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M. Chrispeels (1969)
Synthesis and secretion of hydroxyproline containing macromolecules in carrots. I. Kinetic analysis.Plant physiology, 44 8
H. Wu, J. Zou, B. May, Q. Gu, A. Cheung (1993)
A tobacco gene family for flower cell wall proteins with a proline-rich domain and a cysteine-rich domain.Proceedings of the National Academy of Sciences of the United States of America, 90 14
J. Fletcher, U. Brand, M. Running, R. Simon, E. Meyerowitz (1999)
Signaling of cell fate decisions by CLAVATA3 in Arabidopsis shoot meristems.Science, 283 5409
D. Lamport (1966)
The Protein Component of Primary Cell WallsAdvances in Botanical Research, 2
Y. Heslop-Harrison, B.J. Reger, J. Heslop-Harrison (1984)
The pollen-stigma interaction in the grasses. 6. The stigma ('silk') of Zea mays L. as host to the pollens of Sorghum bicolor (L.) Moench and Pennisetum americanum (L.) LeekeActa Bot. Neerl., 33
A. Moscatelli, M. Cresti (2001)
Pollen Germination and Pollen Tube Growth
(1989)
Molecular Cloning: A Laboratory Manual, 2nd ed
(1996)
The roles of leucine rich repeats in plant defences
M. Botella, J. Parker, Louise Frost, P. Bittner-Eddy, J. Beynon, M. Daniels, E. Holub, Jonathan Jones (1998)
Three Genes of the Arabidopsis RPP1 Complex Resistance Locus Recognize Distinct Peronospora parasitica Avirulence DeterminantsPlant Cell, 10
A. Rubinstein, J. Márquez, M. Suárez-Cervera, P. Bedinger (1995)
Extensin-like Glycoproteins in the Maize Pollen Tube Wall.The Plant cell, 7
Chao Chen, E. Cornish, A. Clarke (1992)
Specific expression of an extensin-like gene in the style of Nicotiana alata.The Plant cell, 4
R. Jefferson, T. Kavanagh, M. Bevan (1987)
GUS fusions: beta‐glucuronidase as a sensitive and versatile gene fusion marker in higher plants.The EMBO Journal, 6
A. Showalter (1993)
Structure and function of plant cell wall proteins.The Plant cell, 5
Amy Trotochaud, Sangho Jeong, S. Clark (2000)
CLAVATA3, a multimeric ligand for the CLAVATA1 receptor-kinase.Science, 289 5479
S. McCormick (1991)
Plant Tissue Culture Manual: Fundamentals and Applications
M. Kieliszewski, Derekt Lamport (1994)
Extensin: repetitive motifs, functional sites, post-translational codes, and phylogeny.The Plant journal : for cell and molecular biology, 5 2
S. McCormick (1991)
Transformation of tomato with Agrobacterium tumefaciens
D. Kneller, F. Cohen, R. Langridge (1990)
Improvements in protein secondary structure prediction by an enhanced neural network.Journal of molecular biology, 214 1
P. Bedinger (1992)
The remarkable biology of pollen.The Plant cell, 4
J. McDowell, Murali Dhandaydham, Terri Long, M. Aarts, S. Goff, E. Holub, J. Dangl (1998)
Intragenic Recombination and Diversifying Selection Contribute to the Evolution of Downy Mildew Resistance at the RPP8 Locus of ArabidopsisPlant Cell, 10
B. Kobe, B. Kobe, J. Deisenhofer, J. Deisenhofer (1995)
Proteins with leucine-rich repeats.Current opinion in structural biology, 5 3
James Cooper, W. Adair, Robert Mecham, John Heuser (1983)
Chlamydomonas agglutinin is a hydroxyproline-rich glycoprotein.Proceedings of the National Academy of Sciences of the United States of America, 80 19
P. Chou, G. Fasman (2006)
Prediction of the secondary structure of proteins from their amino acid sequence.Advances in Enzymology and Related Areas of Molecular Biology, 47
J. Logemann, Jeff Schell, Lothar Willmitzer (1987)
Improved method for the isolation of RNA from plant tissues.Analytical biochemistry, 163 1
J. Mascarenhas (1993)
Molecular Mechanisms of Pollen Tube Growth and Differentiation.The Plant cell, 5
(1984)
Adhesion and germination of differently treated maize pollen grains on the stigma
A. Cheung, Hong Wang, Hen-Ming Wu (1995)
