Genetic Analysis of Organ Fusion in Arabidopsis thaliana

Genetic Analysis of Organ Fusion in Arabidopsis thaliana

Susan J. Lolle^a, Wendy Hsu^a, and Robert E. Pruitt^a
^a Department of Molecular and Cellular Biology, Harvard University, Cambridge, Massachusetts 02138

Corresponding author: Robert E. Pruitt, Department of Molecular and Cellular Biology, Harvard University, 16 Divinity Ave., Cambridge, MA 02138, pruitt{at}billie.harvard.edu (E-mail).

Communicating editor: D. PREUSS

Postgenital organ fusion occurs most commonly during reproductivedevelopment and is important in many angiosperms during genesisof the carpel. Although a number of mutants have been describedthat manifest ectopic organ fusion, little is known about thegenes involved in regulating this process. In this article wedescribe the characterization of a collection of 29 Arabidopsismutants showing an organ fusion phenotype. Mapping and complementationanalyses revealed that the mutant alleles define nine differentloci distributed throughout the Arabidopsis genome. Multiplealleles were isolated for the four complementation groups showingthe strongest organ fusion phenotype while the remaining fivecomplementation groups, all of which show only weak floral organfusion, have a single representative allele. In addition tofusion events between aerial parts of the shoot, some mutantsalso show abnormal ovule morphology with adjacent ovules joinedtogether at maturity. Many of the fusion mutants isolated havedetectable differences in the rate at which chlorophyll canbe extracted; however, in one case no difference could be detectedbetween mutant and wild-type plants. In three mutant lines pollenremained unresponsive to contact with the mutant epidermis,demonstrating that organ fusion and pollen growth responsescan be genetically separated from one another.

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