Publications: Go To: Recent Publications Reviews / Book Chapters Recent Press Releases Research Articles Arabidopsis HAP2 (GCS1) is a sperm-specific gene required for pollen tube guidance and fertilization. K. von Besser, A. Frank, M. Johnson, and D. Preuss. Development 2006. 133, 4761-4769. [Abstract] Distinct short-range ovule signals attract or repel Arabidopsis thaliana pollen tubes in vitro. R. Palanivelu and D. Preuss. BMC Plant Biology. 2006 6:7. [Abstract] Dynamic Evolution of Pericentromeres. A.E. Hall, G. Kettler, and D. Preuss Genome Research. 2006 16: 355-364. [Abstract] Callose (b-1,3 glucan) is Essential for Arabidopsis Pollen Wall Patterning, but not Pollen Tube Growth. S. Nishikawa, G.M. Zinkl, R.J. Swanson, D. Maruyama, and D. Preuss BMC Plant Biology. 2005 5:22-30. [Abstract] Differential rates of local and global homogenization in centromere satellites from Arabidopsis relatives. S.E. Hall, S. Luo, A.E. Hall, D. Preuss Genetics. 2005 Aug;170(4):1913-27. [Abstract] A Structured Interface to the Object-Oriented Genomics Unified Schema for XML-Formatted Data. T. Clark, J. Jurek, G. Kettler, D. Preuss (2005). Applied Bioinformatics 4 (1): 13-24 [Abstract] Arabidopsis hapless Mutations Define Essential Gametophytic Functions M. Johnson, K. von Besser, Q. Zhou, E. Smith, G. Aux, D. Patton, J. Levin, and D. Preuss Genetics 2004 Oct; 168: 971-982 [Abstract] Pollen and Stigma Structure and Function: The Role of Diversity in Pollination. A.F. Edlund, R. Swanson, and D. Preuss (2004) Plant Cell 16:S84-97. [Abstract] The Rapidly Evolving Field of Plant Centromeres. A.E. Hall*, K.C. Keith*, (co-first authors), S.E. Hall, G.P. Copenhaver, and D. Preuss. (2004) Curr. Opin. Plant Biol. 7:108-14. [Abstract] Species-specificity in Pollen-pistil Interactions. R. Swanson, A. F. Edlund, and D. Preuss. (2004) Annu. Rev. Genet. 38: 793-818. Whole-genome fractionation rapidly purifies DNA from centromeric regions S. Luo, A. Hall, S. Hall, and D. Preuss Nature Methods 2004 Sept; 1: 67-71 [Full Text] This article was reviewed in:Nature Methods 1: 14-15 (2004) Comparisons of pollen coat genes across Brassicaceae species reveal rapid evolution by repeat expansion and diversification A. Fiebig, R. Kimport and D. Preuss PNAS 2004 Feb 17: 101(9): 3286-3291 [Abstract] Strand bias in DNA methylation marks the regions that function as centromeres in Arabidopsis S. Luo and D. Preuss Proc. Natl. Acad. Sci. 2003 Sept 16;100(19):11133-11138 [Abstract] Pollen tube growth and guidance is regulated by POP2, an Arabidopsis gene that controls GABA levels R. Palanivelu, L. Brass, A.F. Edlund, and D. Preuss Cell. 2003 Jul 11;114(1):47-59 [Abstract] This article was reviewed in:     Current Biology 13: R834-R836 (2003)     Nature Cell Biology 5: 778 (2003)     Developmental Cell 5: 185-186 (2003) A Plant Transformation-competent Binary BAC (BIBAC) library from the Arabidopsis thaliana Landsberg ecotype for functional and comparative genomics Y.-L. Chang, X. Henriquez, D. Preuss, G.P. Copenhaver and H.-B. Zhang Theor Appl Genet. 2003 Jan;106(2):269-76. [Abstract] Centromere satellites from Arabidopsis populations:  Maintenance of conserved and variable domains S.E. Hall, G. Kettler and D. Preuss. Genome Research  2003 Feb;13(2):195-205 [Abstract] On Your Mark, Get Set, GROW! LePRK2-LAT52 interactions regulate pollen tube growth. M.A. Johnson and D. Preuss. (2003) Trends Plant Sci. 8: 97-99. [Abstract] Beyond the Arabidopsis Genome: Opportunities for Comparative Genomics. A.E. Hall*, A. Fiebig* (co-first authors) and D. Preuss (2002) Plant Physiology 129: 1439-1447. [Abstract] Characterization of T-DNA Insertion Sites in Arabidopsis thaliana and the Implications for Saturation Mutagenesis Krysan PJ, Young JC, Jester PJ, Monson S, Copenhaver GP, Preuss D, and Sussman MR. Omics 2002 6(2):163-74 [Abstract] Nucleotide