Life Science Alliance, 2018
Faculty, Scientist and Director
Department of Plant Biology
2502 Miller Plant Sciences
University of Georgia
Athens, GA 30602
Georgia Genomics and Bioinformatics Lab
110 Riverbend Rd., Room 161
Athens, GA 30602
Malmberg, R., Rogers, W. L., & Alabady, M. S. (2018). A carnivorous plant genetic map: pitcher/insect-capture QTL on a genetic linkage map of Sarracenia. Life Science Alliance.
Malmberg, R., W. L. Rogers, and Magdy S. Alabady. “A Carnivorous Plant Genetic Map: Pitcher/Insect-Capture QTL on a Genetic Linkage Map of Sarracenia.” Life Science Alliance (2018).
Malmberg, R., et al. “A Carnivorous Plant Genetic Map: Pitcher/Insect-Capture QTL on a Genetic Linkage Map of Sarracenia.” Life Science Alliance, 2018.
This study presents the first genetic map for a carnivorous plant, mapping 64 QTLs in Sarracenia to provide the genetic basis for differences between the pitfall and lobster-trap insect-capture strategies. The study of carnivorous plants can afford insight into their unique evolutionary adaptations and their interactions with prokaryotic and eukaryotic species. For Sarracenia (pitcher plants), we identified 64 quantitative trait loci (QTL) for insect-capture traits of the pitchers, providing the genetic basis for differences between the pitfall and lobster-trap strategies of insect capture. The linkage map developed here is based upon the F2 of a cross between Sarracenia rosea and Sarracenia psittacina; we mapped 437 single nucleotide polymorphism and simple sequence repeat markers. We measured pitcher traits which differ between S. rosea and S. psittacina, mapping 64 QTL for 17 pitcher traits; there are hot-spot locations where multiple QTL map near each other. There are epistatic interactions in many cases where there are multiple loci for a trait. The QTL map uncovered the genetic basis for the differences between pitfall- and lobster-traps, and the changes that occurred during the divergence of these species. The longevity and clonability of Sarracenia plants make the F2 mapping population a resource for mapping more traits and for phenotype-to-genotype studies.