NASA’s Planet-Hunting TESS Reveals Dazzling Night Sky - UNIVERSE

NASA’s TESS (Transiting Exoplanet Survey Satellite) has released its most complete view of the starry sky to date, filling in gaps from previous observations. Nearly 6,000 colored dots scattered across the image show the locations of either confirmed or candidate exoplanets — worlds beyond our solar system — identified by the mission as of September 2025 at the end of TESS’s second extended mission.

“Over the last eight years, TESS has become a fire hose of exoplanet science,” said Rebekah Hounsell, a TESS associate project scientist at the University of Maryland Baltimore County and NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “It’s helped us find planets of all different sizes, from tiny Mercury-like ones to those larger than Jupiter. Some of them are even in the habitable zone, where liquid water might be possible on the surface, an important factor in our search for life beyond Earth.”

The TESS mission scans a wide swath of the sky, called a sector, for about a month at a time using its four cameras. These long stares allow the spacecraft to track the brightness changes of tens of thousands of stars, looking for variations in their light that might come from orbiting planets.

Researchers assembled an all-sky mosaic made of 96 sectors observed between April 2018, when TESS began its work, and September 2025.

This view of the whole sky was constructed from 96 TESS sectors. By the end of September 2025, when the last image of this mosaic was captured, TESS had discovered 679 exoplanets (blue dots) and 5,165 candidates (orange dots). The glowing arc running through the center is the plane of the Milky Way. The Large Magellanic Cloud can be seen along the bottom edge just left of center. Black areas within the oval indicate regions TESS has not yet imaged.

NASA/MIT/TESS and Veselin Kostov (University of Maryland College Park)

The blue dots in the image mark the locations of nearly 700 confirmed planets, as of September 9. This menagerie includes worlds that may be covered by volcanoes, are being destroyed by their stars, or orbit two stars — experiencing double sunrises and sunsets each day. The orange dots represent more than 5,000 candidate planets that are awaiting verification.

To date, scientists have confirmed over 6,270 exoplanets using missions like TESS, NASA’s retired Kepler Space Telescope, and other facilities.

Also captured in the mosaic is the bright plane of our Milky Way galaxy, seen as a glowing arc through the center. The bright white ovals in the lower left are the Large and Small Magellanic Clouds. These satellite galaxies are located 160,000 and 200,000 light-years away, respectively.

“The more we dig into the large TESS dataset, especially using automated algorithms, the more surprises we find,” said Allison Youngblood, the TESS project scientist at NASA Goddard. “In addition to planets, TESS has helped us study rivers of young stars, observe dynamic galactic behavior, and monitor asteroids near Earth. As TESS fills in more of the night sky, there’s no knowing what it might see next.”

You could discover the next exoplanet! Join the Planet Hunters TESS citizen science project, and you’ll learn how to read light curves — plots of light data from distant stars — to find telltale signals from orbiting exoplanets.

By Jeanette Kazmierczak
NASA’s Goddard Space Flight Center, Greenbelt, Md. 

Source: NASA’s Planet-Hunting TESS Reveals Dazzling Night Sky - NASA Science  

Your Gut Is Secretly Reprogramming Your Appetite, And Scientists Just Found Out How

Have you ever craved a steak or a handful of nuts after a few days of eating mostly bread and pasta? It turns out that craving is not just willpower or habit, it is your gut talking directly to your brain, and a new study published in Science has finally mapped out exactly how that conversation happens.

The Hidden Alarm System Inside Your Gut

A team of researchers led by Director Suh Seong-Bae at the Institute for Basic Science (IBS), working with scientists from Seoul National University and Ewha Womans University, has uncovered a previously unknown gut-brain signaling network that kicks in the moment your body runs low on protein.

The key player is a small peptide hormone called CNMamide (CNMa). When your diet lacks sufficient essential amino acids,  the building blocks of protein that your body cannot produce on its own,  specialized cells lining the gut ramp up production of CNMa. What happens next is surprisingly sophisticated.

Two Pathways, One Goal: Get You to Eat Protein

The researchers discovered that CNMa triggers not one but two complementary communication routes between the gut and the brain:

The fast lane (neural): CNMa activates enteric neurons in the gut wall, which relay a rapid signal through a direct gut-brain neural pathway. The brain gets the message almost immediately: find protein.

The slow lane (hormonal): CNMa also enters the bloodstream and travels as a circulating hormone, reaching the brain more gradually and sustaining the drive to seek out essential amino acids over a longer period.

Together, these two routes work like a two-stage alarm,  a quick alert followed by a persistent reminder,  ensuring the body doesn’t just notice a protein deficit but actually acts on it.

It Doesn’t Just Make You Hungrier,  It Changes What You Want

Perhaps the most striking finding is that this system doesn’t simply increase overall appetite. Instead, it reshapes cravings in a very targeted way. CNMa suppresses the activity of sugar-sensing neurons in the brain (called DH44 neurons), effectively turning down the appeal of carbohydrates while turning up the desire for protein-rich foods.

In other words, when you are protein-deficient, your brain is being actively nudged away from the cookie jar and toward the chicken breast. This is not a vague feeling,  it is a neurochemical redirect.

The Microbiome Is Also in on It

The study added another layer of complexity: gut bacteria appear to modulate the whole process. Fruit flies without their normal gut microbiome showed much stronger activation of amino acid-seeking brain circuits, suggesting that a healthy microbiome helps keep protein appetite in check by contributing to nutrient availability. Disrupt the microbiome, and the hunger signal gets louder.

It Works in Mammals Too

The experiments were conducted primarily in Drosophila fruit flies, a classic model for studying neural circuits. But the team also tested mice, and found the same protein-seeking behavior when animals were deprived of essential amino acids.

Interestingly, even mice that lacked FGF21,  a hormone long thought to be the main driver of protein appetite in mammals,  still showed strong amino acid-seeking behavior. This suggests that the body has backup systems for nutrient sensing that science has not yet fully catalogued.

Why This Matters Beyond the Lab

Understanding how the gut and brain communicate about specific nutrients has real implications for how we think about obesity, metabolic disease, and eating disorders. Most appetite-suppressing drugs currently on the market work by interfering with gut hormone signaling in a fairly blunt way. This research reveals a much more precise layer of the system,  one that targets specific macronutrient hunger rather than hunger in general.

As Director Suh put it, the gut is not just a digestive organ. It is an active sensory system that continuously monitors the body’s nutritional state and issues behavioral instructions accordingly. Knowing the exact molecular signals involved opens the door to far more targeted therapies.

Next time you find yourself inexplicably craving eggs or cheese, you might just be listening to your gut, quite literally. 

Original paper: Boram Kim et al., “Complex interplay of neuronal and hormonal gut-brain responses to essential amino acid deficit,” Science, 2026. https://www.science.org/doi/10.1126/science.adv3355 

Source: Your Gut Is Secretly Reprogramming Your Appetite, And Scientists Just Found Out How – Scents of Science