Sequence Database Policies. S. Brunak, A. Danchin, M. Hattori, H. Nakamura, K. Shinozaki, T. Matise, D. Preuss (2002) Science 298:1333. [Abstract] Plant Centromere Functions Defined by Tetrad Analysis and Artificial Chromosomes. D. Preuss and L. Mets. In "Summaries of National Science Foundation-Sponsored Arabidopsis 2010 Projects and National Science Foundation-Sponsored Plant Genome Projects That Are Generating Arabidopsis Resources for the Community", ed. F. Ausubel, (2002) Plant Physiology 129: 394-437. Plotting a Course: Multiple Signals Guide Pollen Tubes to their Targets. M.A. Johnson and D. Preuss. (2002) Developmental Cell 2: 273-281. [Abstract] Sexual Signaling on a Cellular Level: Lessons from Plant Reproduction. Notes from the 2001 ASCB-Promega award lecture. D. Preuss (2002) Mol. Biol. Cell 13:1803-5. [Abstract] Gene Families from the Arabidopsis thaliana Pollen Coat Proteome Mayfield JA, Fiebig A, Johnstone SE, Preuss D. Science 2001 Jun 29;292(5526):2482-5 [Abstract] This article was reviewed in: Nature Reviews Genetics 2, (2001)  Sequence and Analysis of the Arabidopsis Genome. M. Bevan, K. Mayer, O. White, J.A. Eisen, D. Preuss, T. Bureau, S.L. Salzberg, and H.-W. Mewes (2001) Current Opinion in Plant Biology 4:105-110. [Abstract] Analysis of the genome sequence of the flowering plant Arabidopsis thaliana The Arabidopsis Genome Initiative Nature 408, 796-815 (14 December 2000) [Abstract] Alterations in CER6, a Gene Identical to CUT1, Differentially Affect Long-Chain Lipid Content on the Surface of Pollen and Stems Aretha Fiebig, Jacob A. Mayfield, Natasha L. Miley, Samantha Chau, Robert L. Fischer, and Daphne Preuss Plant Cell 2000 12: 2001-2008 [Abstract] This article was reviewed in: Complex Waxes. Plant Cell 12: 1795-1798 Dissecting Arabidopsis Pollen-Stigma Interactions Reveals Novel Mechanisms that Confer Mating Specificity. G.M. Zinkl and D. Preuss (2000) Annals of Botany (Supplement A) 85:15-21. Pollen Tube Targeting and Axon Guidance: Parallels in Tip Growth Mechanisms. R. Palanivelu and D. Preuss (2000) Trends in Cell Biology 10:517-524. [Abstract] Rapid Initiation of Arabidopsis pollination requires the oleosin-domain protein GRP17. J.A. Mayfield and D. Preuss (2000) Nature Cell Biology 2:128-130 [Abstract] Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana Salanoubat M, et. al. Nature 2000 Dec 14;408(6814):820-2 [Abstract] Tetrad Analysis in Higher Plants: A Budding Technology. G.P. Copenhaver, K.C. Keith and D. Preuss (2000) Plant Physiology 124: 17-20. [Abstract] Centromeres in the Genomic Era: Unraveling Paradoxes. G.P. Copenhaver and D. Preuss (1999) Current Opinion in Plant Biology 2:104-108. Chromatin Silencing and Arabidopsis Development: A Role for Polycomb Proteins. D. Preuss (1999) Plant Cell 11:765-768. [Abstract] Genetic Definition and Sequence Analysis of Arabidopsis Centromeres.  G.P. Copenhaver, K. Nickel, T. Kuromori, M. Benito, S. Kaul, X. Lin, R. McCombie, R. Martienssen, L. Parnell, M. Marra, M. Bevan, G. Murphy, B. Harris, D. Preuss (1999) Science 286: 2468-2474. [Abstract] Sequence and Analysis of Chromosome 2 of Arabidopsis thaliana. X. Lin, S. Kaul, S. Rounsley, T.P. Shea, M-I. Benito, C.D. Town, C.Y. Fujii, T. Mason, C. L. Bowman, M. Barnstead, T. Feldblyum, C.R. Buell, K.A. Ketchum, C.M. Ronning, H. Koo, K. Moffat, L. Cronin, M. Shen, G. Pai, S. Van Aken, L. Umayam, L. Tallon, J. Gill, M.D. Adams, A.J. Carrera, T.H. Creasy, H.M. Goodman, C.R. Somerville, G.P. Copenhaver, D. Preuss, W.C. Nierman, O. White, J.A. Eisen, S. Salzberg, C.M. Fraser, and J.C. Venter, (1999) Nature 402: 761-768. [Abstract] Pollen-stigma Adhesion in Arabidopsis: A Species-specific Interaction Mediated by Lipophilic Molecules in the Pollen Exine.  G.M. Zinkl, B.I. Zwiebel, D.G. Grier, and D. Preuss (1999) Development 126: 5431-5440. [Abstract] The Arabidopsis Transposable Element Tag1 is Widely Distributed Among Arabidopsis Ecotypes and Species.  