Science Snapshots: COVID-19, power outages, Alzheimer's disease, and optical antennas

March Science Snapshots from Berkeley Lab
Lawrence Berkeley National Laboratory

Solving a Genetic Mystery at the Heart of the COVID-19 Pandemic

As the COVID-19 pandemic enters its second year, scientists are still working to understand how the new strain of coronavirus evolved, and how it became so much more dangerous than other coronaviruses, which humans have been living alongside for millennia.

Virologists and epidemiologists worldwide have speculated for months that a protein called ORF8 likely holds the answer, and a recent study by Berkeley Lab scientists has helped confirm this hypothesis.

In a paper published in mBio, lead author Russell Neches and his colleagues show that ORF8 evolved from another coronavirus protein called ORF7a, and that both proteins have folds similar to that of a human antibody. This finding helps to explain how the virus avoids immune detection and is able to escalate into a severe infection in some hosts.

“By exploring the structural and functional characteristics of ORF8, and using supercomputers to look at the genomes of over 200,000 viruses, we discovered a striking and highly unusual evolutionary strategy,” said co-author Nikos Kyrpides, a computational biologist at the DOE Joint Genome Institute (JGI). “Amazingly, it seems that within the SARS clade, the gene encoding ORF7a is used as a ‘template’ gene, remaining stable, with a duplicate copy of this gene evolving to a point almost beyond recognition.” SARS-CoV-2 arose and exploded into a pandemic when a SARS strain’s duplicate ORF7a gene happened to mutate leading to a new protein (which we now call ORF8) that gave it the ability to interfere with immune cells.

According to the team, a similar event occurred in the SARS-CoV strain that caused the SARS epidemic in the early 2000s. In that instance, a copy of the ORF7a gene split into two, resulting in ORF8a and ORF8b proteins.

Christos Ouzounis, senior author of the study and a JGI affiliate scientist, noted that the connection between ORF8 and ORF7a was initially quite difficult to make, due to how little was known about this set of genes and their encoded proteins compared with the existing knowledge about surface proteins (such as the infamous spike protein), and because ORF8 and ORF7a currently seem wildly different. ORF7a is highly stable, mutation resistant protein that interacts with very few mammalian host proteins, whereas ORF8 is encoded by the most mutation prone gene in the viral genome, and is now known to be involved in dozens of interactions in the human body.

“Our findings – and their confirmation by parallel sequence and structure studies – reveal ORF8 to be an evolutionary hotspot in the SARS lineage. The lack of knowledge about the role of these genes has diverted attention to the more well-understood genes, but we now know more about this gene and hopefully it will receive more attention from the community,” said Kyrpides.

This work was supported by the ExaBiome Project, a Berkeley Lab-led collaboration which develops supercomputing tools for microbiome analysis. JGI is an Office of Science user facility.

Assessing the Costs of Major Power Outages

Little is known about the full impact of widespread, long duration power interruptions, especially the indirect costs and related economy-wide impacts of these events. As a result, the costs of such power interruptions are generally not or only incompletely considered in utility planning activities.

A new Berkeley Lab report titled “A Hybrid Approach to Estimating the Economic Value of Enhanced Power System Resilience” describes a new approach for estimating the economic costs of widespread, long duration power interruptions, such as the one that occurred recently in Texas. This hybrid method involves using survey responses from utility customers to calibrate a regional economic model that is able to estimate both the direct and indirect costs of these events.

"We believe that this paper is an important breakthrough for researchers interested in estimating the full economic impact of widespread, long duration power disruptions,” said Berkeley Lab researcher Peter Larsen.

A second report, titled “Case Studies of the Economic Impacts of Power Interruptions and Damage to Electricity System Infrastructure from Extreme Events,” analyzes in detail the economics of power interruptions caused by extreme weather. The researchers examined the effects of Hurricane Harvey in Texas, wildfires in California, and four other extreme events; they found that even years after the events, utility companies had a clear picture of the costs of physical repairs but had not tallied the human and societal costs of the outages. (Researchers from the University of Texas at Austin were co-authors of this report; read their news release about the report here.)

