Jennifer Gottwald scite author profile

A major question in plant physiology is how the large amount of sucrose made in leaves is transported to the rest of the plant. Although physiological, biochemical, and anatomical investigations have been performed in this field, to date there have been very few genetic studies. Using a reverse genetic screen, we have identified mutant Arabidopsis plants containing transferred DNA insertions in the gene encoding a phloem-specific sucrose transporter, SUC2. SUC2 is thought to function in loading sugar from the apoplast into the conducting sieve tubes. In the homozygous state, these mutations resulted in stunted growth, retarded development, and sterility. The source leaves of mutant plants contained a great excess of starch, and radiolabeled sugar failed to be transported efficiently to roots and inflorescences. These data provide genetic proof that apoplastic phloem loading is critical for growth, development, and reproduction in Arabidopsis and that SUC2 is at least partially responsible for this step.

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An Arabidopsis Mitogen-Activated Protein Kinase Kinase Kinase Gene Family Encodes Essential Positive Regulators of Cytokinesis

Krysan

et al. 2002

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The signal transduction pathways that control cytokinesis in plants are largely uncharacterized. Here, we provide genetic evidence that mitogen-activated protein kinase kinase kinases (MAPKKKs) play a role in the control of plant cell division. Using a reverse-genetic approach, we isolated plants carrying knockout alleles of the Arabidopsis MAPKKK genes ANP1 , ANP2 , and ANP3 . The resulting single-mutant plants displayed no obvious abnormal phenotypes; two of the three double-mutant combinations displayed defects in cell division and growth; and the triple-mutant combination was not transmitted through either male or female gametes. The molecular and structural phenotypes displayed by the double mutants support a model in which the ANP family of MAPKKKs positively regulates cell division and growth and may negatively regulate stress responses.

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Immunocytochemical Localization of Taxol in Taxus cuspidata

Russin

Ellis²,

Gottwald³

et al. 1995

International Journal of Plant Sciences

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Connections: the hard wiring of the plant cell for perception, signaling, and response.

et al. 1997

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The no apical meristem gene of petunia is required for pattern formation in embryos and flowers and is expressed at meristem and primordia boundaries. Cell85, 159-1 70. Steeves, T.A., and Sussex, I.M. (1989). Patterns in Plant Development, 2nd ed. (Cambridge, UK: Cambridge University Press). Sylvester, A., Smith, L.G., and Freeling, M. (1996). Acquisition of identity in the developing leaf. Annu. Rev. Ce\\ k. BiO\.l2,257-?AM. Uberlacker, B., Klinge, B., and Werr, W. (1996). Ectopic expression of the maize homeobox genes ZmHoxla or ZmHoxlb causes pleiotropic alterations in the vegetative and floral development of transgenic tobacco. Plant Cell8,349-362. Vollbrecht, E., Veit, B., Sinha, N., and Hake, S. (1991). The developmental gene Knotted-1 is a member of a maize homeobox gene family. Nature 350,241-243. Waites, R., and Hudson, A. (1 995). pbanfasfica: A gene required for dorsoventrality of leaves in Anfirrbinum majus. Development 121,2143-2154. Connections: The Hard Wiring of the Plant Cell for Perception,-Signaling, and Response Plant biologists are learning rapidly about how signals at the cell surface are propagated via signal transduction pathways. We are also discovering how cells respond to these signals with a gamut of orchestrated developmental events and with defensive strategies that prevent colonization by pathogenic organisms. However, the cellular scaffolding used to target this information between cells or within a single cell is much less understood. With support from a special interagency program of the National Science Foundation, the U.S. Department of Agriculture, and the U.S. Department of Energy, "CytoNet" was established to bring together scientists from different disciplines with the goal of understanding the nature of the cellular scaffolding-how the cytoskeleton, plasma membrane, and cell wall form a structural and functional continuum. The third CytoNet retreat, which was held in Breckenridge, CO, in May 1997, culminated this effort. The 47 participants gained a fresh appreciation for the extent to which all cells are "hard wired"-that the cell's cytoskeleton is an integrated lattice that physically connects the nucleus and the chromosomes with cytosolic components, with the cell surface, and even with neighboring cells.

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