M.J. Frank, D. Preuss, and N.M. Crawford (1998) Mol. Gen. Genet. 257: 478-484. [Abstract] Assaying Genome-wide Recombination and Centromere Functions with Arabidopsis Tetrads.  G. Copenhaver, W.E. Browne, and D. Preuss (1998) PNAS 95: 247-252. [Abstract] Sticking Together: Cell Adhesion Interactions in Arabidopsis Reproduction. G.M. Zinkl, L.K. Wilhelmi, and D. Preuss (1998) J. Plant Res. 111:299-305. Use of Cleaved Amplified Polymorphic Sequences (CAPS) as Genetic Markers in Arabidopsis thaliana. J. Glazebrook, E. Drenkard, D. Preuss, and F. M. Ausubel (1998) Methods Mol. Biol. 82:173-182. [Abstract] TETRASPORE is Required for Cytokinesis following Male Meiosis in Arabidopsis thaliana. M. Spielman, D. Preuss, F.-L. Li, W. E. Browne, R. J. Scott and H. G. Dickinson (1997) Development 124: 2645-2657. [Abstract] Self-sterility in Arabidopsis due to defective pollen tube guidance in redundant pathways. L.K. Wilhelmi and D. Preuss (1996) Science: 274: 1535-1537. [Abstract] Being Fruitful: Genetics of Reproduction in Arabidopsis. Preuss (1996) Science: 274: 1535-1537. [Abstract] Talking through Walls: Signaling in Plant Development. J. Dangl, D. Preuss, and J. Schroeder (1995) Cell 83:1071-1077. [Abstract] The Arabidopsis Floral Homeotic Gene BELL Controls Ovule Development Through Negative Regulation of AGAMOUS.  A. Ray, K. Robinson-Beers, S. Ray, S.C. Baker, J.D. Lang, D. Preuss, S.B. Milligan, and C.S. Gasser (1994) Proc. Natl. Acad. Sci., 91:5761-5765. [Abstract] Cell-cell Interactions and the Selection of Plant Mating Partners. D. Preuss   (1994) In Symposia on Plant Physiology: American Society of Plant Physiologists, Rockville, MD, Pollen Pistil Interactions, ed. T. Kao and A. Stephenson, pp. 77-93. Tetrad Analysis Possible in Arabidopsis with Mutation of the QUARTET (QRT) genes. D. Preuss, S.Y. Rhee, and R.W. Davis (1994) Science, 264:1458-1460. [Abstract] Ultrastructure of the Yeast Actin Cytoskeleton and its Association with the Plasma Membrane. J. Mulholland, D. Preuss, A. Moon, A. Wong, D. Drubin and D. Botstein  (1994) J. Cell Biol., 125:381-391. [Abstract] A Conditional Sterile Mutation Eliminates Surface Components from Arabidopsis Pollen and Disrupts Cell Signaling during Fertilization.  D. Preuss, B. Lemieux, G. Yen, and R.W. Davis, (1993) Genes & Dev. 7: 974-985. [Abstract] Subcellular Localization of Cdc42Sc, a S. cerevisiae GTP-binding Protein involved in the Control of Cell Polarity.  M. Ziman, D. Preuss, J. Mulholland, J. M. O'Brien, D. Botstein, and D.I. Johnson (1993) Molec. Biol. Cell. 4:1307-1316. [Abstract] Characterization of the S. cerevisiae Golgi complex through the Cell Cycle by Immunoelectron Microscopy.  D. Preuss, J. Mulholland, A. Franzusoff, N. Segev, and D. Botstein  (1992) Molec. Biol. Cell. 3:789-803. [Abstract] The VPH1 Gene Encodes a 95kDa Integral Membrane Polypeptide Required for In vivo Assembly and Activity of the Yeast Vacuolar H+-ATPase.  M.F. Manolson, D. Proteau, R.A. Preston, A. Stenbit, B.T. Robert, M.A. Hoyt, D. Preuss, J. Mulholland, D. Botstein, and E.W. Jones, (1992) J.     Biol. Chem. 267:14294-14303. [Abstract] Structure of the Yeast Endoplasmic Reticulum: Localization of ER proteins using Immunofluorescence and Immunoelectron Microscopy.  D. Preuss, J. Mulholland, C.A. Kaiser, P. Orlean, C. Albright, M.D. Rose, P.W. Robbins, and D. Botstein (1991) Yeast 7: 891-911. [Abstract] Intragenic Revertants of Yeast Invertase Variants with Secretion-Defective Leader Sequences. D. Preuss and D. Botstein   (1989) Mol. Cell. Biol. 9: 1452. [Abstract] Many Random Sequences Functionally Replace the Secretion Signal Sequence of Yeast Invertase. C. Kaiser, D. Preuss, P. Grisafi, and D. Botstein  (1987) Science 235:312. 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