Texas burger spot takes bite out of innovative, eco-friendly initiative

sustainable eating

Did you know that you can order an eco-conscious burger in Houston? Photo courtesy of Hopdoddy

Hearty Austin-based chain Hopdoddy Burger Bar has unveiled a new lineup of regenerative burgers that are supposed to be better for the planet and the consumer.

The term "regenerative burger" could cause a few head-scratches: Some may think of lab-grown or 3D-printed meat, while others think of plant-based alternatives but it’s neither. It is grass-fed meat, sourced a bit differently. "Regenerative farming" is a term used to describe farming and grazing practices that claim to restore and rebuild degraded soil, resulting in better-quality air and water.

Hopdoddy’s vice president of culinary Matt Schweitzer explained that it all began with with a sense of obligation to do better as a brand for the consumers and the ecosystem.

“We felt like we could really take a stand and look to move our entire supply chain in a regenerative fashion, so we could really be proud of the work we’ve done and we could hopefully leave the animals, the farmers, the ranchers, the native grasslands, and our planet a better place than before we started,” says Schweitzer.

The new menu items include the "Roosevelt Burger" with grass-fed regenerative bison; the "Nashville Hot Sandwich" with regenerative raised chicken; the "Regenerative Royale," which is a play on a classic double quarter-pounder with cheese; the "Mother Nature" with grass-fed regenerative beef; and the "Buffalo Bill" also uses regenerative bison, but appears not to be grass-fed.

The five burgers are available at all Hopdoddy locations nationwide. The beef and bison are sourced from Texas-based regenerative company Force of Nature, while the chicken is from Cooks Venture.

With this launch, Hopdoddy removes all plant-based meat substitutes from its menu, significantly reducing the options for vegans and vegetarians. The company felt the ingredients and ethos of the alternative meats — describing some such as Beyond Meats as "falsely advertised" regarding nutrition in a press release — no longer aligned with its values and mission. However, the house-made veggie patty remains on the signature "El Bandito" burger.

Schweitzer says the regenerative burgers have received positive feedback, as people are excited to know where their food comes from, how it gets to their table, and what type of impact it causes. Regarding the future of regenerative meat, he says there is no doubt it could become mainstream soon.

“I think the flavor profile, the eating experience, the story, the mission, the purpose, really speaks for itself," says Schweitzer. "So, I really think it’s a matter of time until 'regenerative' is talked about in the same way that 'organic,' or 'sustainable,' or those type of buzzwords are talked about."

To further show its commitment to regenerative agriculture, Hopdoddy is also one of the sponsors of Common Ground, a documentary about the pioneers of the regenerative movement, premiering October 4 in Austin. The "uplifting" film, according to a release, features well-known actors Laura Dern, Rosario Dawson, Jason Momoa, Woody Harrelson, Ian Somerhalder, and Donald Glover, emphasizing that this motley crew does share one thing in common: a strong belief in regenerative agriculture.

For more information about the new regenerative burgers, visit hopdoddy.com.

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This article originally ran on CultureMap.

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Houston scientists develop breakthrough AI-driven process to design, decode genetic circuits

biotech breakthrough

Researchers at Rice University have developed an innovative process that uses artificial intelligence to better understand complex genetic circuits.

A study, published in the journal Nature, shows how the new technique, known as “Combining Long- and Short-range Sequencing to Investigate Genetic Complexity,” or CLASSIC, can generate and test millions of DNA designs at the same time, which, according to Rice.

The work was led by Rice’s Caleb Bashor, deputy director for the Rice Synthetic Biology Institute and member of the Ken Kennedy Institute. Bashor has been working with Kshitij Rai and Ronan O’Connell, co-first authors on the study, on the CLASSIC for over four years, according to a news release.

“Our work is the first demonstration that you can use AI for designing these circuits,” Bashor said in the release.

Genetic circuits program cells to perform specific functions. Finding the circuit that matches a desired function or performance "can be like looking for a needle in a haystack," Bashor explained. This work looked to find a solution to this long-standing challenge in synthetic biology.

First, the team developed a library of proof-of-concept genetic circuits. It then pooled the circuits and inserted them into human cells. Next, they used long-read and short-read DNA sequencing to create "a master map" that linked each circuit to how it performed.

The data was then used to train AI and machine learning models to analyze circuits and make accurate predictions for how untested circuits might perform.

“We end up with measurements for a lot of the possible designs but not all of them, and that is where building the (machine learning) model comes in,” O’Connell explained in the release. “We use the data to train a model that can understand this landscape and predict things we were not able to generate data on.”

Ultimately, the researchers believe the circuit characterization and AI-driven understanding can speed up synthetic biology, lead to faster development of biotechnology and potentially support more cell-based therapy breakthroughs by shedding new light on how gene circuits behave, according to Rice.

“We think AI/ML-driven design is the future of synthetic biology,” Bashor added in the release. “As we collect more data using CLASSIC, we can train more complex models to make predictions for how to design even more sophisticated and useful cellular biotechnology.”

