Space Tango Designated Official Flight Support for Team Groot in 'Guardians of the Galaxy Space Station Challenge'

International Space Station STEM Challenge Invites Students Ages 13-18 to Submit Microgravity Research Proposals

Marvel ISS Mission Patch.png

LEXINGTON, Ky. (January 16, 2018) – Space Tango has been designated the official flight support team for the winning Team Groot flight experiments in the CASIS and Marvel Entertainment Guardians of the Galaxy Space Station Challenge.

The contest is divided into two separate research opportunities: Team Rocket, and Team Groot. Students interested in fundamental biological and regenerative science concepts are encouraged to submit flight proposals under Team Groot – Who is the embodiment of genetics and plant biology.

 “Both Rocket and Groot have characteristics that are researched onboard the ISS daily, and to allow students to propose experiments based on their favorite Super Heroes will be an exciting way to engage our Nation’s youth about STEM principles and the space station, said CASIS Director of Operations and Educational Opportunities Kenneth Shields.”

 Students are asked to explain their experiment and its use of a microgravity environment to explore outcomes unobtainable in an Earth-based Laboratory. Deadline to submit a flight proposal is January 31, 2018.

 A winning Team Groot submission will send their experiment in Space Tango hardware as an official ISS National Lab investigation scheduled to launch to the Space Station later this year.

 From Space Tango’s autonomous and configurable TangoLab facility aboard the International Space Station the winning students will be able to monitor and receive their experiment data in near-real time after its installation on the ISS.

“We are champions of STEM education and are pleased to provide support and access to our facilities on the International Space Station to support the Guardians of the Galaxy Challenge. Previous relevant experiments performed on the International Space Station on flatworm regeneration, plant growth, and flow chemistry can help to inform and inspire student teams as they develop their proposals” explained Space Tango CEO Twyman Clements. “This is an exciting opportunity to inspire and work with the next generation of scientists as they bring an alternative, creative outlook on the capabilities of microgravity research.”

 Barley Germination (left) and Arabidopsis Germination (right) grown on the International Space Station during CRS-12 in August 2017.

Barley Germination (left) and Arabidopsis Germination (right) grown on the International Space Station during CRS-12 in August 2017.

 To learn more about this challenge, including previous experiments conducted on the ISS, and how to submit a proposal, please visit:


Space Tango streamlines and simplifies the unique environment that microgravity offers to design, build, and operate integrated systems that facilitate microgravity R&D and manufacturing for applications that improve life on Earth. Our commitment to streamlining and standardizing processes allows researchers to focus on their science while we facilitate the logistics of traveling to and working in microgravity. Space Tango is developing an entire pipeline of products to increase the variety, volume and ease of using this new frontier. We strive to diversify the use of microgravity and invite you to reach beyond in hope of improving life on Earth.


The Center for Advancement of Science in Space (CASIS) is the non-profit organization selected to manage the ISS National Laboratory with a focus on enabling a new era of space research to improve life on Earth. In this innovative role, CASIS promotes and brokers a diverse range of research in life sciences, physical sciences, remote sensing, technology development, and education.

Since 2011, the ISS National Lab portfolio has included hundreds of novel research projects spanning multiple scientific disciplines, all with the intention of benefitting life on Earth. Working together with NASA, CASIS aims to advance the nation’s leadership in commercial space, pursue groundbreaking science not possible on Earth, and leverage the space station to inspire the next generation.


In 2005, Congress designated the U.S. portion of the International Space Station as the nation's newest national laboratory to maximize its use for improving life on Earth, promoting collaboration among diverse users, and advancing STEM education. This unique laboratory environment is available for use by other U.S. government agencies and by academic and private institutions, providing access to the permanent microgravity setting, vantage point in low Earth orbit, and varied environments of space.


