Othram and the University of Texas M.D. Anderson Cancer Center have teamed up to create a modern forensic sequencing lab program. Getty Images

Houston-area's first-privately held forensic sequencing laboratory has partnered with The University of Texas M.D. Anderson Cancer Center to create an academic program that will provide forensic training to genome scientists that will help them crack previously unsolved criminal cases.

Othram was created in 2018 specifically to apply the power of modern DNA parallel sequences to forensic evidence. Its new academic program partnership is aimed at training Molecular Genetic Technology (MGT) graduate students in the newest laboratory techniques and technology for the recovery and analysis of human DNA from deteriorated or contaminated materials.

"Because this field is so new, there aren't many individuals who are experts in both genomics and forensic science," David Mittelman, CEO and founder of Othram, tells InnovationMap. "We wanted to collaborate with M.D. Anderson who has a great genetic testing program already to help students learn about how to apply current techniques that are being used to solve cases that no one else can solve."

MGT students, who study the role of genetics in medicine, will be able to train with Othram experts using new technological advances such as the ability to harness whole-genome shotgun sequencing for the unique needs that forensic evidence demands like human identification.

"The Texas Medical Center is the best in the world, specifically for genomics training so it seemed like a natural fit," says Mittelman. "Especially since we want to attract and expose students to this new area of forensics as a possible outlet."

The use of new technology is what sets Othram apart, last year they helped solved a 103-year old mystery of a headless torso found in an Idaho cave, using their Forensic-Grade Genome SequencingTM technology. The DNA extraction and sequencing lab at Othram distill the sample DNA down to a sequence, which with the help of computer software, can be analyzed to reconstruct the whole genome of an individual's DNA.

Then the DNA is digitized and matched to other databases such as the FBI's Combined DNA Index System to cross-reference for a DNA match. With Othram's ability to construct whole genomes from previously unusable DNA samples, they can further the search to identify human remains or identify suspects from living relatives.

"There is no one currently leveraging whole genome sequencing right now like Othram," says Mittelman. "There's a whole range of opportunities from taking a look at the whole genome from ancestry to relationship testing and physical trait prediction."

The unique learning experience for MGT students will integrate classroom lectures, laboratory demonstrations, and technological experiences. Mittleman says that the academic program partnership will enable a new generation of forensic genomics scientists to digitize the nation's DNA evidence and solve cold cases.

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Axiom Space-tested cancer drug advances to clinical trials

mission critical

A cancer-fighting drug tested aboard several Axiom Space missions is moving forward to clinical trials.

Rebecsinib, which targets a cancer cloning and immune evasion gene, ADAR1, has received FDA approval to enter clinical trials under active Investigational New Drug (IND) status, according to a news release. The drug was tested aboard Axiom Mission 2 (Ax-2) and Axiom Mission 3 (Ax-3). It was developed by Aspera Biomedicine, led by Dr. Catriona Jamieson, director of the UC San Diego Sanford Stem Cell Institute (SSCI).

The San Diego-based Aspera team and Houston-based Axiom partnered to allow Rebecsinib to be tested in microgravity. Tumors have been shown to grow more rapidly in microgravity and even mimic how aggressive cancers can develop in patients.

“In terms of tumor growth, we see a doubling in growth of these little mini-tumors in just 10 days,” Jamieson explained in the release.

Rebecsinib took part in the patient-derived tumor organoid testing aboard the International Space Station. Similar testing is planned to continue on Axiom Station, the company's commercial space station that's currently under development.

Additionally, the drug will be tested aboard Ax-4 under its active IND status, which was targeted to launch June 25.

“We anticipate that this monumental mission will inform the expanded development of the first ADAR1 inhibitory cancer stem cell targeting drug for a broad array of cancers," Jamieson added.

According to Axiom, the milestone represents the potential for commercial space collaborations.

“We’re proud to work with Aspera Biomedicines and the UC San Diego Sanford Stem Cell Institute, as together we have achieved a historic milestone, and we’re even more excited for what’s to come,” Tejpaul Bhatia, the new CEO of Axiom Space, said in the release. “This is how we crack the code of the space economy – uniting public and private partners to turn microgravity into a launchpad for breakthroughs.”

Chevron enters the lithium market with major Texas land acquisition

to market

Chevron U.S.A., a subsidiary of Houston-based energy company Chevron, has taken its first big step toward establishing a commercial-scale lithium business.

Chevron acquired leaseholds totaling about 125,000 acres in Northeast Texas and southwest Arkansas from TerraVolta Resources and East Texas Natural Resources. The acreage contains a high amount of lithium, which Chevron plans to extract from brines produced from the subsurface.

Lithium-ion batteries are used in an array of technologies, such as smartwatches, e-bikes, pacemakers, and batteries for electric vehicles, according to Chevron. The International Energy Agency estimates lithium demand could grow more than 400 percent by 2040.

“This acquisition represents a strategic investment to support energy manufacturing and expand U.S.-based critical mineral supplies,” Jeff Gustavson, president of Chevron New Energies, said in a news release. “Establishing domestic and resilient lithium supply chains is essential not only to maintaining U.S. energy leadership but also to meeting the growing demand from customers.”

Rania Yacoub, corporate business development manager at Chevron New Energies, said that amid heightening demand, lithium is “one of the world’s most sought-after natural resources.”

“Chevron is looking to help meet that demand and drive U.S. energy competitiveness by sourcing lithium domestically,” Yacoub said.

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This article originally appeared on EnergyCapital.