Comment

Comment by Dr. Krishna Kumari Challa on Saturday

To understand why some duplicated genomes  persist, researchers analyzed the genomes of 470 species of flowering plants, constructing one of the largest datasets of its kind. They looked for blocks of genes that appear in almost identical pairs—a marker of past whole-genome duplication events. Then, they compared the data with information from 44 plant fossils to estimate when these duplications occurred.

Their analysis revealed a striking pattern. The researchers found that the genes that persist over time tend to originate from whole-genome duplications during major periods of environmental upheaval.

These include the asteroid-triggered mass extinction 66 million years ago, several periods of global cooling when ecosystems collapsed, and the Paleocene-Eocene Thermal Maximum (PETM) about 56 million years ago—a period of rapid global warming.

The findings help explain a long-standing puzzle of why polyploidy is common, but only a few persevere in plant genomes over millions of years.
Under these extreme conditions, polyploid plants might have gained an edge. Traits that are normally disadvantageous, such as maintaining a larger and more complex genome, can become beneficial, say the researchers.

The Rise of Polyploids During Environmental Upheaval, Cell (2026). DOI: 10.1016/j.cell.2026.04.008. www.cell.com/cell/fulltext/S0092-8674(26)00397-1

Part 2

Comment by Dr. Krishna Kumari Challa on Saturday

Plants survived the dinosaur-killing asteroid by duplicating genomes, study suggests

When an asteroid as big as Mount Everest struck Earth 66 million years ago, it wiped out all non-avian dinosaurs and roughly a third of life on the planet. But many plants survived the devastation. In a new study published in Cell, researchers reveal that the accidental duplications of genomes—a natural phenomenon—might have helped many flowering plants survive some of the most extreme environmental upheavals in Earth's history.

This strategy could help plants adapt to the rapid climate changes unfolding today.

Whole-genome duplication is often seen as an evolutionary dead end in stable environments. But in harsh situations, it can provide unexpected advantages.

Most organisms carry two sets of chromosomes, one from each parent. But in flowering plants, many species carry additional sets as a result of random whole-genome duplication. For example, most cultivated bananas have three sets of chromosomes while wheat plants can have as many as six, a condition known as polyploidy.
Whole-genome duplication occurs relatively frequently in plants, and it can be costly. Larger genomes require more nutrients to maintain, increase the risk of acquiring harmful mutations, and affect fertility. For these reasons, only a small fraction of duplicated genomes are retained and passed down through generations in the wild.

On the other hand, genome duplications can increase genetic variations, and genes can evolve new functions. These changes may help organisms better tolerate stress such as heat or drought.

Part 1

Comment by Dr. Krishna Kumari Challa on Friday

Anaesthetized people can process words

A deep brain structure called the hippocampus can learn and process language even when a person is under general anaesthesia. A probe that can record the activity of individual neurons in real time detected the region responding to the speech in a podcast and learning how to differentiate different tones. That doesn’t mean anaesthetized people are ‘secretly awake’ — just that this one structure, the hippocampus, computes and integrates information even under anaesthesia.

https://www.nature.com/articles/s41586-026-10448-0?utm_source=Live+...

Comment by Dr. Krishna Kumari Challa on Friday

The 'nostalgia effect': Scientists produce less disruptive work as they age
As scientists age, their work shifts from producing disruptive innovations to creating novel combinations of existing ideas, with a tendency to cite older research. This "nostalgia effect" is transmitted through academic hierarchies, influencing younger researchers and shaping the direction of entire fields and nations. Countries with younger research communities generate more disruptive science, highlighting the importance of balancing continuity with the influx of new ideas.

Haochuan Cui et al, Aging and the narrowing of scientific innovation, Science (2026). DOI: 10.1126/science.ady8732

Comment by Dr. Krishna Kumari Challa on Friday

Evidence review finds aluminum-adjuvant vaccines not tied to autism, asthma or type 1 diabetes

Current evidence does not support direct (causal) associations between aluminum-adjuvant vaccines and serious or long-term health outcomes, including autism, diabetes and asthma, finds a review of the latest data published by The BMJ.
Current evidence from randomized controlled trials and large observational studies shows no causal association between aluminum-adjuvant vaccines and serious or long-term health outcomes, including autism, type 1 diabetes, asthma, or myalgia. The most common adverse reactions are rare, localized, and self-limited injection site nodules or granulomas.
Small amounts of aluminum salts (adjuvants) are commonly used in vaccines against diphtheria, tetanus, pertussis (whooping cough), hepatitis, HPV, and meningitis to make them more effective and longer-lasting. Yet, despite a decades-long safety record, questions about potential long-term effects continue to arise in scientific and public settings.

To address this, researchers searched scientific databases to identify randomized controlled trials and observational studies published up to 27 November 2025 that assessed health outcomes after exposure to aluminum adjuvants included in vaccines.

They found 59 eligible studies that investigated a range of outcomes including autism, asthma, headache, muscle pain (myalgia), and skin reactions (nodules and granulomas) at the injection site. Studies of investigational vaccines were excluded, as their findings are not directly applicable to existing immunization programs.

The studies were of varying quality, but the researchers were able to assess their risk of bias and certainty of evidence using established tools.

High quality evidence from randomized controlled trials and large observational studies consistently showed no association between aluminum-adjuvanted vaccines and health outcomes, including autism, type 1 diabetes, asthma, and myalgia.
The most consistently documented reactions were persistent nodules or granulomas at the injection site, but they were uncommon, local, and self-limited.