A floral transmitting tissue-specific glycoprotein attracts pollen tubes and stimulates their growthCell, 82
S. Fry (1986)
Cross-Linking of Matrix Polymers in the Growing Cell Walls of AngiospermsAnnual Review of Plant Biology, 37
(1989)
Tansley Review No
D. Hamilton, Y. Schwarz, J. Rueda, J. Mascarenhas (2000)
Comparison of transient and stable expression by a pollen-specific promoter: the transformation results do not always agreeSexual Plant Reproduction, 12
S. Waffenschmidt, J. Woessner, K. Beer, U. Goodenough (1993)
Isodityrosine cross-linking mediates insolubilization of cell walls in Chlamydomonas.The Plant cell, 5
J. Sambrook, E. Fritsch, T. Maniatis (2001)
Molecular Cloning: A Laboratory Manual
M. Kieliszewski, M. O’Neill, J. Leykam, R. Orlando (1995)
Tandem Mass Spectrometry and Structural Elucidation of Glycopeptides from a Hydroxyproline-rich Plant Cell Wall Glycoprotein Indicate That Contiguous Hydroxyproline Residues Are the Major Sites of Hydroxyproline O-Arabinosylation (*)The Journal of Biological Chemistry, 270
Yi-qin Li, L. Bruun, E. Pierson, M. Cresti (1992)
Periodic deposition of arabinogalactan epitopes in the cell wall of pollen tubes of Nicotiana tabacum L.Planta, 188
(1996)
Localization of pectins and AGPs in lily pollen tube and style and their possible roles in pollination
W. Adair, C. Hwang, U. Goodenough (1983)
Identification and visualization of the sexual agglutinin from the mating-type plus flagellar membrane of ChlamydomonasCell, 33
G.-J. Holst, Joseph Varner (1984)
Reinforced Polyproline II Conformation in a Hydroxyproline-Rich Cell Wall Glycoprotein from Carrot Root.Plant physiology, 74 2
T. Baldwin, E. Coen, H. Dickinson (1992)
The ptl1 gene expressed in the transmitting tissue of Antirrhinum encodes an extensin-like protein.The Plant journal : for cell and molecular biology, 2 5
Yoram Eyal, Catherine Curie, Sheila McCormick (1995)
Pollen specificity elements reside in 30 bp of the proximal promoters of two pollen-expressed genes.The Plant cell, 7
James McClelland, D. Rumelhart (1988)
Explorations in parallel distributed processing: a handbook of models, programs, and exercisesAmerican Journal of Psychology, 102
Y. Meyer, W. Abel (2004)
Importance of the wall for cell division and in the activity of the cytoplasm in cultured tobacco protoplastsPlanta, 123
(1989)
Tansley Review No . 16 . Pollen tube tip growth
(1969)
Synthesis and secretion of hydroxyproline containing macromolecules in carrots I
M. Goldman, M. Pezzotti, J. Seurinck, C. Mariani (1992)
Developmental expression of tobacco pistil-specific genes encoding novel extensin-like proteins.The Plant cell, 4
E. Emini, J. Hughes, D. Perlow, J. Boger (1985)
Induction of hepatitis A virus-neutralizing antibody by a virus-specific synthetic peptideJournal of Virology, 55
Y. Heslop-Harrison, J. Heslop-Harrison, B. Reger (1985)
THE POLLEN‐STIGMA INTERACTION IN THE GRASSES. 7. POLLEN‐TUBE GUIDANCE AND THE REGULATION OF TUBE NUMBER IN ZEA MAYS L., 34
G. Heijne (1986)
A new method for predicting signal sequence cleavage sites.Nucleic acids research, 14 11
B. Kobe, J. Deisenhofer (1994)
The leucine-rich repeat: a versatile binding motif.Trends in biochemical sciences, 19 10
S. McCormick, A. Smith, C. Gasser, K. Sachs, M. Hinchee, R. Horsch, R. Fraley (1987)
Tomato Biotechnology
J. Muschietti, Y. Eyal, S. McCormick (1998)
Pollen Tube Localization Implies a Role in Pollen–Pistil Interactions for the Tomato Receptor-like Protein Kinases LePRK1 and LePRK2Plant Cell, 10
S.C. Fry (1986)
Cross-linking of matrix polymers in the growing cell walls of angiospermsAnnu. Rev. Plant Physiol., 37
G. Hills, J. Phillips, M. Gay, K. Roberts (1975)
Self-assembly of a plant cell wall in vitro.Journal of molecular biology, 96 3