CASIS Boeing Award recipient Lambda Vision Partners with Space Tango to help 'Cure Blindness'


CASIS Boeing Award recipient Lambda Vision Partners with Space Tango to help 'Cure Blindness'

Granted the CASIS-Boeing Award in November 2016, LambdaVision’s protein-based implants strive to ‘cure blindness.’ With Space Tango as their payload development partner, the Connecticut-based company LambdaVision will test the manufacturing capabilities of retinal implants in microgravity.

 LambdaVision CEO Nicole Wagner pipettes in the lab at the University of Connecticut Cell and Genome Sciences Building in Farmington on 9 June 2016. Photo Courtesy: Peter Morenus | University of Connecticut

LambdaVision CEO Nicole Wagner pipettes in the lab at the University of Connecticut Cell and Genome Sciences Building in Farmington on 9 June 2016. Photo Courtesy: Peter Morenus | University of Connecticut

LambdaVision relies on maintaining control of several factors during the manufacturing process, including a protein-based solution. Working autonomously in a TangoLab facility aboard the International Space Station provides a controlled environment. In doing so, gravity is eliminated from the development of the retinal films.

“On the space station we’re moving gravity out of the equation, so we’re reducing sedimentation and aggregation of the proteins that are used in the solutions … leading to more stable films with better performance,” said Chief Scientific Officer Jordan Greco in an interview with the Connecticut Magazine.

Their experiment is currently scheduled to fly May 2018 at which time it will spend approximately three months in a TangoLab facility running autonomously. LambdaVision’s retinal implant technology illustrates the diverse use of the Space Tango product line to conduct research in microgravity for exomedicine and on-Earth application.

For more news on LambdaVision, see the articles below:
Connecticut Magazine - Farmington Company’s Quest to Cure Blindness Set to Launch Into Orbit
Hartford Courant - At UConn, A Cure For Blindness In Sight

Featured Photo Courtesy: Peter Morenus | University of Connecticut 



Space Tango Featured in ISS National Lab Magazine


Space Tango Featured in ISS National Lab Magazine

Upward, the official magazine of the ISS National Laboratory, features Space Tango as their front cover story in the November 2017 edition. Space Tango: Research in a Box details not only the company mission, but provides a detailed look at Space tango's innovative efforts to utilize microgravity for application on Earth.

Author Sara Carney comments, "Although Space Tango’s projects are highly diverse, there is one commonality among them: helping people on Earth." 

Space Tango has worked on a series of diverse projects for equally diverse research groups. Some of these, mentioned in the article along with a debriefs on their respective research, include, the Craft Academy, and the University of Kentucky.

“When people hear about using the space station, it’s all about going to Mars, which is certainly great, and I could talk about that forever, but our focus is using the ISS as a medium to create new products, better products—whether they be drugs or semiconductors or other materials,” Clements said. “This is not about us going to Mars; this is about us making life better on Earth.

Read Space Tango: Reasearch in a Box at Upward today. 
Photos courtesy of Upward.


Budweiser Partners with Space Tango for First Beer on Mars


Budweiser Partners with Space Tango for First Beer on Mars

Space Tango Facilitates Budweiser Barley Seeds as First Step

Lexington, Ky. – Budweiser, with Space Tango, Inc. as their payload development partner, will initiate two barley experiments on SpaceX Commercial Resupply Service -13 (CRS-13) scheduled to launch on December 4th at 2:50 PM EST from Cape Canaveral, Florida. Once on the International Space Station, Budweiser’s barley experiments will remain in orbit for approximately one month before returning for further analysis.


"Budweiser is always pushing the boundaries of innovation and we are inspired by the collective American Dream to get to Mars,” said Budweiser Vice President Ricardo Marques. “We are excited to begin our research to brew beer for the red planet.”

Budweiser’s innovation team selected barley, one of its core ingredients, to be the focus of the first two experiments in space. Barley is a versatile grain equipped with antioxidants, vitamins and minerals essential to health. By furthering the knowledge of barley’s response to microgravity, investigators find ways to adapt the grain for long-duration spaceflight. Budweiser barley seeds will be packaged in two Space Tango CubeLabs™ for its approximate 30-day mission in orbit. One of the experiments will focus on barley seed exposure with the second testing barley germination.

