Predicting how proteins bind to other molecules could revolutionize biochemistry, drug discovery.
Now, however, astronomers Fan Zou and W. Niel Brandt, both of Penn State University, have led a team that connected the two mechanisms of black-hole growth from observations and simulations. The results may provide some answers at last.
Related: NASA telescope spots ‘cosmic fireworks’ and faint echos from the Milky Way’s supermassive black hole
“A very big question is how do these supermassive black holes grow so massive?” said Zou while presenting their work at the 244th meeting of the American Astronomical Society in Wisconsin… “To address that, we need to track the overall growth history of these supermassive black holes.”
The authors of a new study were able to order all the synthetic genes necessary to reconstruct the 1918 pandemic influenza virus. Do their findings represent a security flaw in a critical area of biotechnology?
Chinese scientists have made a groundbreaking milestone in nuclear fusion. They have announced a major achievement in discovering an advanced magnetic field structure “for the first time in the world” using the Huanliu-3 (HL-3) tokamak, also known as China’s “artificial sun.”
The discovery is the result of the first round of international joint experiments conducted on the HL-3 tokamak, a project that opened to global collaboration at the end of 2023.
A group of researchers have identified at least seven stars that might be surrounded by advanced alien mega-structures known as “dyson spheres.” NBC News’ Ellison Barber speaks with Janna Levin, a professor of physics and astronomy at Barnard College, about the findings and whether the truth is out there.
This is a talk on our recent preprint & database paper A neuroimaging dataset during sequential color qualia similarity judgments with and without reports By Takahiro Hirao, Mitsuhiro Miyamae, Daisuke Matsuyoshi, Ryuto Inoue, Yuhei Takado, Takayuki Obata, Makoto Higuchi, Naotsugu Tsuchiya, Makiko Yamada bioRxiv 2024.05.16.594267; doi: https://doi.org/10.1101/2024.05.16.59…
Most distant spacecraft, #Voyager1, is now returning data from all four science instruments for the first time following a technical issue last November.
NASA’s Voyager 1 spacecraft is conducting normal science operations for the first time following a technical issue that arose in November 2023.
The team partially resolved the issue in April when they prompted the spacecraft to begin returning engineering data, which includes information about the health and status of the spacecraft. On May 19, the mission team executed the second step of that repair process and beamed a command to the spacecraft to begin returning science data. Two of the four science instruments returned to their normal operating modes immediately. Two other instruments required some additional work, but now, all four are returning usable science data.
The four instruments study plasma waves, magnetic fields, and particles. Voyager 1 and Voyager 2 are the only spacecraft to directly sample interstellar space, which is the region outside the heliosphere — the protective bubble of magnetic fields and solar wind created by the Sun.
Colin Jacobs, PhD, assistant professor in the Department of Medical Imaging at Radboud University Medical Center in Nijmegen, The Netherlands, and Kiran Vaidhya Venkadesh, a second-year PhD candidate with the Diagnostic Image Analysis Group at Radboud University Medical Center discuss their 2021 Radiology study, which used CT images from the National Lung Cancer Screening Trial (NLST) to train a deep learning algorithm to estimate the malignancy risk of lung nodules.
The bird flu crisis on dairy farms could boost interest in milk protein manufactured in microorganisms and plants.
To better treat and prevent depression, we need to understand more about the brains and bodies in which it occurs.
Curiously, a handful of studies have identified links between depressive symptoms and body temperature, yet their small sample sizes have left too much room for doubt.
In a more recent study published in February, researchers led by a team from the University of California San Francisco (UCSF) analyzed data from 20,880 individuals collected over seven months, confirming that those with depression tend to have higher body temperatures.