“Our research shows that utilities, regulators, and other stakeholders rarely, if ever, account for the direct and indirect costs of power disruptions in their decision-making,” Larsen said.

Location, Location, Location: Regional Tau Deposits in Healthy Elders Predict Alzheimer's Disease

Subtle memory deficits are common in normal aging as well as Alzheimer disease (AD), the leading cause of dementia in older adults. This makes AD difficult to diagnose in its early stages. As there is currently no effective treatment to slow or stop the progression of AD, it is important to identify early pathological brain changes, which can start decades before people show symptoms, and then trace the effects that lead to cognitive decline.

Xi Chen and her colleagues in Bill Jagust’s research group at Berkeley Lab recently published a study in the Journal of Neuroscience that provides some clarification of the differences between normal aging and AD brains, and elucidates the transition from the former to the latter.

Using positron emission tomography (PET) imaging, they measured levels of tau and beta amyloid (Aß) – two critical biomarkers of AD – in cognitively normal older adults, and then followed them for several years for prospective cognition assessment. Their findings revealed new insight into tau, a protein that helps stabilize the internal skeleton of neurons in its normal form, but becomes unstable and can interfere with neuron functioning when aggregated. Aggregated tau deposits in the entorhinal cortex, a major part of the memory system, likely reflect normal, age-related memory impairment. However, tau deposits in anterior temporal regions of the brain – responsible for our knowledge of objects, people, words, and facts – were most predictive of AD-related impairment. The finding supports a model of early AD pathology proposed by the researchers whereby tau spreads from the entorhinal cortex to anterior temporal regions facilitated by amyloid.

The team suggests that the presence of tau aggregates in anterior temporal regions could be used as a marker of early disease progression.

New Optical Antennas Could Overcome Data Limits

Researchers at Berkeley Lab and UC Berkeley have found a new way to harness properties of lightwaves that can radically increase the amount of data they carry. They demonstrated the emission of discrete twisting laser beams from antennas made up of concentric rings roughly equal to the diameter of a human hair, small enough to be placed on computer chips. 

The new work, reported in a paper published Feb. 25 in the journal Nature Physics, throws wide open the amount of information that can be multiplexed, or simultaneously transmitted, by a coherent light source. A common example of multiplexing is the transmission of multiple telephone calls over a single wire, but there had been fundamental limits to the number of coherent twisted lightwaves that could be directly multiplexed.

“It’s the first time that lasers producing twisted light have been directly multiplexed,” said senior author Boubacar Kanté, a faculty scientist in Berkeley Lab’s Materials Sciences Division and the Chenming Hu Associate Professor in UC Berkeley’s Department of Electrical Engineering and Computer Sciences. “We’ve been experiencing an explosion of data in our world, and the communication channels we have now will soon be insufficient for what we need. The technology we are reporting overcomes current data capacity limits through a characteristic of light called the orbital angular momentum. It is a game-changer with applications in biological imaging, quantum cryptography, high-capacity communications and sensors.” 

Read the full UC Berkeley release here.

SEE ORIGINAL STUDY

MEDIA CONTACT
Register for reporter access to contact details
CITATIONS

mBIO, Jan-19-2021; Journal of Neuroscience; Nature Physics



Filters close

Showing results

110 of 5849
13-Jun-2021 12:05 PM EDT
COVID-19 Pandemic Drinking: Increases Among Women, Black Adults, and People with Children
Research Society on Alcoholism

Risky drinking has been a public health concern in the U.S. for decades, but the significant increase in retail alcohol sales following COVID-19 pandemic stay-at-home orders in particular raised red flags for alcohol researchers. New research has assessed changes in alcohol drinking patterns from before to after the enactment of stay-at-home orders. These results and others will be shared at the 44th annual scientific meeting of the Research Society on Alcoholism (RSA), which will be held virtually this year from the 19th - 23rd of June 2021 due to the COVID-19 pandemic.