“Anheuser-Busch pushes the boundaries of innovation in the beverage industry just as Space Tango is pushing the boundaries of innovation in microgravity research,” explained Space Tango Program Manager Gentry Barnett. “This partnership will not only produce scientific data that could lead to barley production improvements on Earth but could also lead to the first beer produced on Mars.”

Following its mission, the barley seedlings will be returned to Earth for Budweiser’s innovation team to analyze – setting the foundation and blueprint for Budweiser’s next move in brewing the beer of the future. As Budweiser expressed, this research could also provide valuable information on the production of barley and the larger agricultural community here on earth. Barley is an important grain used in a large variety of products, from bread to beer.  By exposing barley to a space environment, morphological and genetic alterations may arise, broadening the knowledge of the grain and improving its use for terrestrial applications.

"Working with Budweiser presents another compelling use-case for companies interested in using microgravity and the Space Tango product lines,” commented Space Tango CEO Twyman Clements. “We are very excited to help provide great results and great science to the Budweiser innovation team with continuing support from CASIS.”

Space Tango successfully continues to commercialize microgravity as a result of continued support from the Center for Advancement of Science in Space (CASIS) and the National Aeronautics and Space Administration (NASA).


The Germination of ABI Voyager Barley Seeds in Microgravity project evaluates the effects of the spaceflight environment on dry seeds, germination, and initial growth of Hordeum vulgare L. (barley).  The experiment will be implemented in three of Space Tango’s CubeLabs™ within their TangoLab facility. The first CubeLab will house approximately 3,500 dry barley seeds that will be evaluated during post-flight growth to examine microgravity exposure effects on the specific seed line.  The other two CubeLabs will each contain test tubes with barley seeds and a growth media.  After installation by the ISS astronauts into the TangoLab, these two CubeLabs will provide automated growth lighting to mimic that of normal terrestrial growth and incremental imaging to provide near real-time growth monitoring. Once the seeds germinate and begin initial growth, Space Tango engineers will instruct the CubeLabs to distribute a biological fixative to the plants to preserve the tissue from their command center in Lexington, KY.  Upon return to Earth, the seedlings will be evaluated for genetic alterations and morphological abnormalities.


Space Tango streamlines and simplifies the unique environment that microgravity offers to design, build, and operate integrated systems that facilitate microgravity R&D and manufacturing focused for application on Earth. Space Tango allows users to focus on their work while managing the complexities of traveling to and operating in microgravity. Space Tango is committed to the standardization of processes to provide a seamless experience. Space Tango is developing an entire pipeline of products to increase the variety, volume and ease of using this new frontier. Space Tango strives to diversify the use of microgravity as they invite industries of any kind to reach beyond in hope of improving life on Earth.

For more information on Budweiser's steps towards the first beer on Mars, click here!



Space Tango CEO Inducted into Kentucky Emerging Entrepreneurs Class of 2017

 Dr. Lee Todd (left) and Space Tango CEO Twyman Clements (right) at the 2017 Kentucky Entrepreneur Hall of Fame Induction Ceremony.

Dr. Lee Todd (left) and Space Tango CEO Twyman Clements (right) at the 2017 Kentucky Entrepreneur Hall of Fame Induction Ceremony.

The Kentucky Entrepreneur Hall of Fame recognized Space Tango CEO Twyman Clements as a member of the Emerging Entrepreneur Class of 2017 at a ceremony Wednesday in partnership with the Kentucky Chamber of Commerce.

Clements was presented the honor by Dr. Lee Todd who served  not only as the University of Kentucky President and is a co-founder of the Kentucky Science and Technology Corporation, but is also an active Space Tango board member.

