Arizona State University-ASU Law Appoints Alumni to Lead Indian Games and Tribal Self-Government Programs

Derek Beesso, a 2010 graduate of Sandra Day O’Connor Law School at Arizona State University, has been named to lead the college’s Indian Games and Tribal Self-Government Programs.

Beeso, a Navajo national, received his JD and Certificate in Indian law as part of the ASU law, a nationally recognized Indian legal program. As director of Indian Games and Tribal Self-Government Programs, he builds on the early leadership and work of ASU law professors Lawrence Roberts and Anne Marie Blesoso Downs, who helped launch the programs in 2019. Both will soon serve from the college to the administration of President Joe Biden.

Al-Derrick Beteson is welcome to serve as the new director of the Indian Game and Tribal Self-Government Program.
Download the full image

Prior to joining the bill, Beeso served as a general adviser to the American National Congress, the first and only native to serve in this capacity. While there, he handled domestic legal needs and managed the Tribal Supreme Court project with the Native American Rights Fund.

Betesso served as an attorney at the Office of the Attorney General’s Office of Legal Services, which provides legal services in the Western Region and the San Carlos Irrigation Project. He previously served as Assistant Secretary of State for Indian Affairs during the administration of President Barack Obama, advising Kevin Washington.

With his experience in Washington, D.C., and his presence in Asu Law, Besso will help expand education and employment opportunities for students in the Indian capital, India.

ASU will teach one of the program’s most popular travel lessons this fall, allowing law students to study on the Washington, DC campus. The unit, a federal advocate for ethnic clients, is a unique experience that introduces students to decision makers and facilitates contact with future employers, giving students time to explore opportunities in the city.

“We are delighted to have one of our esteemed dreamers back on campus,” said Patty Ferguson Bohne, director of the Indian Law Program Faculty and director of the Indian Law Clinic. Derek Beesso has a deep understanding of Indian affairs and is committed to promoting the rights of ethnic minorities. His experience in working for tribes and the government, as well as his success in developing effective partnerships, make him an ideal fit for our ILP team. . “

Besso said he was honored to return to ASU as a faculty.

“The great work that the ELP has done since its inception under the Asu Act has helped to increase the goals of life for many talented and non-talented professionals and to ensure that ethnic groups are well represented in the legal field,” he said. “I am thrilled to be able to share my experience, and look forward to contributing to the ILP mission as much as possible.”

The nation’s first, Indian game and ethnic self-government program was established with the mission of the San Manuel Band to further strengthen ASU’s commitment to serve the educational needs of ethnic Indians. Under Indian Game Empowerment, ASU law provides students with in-depth courses on the rules, observance, and performance of Indian games. The ASU Legal Studies Master’s Degree (MSS) degree provides professionals with the necessary legal components of the Indian game in their careers.

Similarly, the emphasis on self-government is designed to accurately teach students whether they want to work for ethnicity, the federal government, or the state, the legal framework for ethnic-federal relations, federal programs, and tribal self-promotion – administration and the implementation of that legal framework.

Support from the San Manuel Band Mission Indians will help to expand educational opportunities and work experience for students seeking Indian law in Indian law, and will continue to contribute to the development of Indian legal training for Indian tribes. And organizations. Contact Hallie.Rexer@asu.edu to learn more about contributions to the programs.

Meeting the growing energy needs of society is a challenge for mankind. A.D. Energy demand is expected to double by 2050, and the effects of climate change are already wreaking havoc on drought, wildfires, floods and other disasters.

Gary Moore, a researcher at the Center for Structural Innovation at the Biodiversity Center at Arizona State University, believes that chemistry plays a key role in the world’s growing energy crisis.

Gary Moore and his colleagues describe the use of ring-shaped molecules, known as porphyrin, shown in this graph. One of the most abundant dyes in nature, such molecules are known to accelerate or stimulate chemical reactions, including important reactions in living systems. They are an important component in the design of artificial photosynthesis systems. Cover the newspaper graphic by Jason Deres
Download the full image

In a new study published in the journal Chemotherapy, Moore and colleagues described the use of ring-shaped molecules, known as porphyrin. One of the most abundant dyes in nature, such molecules are known to accelerate or stimulate chemical reactions, including important reactions in living systems.

One of these reactions is the process of converting solar energy from solar energy into chemical energy stored in plants, using plants and photosynthetic microbes. This chemical energy can be used to burn the body’s metabolism through cellular respiration.

Researchers like Moore hope to create artificial models into natural photosynthesis processes and take a page from a natural toy book. The new study describes porphyrin, which contains synthetic diron, and explores its potential as an effective stimulant.

Gary Moore is a researcher at the Center for Applied Structural Findings at the Biodiversity Center. Photo by Biodesign Institute

“Instead of exploiting natural photosynthesis products, we can be motivated by our knowledge of photosynthesis to pioneer new materials and technologies that compete with their biological counterparts,” he said.

Porphyrins and their structural analogues are abundant in the biological world. They are used to tie various metal ions to perform remote cell phone functions. For example, chlorophyll molecules help regulate the transport of magnesium (a key chemical in plant photosynthesis), heme-iron-containing porphyrin-molecular oxygen and carbon dioxide, and provide the electronic transport chains necessary for cellular respiration. Because of their regulatory role in life processes, porphyrin abnormalities are responsible for a variety of serious illnesses.

Porphyrins can be used as stimulants in artificial devices known as electrochemical cells, which convert chemical energy into electricity, or vice versa. Although solar energy can be stored in conventional batteries, such applications are limited by their low power consumption compared to fossil fuels used in modern transportation.

Moore’s efforts to design artificial photosynthesis systems could provide valuable value to the renewable energy puzzle by producing “fossil fuels” as well as many other useful products.

Such devices can be built using the cheapest and most cost-effective materials available for the use and storage of solar energy when and where it is needed and for regular solar applications.

The paper was selected for the cover of the new issue of the magazine, part of a special collection by Jason Deres, ASU Multimedia Developer Leader, and Professor Jean-Mill Savent.


This press release was prepared by Arizona State University. The views expressed herein are those of the author.

Leave a Comment