13-Jun-2021 1:05 PM EDT
The Impact of the COVID-19 Pandemic on Alcohol Consumption Is Far From ‘One Size Fits All’
Research Society on Alcoholism

An ongoing analysis of the effects of the COVID-19 pandemic on alcohol and related outcomes shows that COVID-related stressors experienced by study participants – including work-, financial-, and family-related stressors – are having a varied impact on individuals with and without alcohol use disorders (AUDs). These results will be shared at the 44th annual scientific meeting of the Research Society on Alcoholism (RSA), which will be held virtually this year from the 19th - 23rd of June 2021 due to the COVID-19 pandemic.

Newswise:Video Embedded newswise-expert-panels-on-covid-19-pandemic-notable-excerpts-quotes-and-videos-available
VIDEO
Released: 18-Jun-2021 2:10 PM EDT
Newswise Expert Panels on COVID-19 Pandemic: Notable excerpts, quotes and videos available
Newswise

Newswise is hosting a series of Expert Panels discussion on unique aspects of the COVID-19 pandemic. This tip sheet includes some notable quotes from the panelists.

access_time Embargo lifts in 2 days
Embargo will expire: 23-Jun-2021 8:00 AM EDT Released to reporters: 18-Jun-2021 11:00 AM EDT

A reporter's PressPass is required to access this story until the embargo expires on 23-Jun-2021 8:00 AM EDT The Newswise PressPass gives verified journalists access to embargoed stories. Please log in to complete a presspass application. If you have not yet registered, please Register. When you fill out the registration form, please identify yourself as a reporter in order to advance to the presspass application form.

Newswise:Video Embedded virtual-event-for-june-17-11am-edt-covid-19-vaccines-and-male-fertility
VIDEO
Released: 18-Jun-2021 8:55 AM EDT
VIDEO AND TRANSCRIPT AVAILABLE: Vaccines and Male Fertility Event for June 17, 2021
Newswise

This upcoming JAMA-published study examined whether the COVID-19 vaccine impacts male fertility.

access_time Embargo lifts in 2 days
Embargo will expire: 22-Jun-2021 11:00 AM EDT Released to reporters: 18-Jun-2021 8:30 AM EDT

A reporter's PressPass is required to access this story until the embargo expires on 22-Jun-2021 11:00 AM EDT The Newswise PressPass gives verified journalists access to embargoed stories. Please log in to complete a presspass application. If you have not yet registered, please Register. When you fill out the registration form, please identify yourself as a reporter in order to advance to the presspass application form.

Released: 18-Jun-2021 7:05 AM EDT
Teamwork saves lives: COVID-19 hospital network shares key findings to improve care
Michigan Medicine - University of Michigan

Data sharing among 40 Michigan hospitals about the care and outcomes for thousands of inpatients with COVID-19 has led to reduced variation and findings that could inform care anywhere, including approaches for preventing blood clots and reducing overuse of antibiotics, as well as a risk prediction tool.

Released: 18-Jun-2021 7:05 AM EDT
One-third of older Americans delayed health care over COVID concerns
Michigan Medicine - University of Michigan

Nearly one in three Americans between the ages of 50 and 80 put off an in-person appointment for medical care in 2020 because they were worried about exposure to the novel coronavirus, new national poll data show.

Released: 17-Jun-2021 4:15 PM EDT
UNC Researchers Lead Study of Diabetes Treatment of COVID-19 Patients
University of North Carolina School of Medicine

Diabetes is one of the comorbidities most strongly associated with severe COVID-19 in the US, and data from early in the pandemic suggested individuals with type 2 diabetes faced twice the risk of death from COVID-19 and a greater risk of requiring hospitalization and intensive care. A new study shows best treatment options.

Released: 17-Jun-2021 4:10 PM EDT
Vaccination, Previous Infection, Protect Against COVID-19 gamma/P.1 Variant in Animal Model
University of Wisconsin-Madison

In a new study using variant virus recovered from one of the original travelers, researchers in the U.S. and Japan have found that vaccination with an mRNA vaccine induces antibody responses that would protect humans from infection with the gamma/P.1 variant.


Showing results

110 of 5849

close
1.63443