Twyman Clements is the Co-Founder and CEO of Space Tango, Inc., an aerospace company that specializes in designing complex autonomous systems that use microgravity for research and manufacturing.

“Our focus is not necessarily the six people up there,” explained Space Tango CEO Twyman Clements, “but the 7 billion people down here.”

Prior to Space Tango, Twyman served as a senior space system engineer at Kentucky Space working with a multidisciplinary team of universities and companies on high altitude balloons, CubeSats and other ISS hardware. Twyman holds a B.S. and M.S. in Mechanical Engineering from the University of Kentucky. 

At Space Tango, he continues to lead the design efforts for the TangoLabs' and CubeLab standards currently implemented on the International Space Station. Most recently, Clements and his Space Tango team launched four payloads to the International Space Station aboard Orbital Science Commercial Resupply Service Flight 8 (OA-8). Orbital ATK's Cygnus will also host Space Tango's TangoLab-1 facility marking the first time it is used as an extended Laboratory.

About Kentucky Entrepreneur Hall of Fame

The Entrepreneur Hall of Fame is a physical and virtual destination that shares and celebrates the stories of Kentucky's most successful entrepreneurs. 

Our mission is to raise awareness of the impact that entrepreneurship has made in the Commonwealth and encourage others to pursue similar ambitious endeavors.

To learn more about our CEO and Space Tango's efforts, contact us at


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Space Tango Announces Partnership with Airbus Defence and Space

Collaboration Expands International Space Station Capabilities

Lexington, Ky. - Airbus Defence and Space and Space Tango of Lexington, Kentucky USA have announced an agreement combining their respective commercial programs for greater utilization of the International Space Station during the 33rd Annual American Society for Gravitational and Space Research meeting this week in Seattle, Wa.


Airbus Defense and Space’s decades of on-going and uninterrupted life and physical science experiment hardware development programs combined with the Space Tango TangoLab facilities’ configurability and data interfaces will provide a unique and adept offering for research and customer-use aboard the International Space Station (ISS).

“This partnership with Airbus Defence and Space allows Space Tango to offer our services to a wider spectrum of use-cases and customers around the world,” explained Space Tango CEO and Co-Founder Twyman Clements. “All in pursuit of our ultimate goal - utilizing microgravity as a platform for research and manufacturing.”

“Upon early discussions with the Airbus Defence and Space team, it became clear there was synergy between TangoLab facilities and the commercial my_biorack hardware portfolio,” added Clements. “Creating the Airbus ScienceBox, the my_biorack hardware portfolio is compatible with the TangoLab facilities. Together, we open new doors to users around the world.”

For more information, contact us at

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Space Tango Named NASA Kentucky’s EPSCoR Industry Partner

Awarded a total of $850,000 from NASA, the NASA Kentucky EPSCoR Program at the University of Kentucky chose  to collaborate with Space Tango as their industry partner throughout the duration of the “small-satellite swarms” project.

UK Now writer Kel Hahn shares that “small-satellite swarms are an integral part of future space missions, including exploration, atmospheric measurements, comet detection, cosmological and biological studies and space-weather monitoring.”

Not only will the team utilize the NASA Marshall flat-floor facility to research “cooperative-control,” but EPSCoR investigators will also utilize our TangoLab facilities aboard the ISS for a “two-satellite formation-flying experiment.”

“This project with the UK College of Engineering is a perfect use case for leveraging the ISS as a platform for R&D in microgravity” said Space Tango CEO and UK mechanical engineering graduate Twyman Clements.

For more information be sure to keep up with future blog posts and check out the links below:

UK research on orbiting small satellites in formation receives $850,000 in NASA grants | The Lane Report

NASA Kentucky EPSCoR Program Receives $850,000 in New Awards | UK Now

NASA Awards Grants for Research, Flight Opportunities to 22 Universities | NASA




Two Heads are Better than One?

