Life Sciences Commons^™

Mmappr2: An Improved Bioinformatics Approach To Find Novel Genes, Aiden Cardall, Jonathon T. Hill, Kyle Johnsen, Connor Ward, Maliha Tasnim, Jared Taylor

Library/Life Sciences Undergraduate Poster Competition 2024

Introduction

• New genes are commonly found by randomly inducing mutations in model organisms.

• Mapping the mutations to the genome to find novel genes is difficult, time-consuming, and expensive.

• We created a bioinformatics program, MMAPPR, to automate this process.

• Here, we introduce a new algorithm, MMAPPR2, which requires little to no bioinformatics knowledge to use.

• MMAPPR2 makes several improvements that allow it to identify genes more rapidly and precisely.

• MMAPPR2 will aid the rapid identification of genes in a wide range of species and developmental systems.

The Genome Of Huauzontle (Chenopodium Berlandieri), A North American Relative Of Quinoa, Ashley K. Marcheschi, Jeff Maughan, Peter J. Maughan, David E. Jarvis, Kate E. Jaggi, Eric N. Jellen

Library/Life Sciences Undergraduate Poster Competition 2024

Quinoa (Chenopodium quinoa) is a popular Andean seed crop that has a reduced ability to thrive outside of its native range. A related member of the Allotetraploid Goosefoot Complex (ATGC), pitseed goosefoot (Chenopodium berlandieri), is a minimally invasive North American weed that is able to survive in climates and environments that are restrictive to quinoa growth. C. berlandieri has been independently domesticated at least three times, including in Mesoamerica as the immature panicle vegetable ‘huauzontle.’ To assess the capacity of C. berlandieri as a genetic resource for improvement of C. quinoa, we sequenced the whole genome of a huauzontle accession …