Pubdate: Sun, 09 Feb 2014 Source: Denver Post (CO) Copyright: 2014 The Denver Post Corp Contact: http://www.denverpost.com/ Details: http://www.mapinc.org/media/122 Author: John Aguilar, Daily Camera CANNABIS QUEST CU Research Initiative Hopes to Unlock Plant's Potential Boulder - Among a vast collection of seeds housed in a nondescript industrial building on the outskirts of Lafayette resides what could be the key to the deepest and most detailed understanding yet of cannabis-information that may unleash nearly limitless potential for a plant that spans the worlds of medicine, textiles, food, fuel and fun. Select DNA samples from that collection, representing a range of cannabis types from all over the world, will make their way to a lab at the University of Colorado to be analyzed, sequenced and mapped at a level never before attempted. It's called the Cannabis Genomic Research Initiative, and it's being led by 37-year-old Nolan Kane, an assistant professor with CU's department of ecology and evolutionary biology. The 18-month initiative, based largely if not entirely in Boulder County, should provide hemp farmers and marijuana growers worldwide with a genomic blueprint allowing them to breed high value specimens far more efficiently than they can now. "It's an interesting and unique genus that is really understudied," said Kane, sitting in his office in the Ramaley biology building at CU last week. "Colorado is one of the best places to do this because we have the industry here and we have a lot of expertise. And it's easier to do the research because we have dealt with many of the legal issues." Until Colorado voters legalized pot consumption by adults and hemp growing for industrial purposes in 2012, the legal cloud hanging over the plant deterred scientists from undertaking extensive research with it, Kane said. But just last week, President Barack Obama signed into law a nearly $1 trillion farm bill containing a stipulation, pushed by U.S. Rep. Jared Polis, that allows universities in the nine states that permit industrial hemp cultivation to conduct research into the plant without jeopardizing their federal funding. Although Kane's cannabis initiative will encompass plant types that don't fall under the federal exemption, he said acknowledgment from Washington, D.C., that good can come from research like his is gratifying. "Being able to work on those industrial and medicinal strains without restriction will be very helpful," he said. Ben Holmes, owner of Lafayette based Centennial Seeds, will be growing from his collection of 300 seed lines the cannabis plants that underpin Kane's efforts. The first seeds went into the ground last week. Given the legal and creative climate that has developed around the plant in Colorado, Holmes said, Boulder County is the perfect place to launch an ambitious project like this. "Everything comes together - the legality, some guy with a seed collection and a world-class genomics professor happening to land at CU," he said. Kane came to CU's department of ecology and evolutionary biology in August from the University of British Columbia in Vancouver, where he did research into the genetic structure of sunflowers, chocolate and mustard. But he said it took a post-doc student in his lab at CU to convince him that the next great specimen to unmask genetically is cannabis. Daniela Vergara said she got the idea for mapping the plant while working on her doctoral thesis at Indiana University. She thought what was being examined in terms of the genetics of sunflower strains could as easily apply to cannabis. "I thought that these questions were cool to ask in cannabis," Vergara said. "There was nothing that had been done." Heather Despres, lab director with CannLabs in Denver, said that kind of analysis will help forge a better understanding of the plant's active ingredients - the cannabinoids - which are responsible for providing marijuana's medicinal benefits and recreational high. CannLabs, which offers a wide array of testing services for cannabis, will provide analysis for the initiative. "What Nolan is trying to do is figure out what all those chunks mean," Despres said. "It's a giant, million-piece puzzle, and all the pieces are microscopic. They're going to start putting the pieces together, and from that data, you can start creating custom plants that produce more medicine or other traits that are desirable." Simply, Holmes said, the initiative will be accelerating and perfecting the art of selective breeding, a practice that has been around for centuries. - --- MAP posted-by: Jay Bergstrom