Double-headed flatworm. 
Credit: Junji Morokuma, Allen Discovery Center at Tufts University

That's right two heads are better than one, and in this case two heads have sparked more interest in microgravity research. Tufts researcher Michael Levin discusses the most recent findings on Flatworms' regenerative abilities when introduced to a space environment. Research suggests that the lack of gravity has encouraged the tested flatworms to grow two heads when cut into thirds - a very rare occurrence on Earth.

Microgravity poses as an underused environment that has proven to yield fascinating results. These flatworms are only one piece of the puzzle. This research is step towards better understanding regeneration for on-Earth applications in medicine and science. 

With new questions arising regarding these findings, Levin and his team are working towards a collaborative mission with Space Tango and Kentucky Science and Technology Corporation's Exomedicine Institute.

To learn more about Levin and his Flatworm research, check out this NPR Science Friday Interview with Michael Levin!



Space Tango Payloads & CRS-10 Mission

SpaceX’s Falcon 9 rocket will deliver Space Tango payloads on Commercial Resupply Services - 10 (CRS-10) scheduled to launch on February 18th at 10:01:32 AM EST. Payloads will be installed in the TangoLab Facility on the International Space Station. CRS-10 is Space Tango’s first commercial opportunity to begin use of the facility hardware for researchers and customers.



The Microbial Methane Associated Research Strasbourg No. 1 (MMARS1) flight experiment is a commercial experiment led by Airbus DS in collaboration with its scientific partners the International Space University and the University of Strasbourg.  The purpose of this experiment is to study how a strain of methanogen, Methanosarcina barkeri, adapts to the stresses of the space environment, including microgravity and radiation, as a first step towards further studies related to relevant non-early applications of methanogen.  Specifically, the goals of the MMARS1 experiment include: 1) to demonstrate the use or pressure measurements to estimate metabolic activity of M. barkeri and the overall experimental approach; 2) to investigate decoupling of metabolic activity from biomass production; and 3) to study the growth of M. barkeri using liquid medium, including time of lag phase, growth rate, and time to stationary phase change under conditions of spaceflight.

> Contractile Properties of Smooth Muscle in Microgravity

The Contractile Properties of Smooth Muscle in Microgravity flight experiment is a research/educational experiment led by the Craft Academy in collaboration with its scientific parter - Morehead St. University - and its implementation partner Space Tango. The purpose of this experiment is to evaluate the involuntary cell contractions of aortic smooth muscle cells. Specifically, rat aorta smooth muscle cells - that show expression and promotor activity of several highly restricted smooth muscle cell markers - will be evaluated. The theory of contraction being proposed in this project is that the remodeling of the actin cytoskeleton, specifically that of a-action, is the contractile mechanism within smooth muscle cells, whereas the B-actin serves to maintain the cell's shape during contraction. If this contraction is observed in microgravity, then supporting or contradictory evidence of contractile cells and potential discoveries may be observed.

> ISSET Educational Endeavor No. 1

The International Space School Educational Trust (ISSET) works in partnership with some of the world’s leading space organizations to deliver unique learning opportunities for students of all ages. For this project, ISSET has teamed up with the King’s College London to perform three educational projects:

  • Microbial Fuel Cell:

With space exploration aiming earnestly towards Mars, there are many ideas being discussed to help power the exploration and to utilize everything available within the spacecraft chosen. This experiment will show the usefulness of using microbes feeding on waste matter in a sealed environment to provide a power source to supplement the main fuel sources on the spacecraft.

  • Cactus-Mediated Carbon Dioxide Removal in Microgravity:

In this experiment, the researcher is aiming to measure the oxygen output and the CO2 intake of a selected form of cactus. This is beneficial to the space station and space travel if CO2 removal/O2 production can be replicated and maintained safely in a microgravity environment.

  • Activity of Mutated Drosophila in Microgravity:

In this experiment, the goal is to determine if there are any visible differences in flight between normal Drosophila flies and mutant Drosophila flies in microgravity. A terrestrial control version of the experiment will also be performed. The specific aim of the experiment is to identify if there are any positive differences in movement by placing the flies in a microgravity environment.