D. Twell, J. Yamaguchi, R. Wing, J. Ushiba, S. McCormick (1991)
Promoter analysis of genes that are coordinately expressed during pollen development reveals pollen-specific enhancer sequences and shared regulatory elements.Genes & development, 5 3
A. Rubinstein, A. Broadwater, K. Lowrey, P. Bedinger (1995)
Pex1, a pollen-specific gene with an extensin-like domain.Proceedings of the National Academy of Sciences of the United States of America, 92
Y. Heslop-Harrison, B. Reger, J. Heslop-Harrison (1984)
THE POLLEN-STIGMA INTERACTION IN THE GRASSES. 6. THE STIGMA (‘SILK’) OF ZEA MAYS L. AS HOST TO THE POLLENS OF SORGHUM BICOLOR (L.) MOENCH AND PENNISETUM AMERICANUM (L.) LEEKEPlant Biology, 33
Allan Showalter, John Bell, C. Cramer, J. Bailey, J. Varner, Christopher Lamb (1985)
Accumulation of hydroxyproline-rich glycoprotein mRNAs in response to fungal elicitor and infection.Proceedings of the National Academy of Sciences of the United States of America, 82 19
D. Lamport (1963)
Oxygen fixation into hydroxyproline of plant cell wall protein.The Journal of biological chemistry, 238
G. Jauh, E. Lord (1996)
Localization of pectins and arabinogalactan-proteins in lily (Lilium longiflorum L.) pollen tube and style, and their possible roles in pollinationPlanta, 199
M. Steer, Jill Steer (1989)
Pollen tube tip growth.The New phytologist, 111 3
F. Jeanmougin, J. Thompson, M. Gouy, D. Higgins, T. Gibson (1998)
Multiple sequence alignment with Clustal X.Trends in biochemical sciences, 23 10
J. Lind, A. Bacic, A. Clarke, M. Anderson (1994)
A style-specific hydroxyproline-rich glycoprotein with properties of both extensins and arabinogalactan proteins.The Plant journal : for cell and molecular biology, 6 4
(1987)
Identification of genes specifically expressed in reproductive organs of tomato
G. Cassab (1998)
PLANT CELL WALL PROTEINS.Annual review of plant physiology and plant molecular biology, 49
C. Ferguson, T. Teeri, M. Siika‐aho, S. Read, A. Bacic (1998)
Location of cellulose and callose in pollen tubes and grains of Nicotiana tabacumPlanta, 206
D. Lamport (1977)
Structure, Biosynthesis and Significance of Cell Wall Glycoproteins
(1983)
Chlamydomonas agglutinin
(1993)
A tobacco gene family of flower cell wall proteins with a prolinerich and a cysteine-rich domain
L. Epstein, D. Lamport (1984)
An intramolecular linkage involving isodityrosine in extensinPhytochemistry, 23
We previously isolated a pollen-specific gene encoding a pollen tube wall-associated glycoprotein with a globular domain and an extensin domain from maize (mPex1). To evaluate which protein domains might be important for function, we isolated a second monocot gene (mPex2) and a dicot gene (tPex). Each gene encodes a signal sequence, an N-terminal globular domain comprised of a variable region, a leucine-rich repeat (LRR) with an adjacent cysteine-rich region, a transition region and an extensin-like C-terminal domain. The LRRs of the maize and tomato Pex proteins are highly conserved. Although the extensin domains in the maize and tomato proteins vary in length and in amino acid sequence, they are likely to be structurally conserved. Additional putative Pex gene sequences were identified by either GenBank search (Arabidopsis) or PCR (sorghum and potato); all encode conserved LRRs. The presence of a conserved LRR in the known and potential Pex proteins strongly suggests that this motif is involved in the binding of a specific ligand during pollen tube growth. Gene expression studies using RNA and protein blotting as well as promoter-reporter gene fusions in transient and stable transformation indicate that the tomato Pex gene is pollen-specific.
Plant Molecular Biology – Springer Journals
Published: Oct 3, 2004
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