The team at Rice also worked with Pankaj Mehta’s group in the department of physics at Boston University and Todd Treangen’s group in Rice’s computer science department. Research was supported by the National Institutes of Health, Office of Naval Research, the Robert J. Kleberg Jr. and Helen C. Kleberg Foundation, the American Heart Association, National Library of Medicine, the National Science Foundation, Rice’s Ken Kennedy Institute and the Rice Institute of Synthetic Biology.

James Collins, a biomedical engineer at MIT who helped establish synthetic biology as a field, added that CLASSIC is a new, defining milestone.

“Twenty-five years ago, those early circuits showed that we could program living cells, but they were built one at a time, each requiring months of tuning,” said Collins, who was one of the inventors of the toggle switch. “Bashor and colleagues have now delivered a transformative leap: CLASSIC brings high-throughput engineering to gene circuit design, allowing exploration of combinatorial spaces that were previously out of reach. Their platform doesn’t just accelerate the design-build-test-learn cycle; it redefines its scale, marking a new era of data-driven synthetic biology.”

Axiom Space wins NASA contract for fifth private mission, lands $350M in financing

ready for takeoff

Editor's note: This story has been updated to include information about Axiom's recent funding.

Axiom Space, a Houston-based space infrastructure company that’s developing the first commercial space station, has forged a deal with NASA to carry out the fifth civilian-staffed mission to the International Space Station.

Axiom Mission 5 is scheduled to launch in January 2027, at the earliest, from NASA’s Kennedy Space Center in Florida. The crew of non-government astronauts is expected to spend up to 14 days docked at the International Space Station (ISS). Various science and research activities will take place during the mission.

The crew for the upcoming mission hasn’t been announced. Previous Axiom missions were commanded by retired NASA astronauts Michael López-Alegría, the company’s chief astronaut, and Peggy Whitson, the company’s vice president of human spaceflight.

“All four previous [Axiom] missions have expanded the global community of space explorers, diversifying scientific investigations in microgravity, and providing significant insight that is benefiting the development of our next-generation space station, Axiom Station,” Jonathan Cirtain, president and CEO of Axiom, said in a news release.

As part of Axiom’s new contract with NASA, Voyager Technologies will provide payload services for Axiom’s fifth mission. Voyager, a defense, national security, and space technology company, recently announced a four-year, $24.5 million contract with NASA’s Johnson Space Center in Houston to provide mission management services for the ISS.

Axiom also announced today, Feb. 12, that it has secured $350 million in a financing round led by Type One Ventures and Qatar Investment Authority.

The company shared in a news release that the funding will support the continued development of its commercial space station, known as Axiom Station, and the production of its Axiom Extravehicular Mobility Unit (AxEMU) under its NASA spacesuit contract.

NASA awarded Axiom a contract in January 2020 to create Axiom Station. The project is currently underway.

"Axiom Space isn’t just building hardware, it’s building the backbone of humanity’s next era in orbit," Tarek Waked, Founding General Partner at Type One Ventures, said in a news release. "Their rare combination of execution, government trust, and global partnerships positions them as the clear successor-architect for life after the ISS. This is how the United States continues to lead in space.”

Houston edtech company closes oversubscribed $3M seed round

fresh funding

Houston-based edtech company TrueLeap Inc. closed an oversubscribed seed round last month.

The $3.3 million round was led by Joe Swinbank Family Limited Partnership, a venture capital firm based in Houston. Gamper Ventures, another Houston firm, also participated with additional strategic partners.

TrueLeap reports that the funding will support the large-scale rollout of its "edge AI, integrated learning systems and last-mile broadband across underserved communities."

“The last mile is where most digital transformation efforts break down,” Sandip Bordoloi, CEO and president of TrueLeap, said in a news release. “TrueLeap was built to operate where bandwidth is limited, power is unreliable, and institutions need real systems—not pilots. This round allows us to scale infrastructure that actually works on the ground.”

True Leap works to address the digital divide in education through its AI-powered education, workforce systems and digital services that are designed for underserved and low-connectivity communities.

The company has created infrastructure in Africa, India and rural America. Just this week, it announced an agreement with the City of Kinshasa in the Democratic Republic of Congo to deploy a digital twin platform for its public education system that will allow provincial leaders to manage enrollment, staffing, infrastructure and performance with live data.

“What sets TrueLeap apart is their infrastructure mindset,” Joe Swinbank, General Partner at Joe Swinbank Family Limited Partnership, added in the news release. “They are building the physical and digital rails that allow entire ecosystems to function. The convergence of edge compute, connectivity, and services makes this a compelling global infrastructure opportunity.”

TrueLeap was founded by Bordoloi and Sunny Zhang and developed out of Born Global Ventures, a Houston venture studio focused on advancing immigrant-founded technology. It closed an oversubscribed pre-seed in 2024.

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