  • Ionic Fluids as Lubricants in Microgravity

The purpose of this experiment is to evaluate the lubricant properties - ability to reduce friction - of 1-butyl-3-methylimidazolium chloride in microgravity.  Friction will be generated by placing a motor-controlled wheel slide against a rough surface.  Friction with and without the 1-butyl-3-methylimidazolium chloride lubricant will be measured.

> Medicinal Plants in Microgravity

The Medicinal Plants in Microgravity mission is a research experiment led by the Chappell Lab within the University of Kentucky.  The purpose of this experiment is to uncover new chemistries provided through medicinal plants in a microgravity environment.  Specifically, the research goal is to unlock novel genetic expressions of chemical capabilities of two plant types – valerian (valeriana officinalis) and periwinkle (catharanthus roseus).  This experiment is divided into three phases: 1) establishing a baseline genetic guideline for medicinal plant seeds (non-germinated); 2) germinate medicinal plants in microgravity; and 3) multi-generational plant growth in microgravity that may encourage new gene expression. 

> Life Cycle of Arabidopsis thaliana in Microgravity

The Arabidopsis thaliana flight experiment is an educational experiment led by Magnitude.IO. The purpose of this experiment is to study how the life cycle of Arabidopsis thaliana is affected by a microgravity environment. Specifically, the educational goals of this experiment include: 1) to successfully grow Arabidopsis thaliana in microgravity; 2) to evaluate the differences between microgravity and parallel terrestrial growth systems in classrooms; and 3) to preserve the seeds for future multi-generational microgravity growth studies.



The newest addition to the Space Tango Team

Stacey Dries Headshot.jpeg

Stacey Dries has been working as a systems engineer on NASA programs for the past 13 years.  She has helped to develop a human factors verification process still in place today.  She has managed many aspects of integrating payload science to ISS including; requirements, verification and real-time support to both ISS and Shuttle missions.  Her work provided fully accommodated, multi-disciplined coordinated support to ensure mission success and support to real-time payload operations and issue resolution.  Stacey, originally from Santa Clarita, CA; graduated from Texas A&M with an Aerospace Engineering degree and currently lives in Houston, TX with her husband and family.

We asked Stacey a few fun questions to get to know her. Check them out to see what unique things she adds to our team!

What interest you about space?

I have always loved space.  Science and math were my favorite/better subjects in school and I enjoyed learning about orbital mechanics, physics and planetary science.  When I was in high school I attended Space Camp in Alabama for a week and that really got me interested in pursuing Aerospace Engineering.  During college I even got to return to Space Camp as a counselor for one summer. 

What makes you a unique addition to our team?

I also have an Associates degree in Dance.  I have been teaching dance in the local area for 10 years.  I tend to have a lot of energy and enthusiasm and I believe that brings a good vibe to the teams I work with.

Do you have any favorite TV shows or movies?

From TV, I enjoy The Voice, The Amazing Race and Once Upon a Time.  As for movies, I love action and comedy movies; Star Wars and Star Trek, Indiana Jones, etc. 

If you could meet one person, dead or alive, who would it be and why?

This one is tough, there are lots of people I would love to meet for many different reasons, Astronauts, famous dancers and actors, historical figures, etc; but if I had to pick right now, today, it would be my mother.  She passed away from cancer in 2010 and never got to meet her youngest grandchild (who is now 5), I would most want to spend the day with her just catching up and getting to see her be with the kids.

Describe your perfect day

My perfect day would start with sleeping in late (~9a in my world), I would spend the day with my family and friends outside where its warm and breezy near a pool with drinks and food.  Lots of music, games and fun while everyone relaxes, with no worries about the next day.

Space Tango is excited for the contributions that Stacey will bring to our work, as we push forward for the launch of SpaceX-10 this November. Follow our blog for more information on our team as well as current and upcoming projects.