also been acknowledged by Nature and covered in Cell Metabolism, with commendations for its insights into evolution and scientific cooperation.
This is an awesome paper that teaches us a lot not only about evolution (and its predictability) but also about scientific cooperation. A must-read! 👇 https://t.co/dOTIfeUkEN
Thanks @Nature for covering this exciting work from Haiping Hao & colleagues published in @Cell_Metabolism Read the paper here 🔗https://t.co/81e9o3s0E8 https://t.co/GlTfpTR9mF
Another win for preprints and collaborative science. See the thread for more details on how 2 groups, who started out working independently, came together for this cool Science paper! https://t.co/7p0PYrCAEK
And here's another take on our new paper in Science, with an emphasis on "how civility, cooperation, and collaboration can succeed even in the highly competitive world of science." https://t.co/killtg9su8 @baym @ten_olivier @EvolSys @anuraglimdi https://t.co/RG32EeVSpk https://t.co/VsZxOqq8JT
This is a lovely piece of work from @baym et al - Changing fitness effects of mutations through long-term bacterial evolution https://t.co/sWMiWmtX1m