Aluminium adjuvants in vaccines and potential health effects: systematic review, The BMJ (2026). DOI: 10.1136/bmj-2025-088921

Comment by Dr. Krishna Kumari Challa on Friday

Cancer cells are better able to resist treatments when they have an abnormal number of chromosomes
Cancer cells with abnormal chromosome numbers (aneuploidy) exhibit reduced levels of PARP1 protein, impairing a cell death pathway triggered by oxidative DNA damage and enhancing resistance to treatment-induced stress. This mechanism enables aneuploid cancer cells to survive and spread more effectively, with metastatic tumors showing lower PARP1 levels than primary tumors.

Pan Cheng et al, PARP1 suppression drives ROS resistance in aneuploid cancer cells, Molecular Cell (2026). DOI: 10.1016/j.molcel.2026.04.006

Comment by Dr. Krishna Kumari Challa on Friday

New study challenges the inevitability of cognitive decline and proves that brain gain is possible at any age

A study recently published in Scientific Reports reveals that cognitive decline is not an inevitable part of aging.
Longitudinal data from nearly 4,000 adults aged 19–94 show that cognitive performance can improve at any age through consistent, targeted brain-healthy practices. Gains were observed across all baseline levels, with the greatest improvements in those starting with lower scores, and no upper limit to brain health optimization was detected. Small, daily interventions correlated with higher brain health scores, and improvements were consistent across age groups, indicating that cognitive decline is not inevitable. Brain health was also shown to be resilient and trainable, even during major life stressors.
Key research findings:

No ceiling for improvement: Significant gains in brain health were observed across the board. Even top-tier performers continued to improve over 1,000 days, suggesting there is no known limit to brain optimization.
The low-starter advantage: Participants who entered the study with the lowest baseline scores demonstrated the most significant rates of improvement, demonstrating that poor brain health is not a life sentence.
Small habit changes make a big difference: Gains were directly correlated with consistency of utilization. Participants who engaged the most in 5 to 15 minutes of daily micro-training and adopted brain-healthy habits in their everyday lives achieved the highest brain health scores.
Universal potential at any age: Younger adults saw gains equal to those in their 70s and 80s, debunking the myth that proactive brain health is only for seniors.

Lori G. Cook et al, Measuring and increasing the brain health span across adulthood: a public health imperative, Scientific Reports (2026). DOI: 10.1038/s41598-026-51403-3

Comment by Dr. Krishna Kumari Challa on Friday

Hidden sex differences may explain why lupus strikes women far more often

Analysis of over 1.25 million immune cells from nearly 1,000 individuals identified more than 1,000 sex-specific genetic switches, primarily on autosomes, that regulate immune cell activity differently in males and females. Females showed higher inflammatory pathway activity, linked to increased autoimmune disease risk, including lupus, while males had more monocytes and less inflammatory priming. These findings highlight the need for sex-specific approaches in autoimmune disease research and treatment.

https://medicalxpress.com/news/2026-05-hidden-sex-differences-lupus...

Comment by Dr. Krishna Kumari Challa on Friday

Ultrasound waves rupture COVID-19 and flu viruses without damaging cells

Researchers have discovered that high-frequency ultrasound waves similar to those used in medical exams can eliminate viruses such as SARS-CoV-2 and H1N1 without damaging human cells. In an article published in Scientific Reports, they describe how the phenomenon, known as acoustic resonance, causes structural changes in viral particles until they rupture and become inactivated.
By degrading the structure of the pathogen, the protective membrane of the virus called the envelope bursts and deforms, preventing the virus from invading human cells

High-frequency ultrasound waves (3–20 MHz) induce acoustic resonance in spherical, enveloped viruses such as SARS-CoV-2 and H1N1, causing structural rupture and inactivation without damaging human cells. The effect is geometry-dependent and not influenced by viral mutations. This selective mechanism offers a potential antiviral strategy distinct from existing decontamination methods.
Ultrasound-mediated inactivation of enveloped viruses opens up a new treatment possibility for viral diseases.
The discovery surprised the researchers because it contradicts classical physics theories, as the wavelength of ultrasound is much longer than the size of the virus. In theory, this difference in size would prevent interaction.

The phenomenon is entirely geometric. Spherical particles, such as many enveloped viruses, absorb ultrasound wave energy more effectively. It's that accumulation of energy inside the particle that causes changes in the structure of the viral envelope until it ruptures. Therefore, if viruses were triangular or square, they wouldn't undergo the same 'popcorn effect' of acoustic resonance.
Since the process depends strictly on the shape of the viral particle and not on genetic mutations, variants such as those observed during the pandemic (omicron and delta, for example) do not affect the effectiveness of the technique.

Flavio P. Veras et al, Ultrasound effectively destabilizes and disrupts the structural integrity of enveloped respiratory viruses, Scientific Reports (2026). DOI: 10.1038/s41598-026-37584-x

Naruna E. Rodrigues et al, Trapped Acoustic Energy and Resonances in Spherical Scatterers, Brazilian Journal of Physics (2026). DOI: 10.1007/s13538-026-02020-y

Comment by Dr. Krishna Kumari Challa on Friday

Crash data reveal women face 60% higher injury risk than men

Women have a 60% higher risk of injury in car accidents compared to men, with the disparity especially pronounced among female passengers and older women. Current vehicle safety systems and test standards, based on male body models, inadequately protect women due to anatomical and biomechanical differences. Recommendations include developing adaptive safety systems, using more realistic human models in testing, and improving occupant education on proper seat and belt positioning.

https://www.bmimi.gv.at/verkehrssicherheit/beratung-foerderung/vsf/...

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