Literature DB >> 12368500

A tumor suppressor homolog, AtPTEN1, is essential for pollen development in Arabidopsis.

Rajeev Gupta1, Julie T L Ting, Lubomir N Sokolov, Sheila A Johnson, Sheng Luan.   

Abstract

Although it is well known that Tyr phosphatases play a critical role in signal transduction in animal cells, little is understood of the functional significance of Tyr phosphatases in higher plants. Here, we describe the functional analysis of an Arabidopsis gene (AtPTEN1) that encodes a Tyr phosphatase closely related to PTEN, a tumor suppressor in animals. The recombinant AtPTEN1 protein, like its homologs in animals, is an active phosphatase that dephosphorylates phosphotyrosine and phosphatidylinositol substrates. RNA gel blot analysis and examination of promoter-reporter constructs in transgenic Arabidopsis plants revealed that the AtPTEN1 gene is expressed exclusively in pollen grains during the late stage of development. Suppression of AtPTEN1 gene expression by RNA interference caused pollen cell death after mitosis. We conclude that AtPTEN1 is a pollen-specific phosphatase and is essential for pollen development.

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Year:  2002        PMID: 12368500      PMCID: PMC151231          DOI: 10.1105/tpc.005702

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  48 in total

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Authors:  J. P. Mascarenhas
Journal:  Plant Cell       Date:  1989-07       Impact factor: 11.277

2.  T-DNA mediated disruption of essential gametophytic genes in Arabidopsis is unexpectedly rare and cannot be inferred from segregation distortion alone.

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Journal:  Mol Gen Genet       Date:  1998-12

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Journal:  Science       Date:  1990-08-03       Impact factor: 47.728

Review 4.  Protein-tyrosine phosphatases.

Authors:  R L Stone; J E Dixon
Journal:  J Biol Chem       Date:  1994-12-16       Impact factor: 5.157

5.  PTEN modulates cell cycle progression and cell survival by regulating phosphatidylinositol 3,4,5,-trisphosphate and Akt/protein kinase B signaling pathway.

Authors:  H Sun; R Lesche; D M Li; J Liliental; H Zhang; J Gao; N Gavrilova; B Mueller; X Liu; H Wu
Journal:  Proc Natl Acad Sci U S A       Date:  1999-05-25       Impact factor: 11.205

Review 6.  PTEN and myotubularin: novel phosphoinositide phosphatases.

Authors:  T Maehama; G S Taylor; J E Dixon
Journal:  Annu Rev Biochem       Date:  2001       Impact factor: 23.643

7.  Splice site prediction in Arabidopsis thaliana pre-mRNA by combining local and global sequence information.

Authors:  S M Hebsgaard; P G Korning; N Tolstrup; J Engelbrecht; P Rouzé; S Brunak
Journal:  Nucleic Acids Res       Date:  1996-09-01       Impact factor: 16.971

8.  The C. elegans PTEN homolog, DAF-18, acts in the insulin receptor-like metabolic signaling pathway.

Authors:  S Ogg; G Ruvkun
Journal:  Mol Cell       Date:  1998-12       Impact factor: 17.970

9.  PTEN affects cell size, cell proliferation and apoptosis during Drosophila eye development.

Authors:  H Huang; C J Potter; W Tao; D M Li; W Brogiolo; E Hafen; H Sun; T Xu
Journal:  Development       Date:  1999-12       Impact factor: 6.868

10.  Pollen-specific gene expression in transgenic plants: coordinate regulation of two different tomato gene promoters during microsporogenesis.

Authors:  D Twell; J Yamaguchi; S McCormick
Journal:  Development       Date:  1990-07       Impact factor: 6.868
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  52 in total

1.  Analysis of transposon insertion mutants highlights the diversity of mechanisms underlying male progamic development in Arabidopsis.

Authors:  Eric Lalanne; Christos Michaelidis; James M Moore; Wendy Gagliano; Andrew Johnson; Ramesh Patel; Ross Howden; Jean-Phillippe Vielle-Calzada; Ueli Grossniklaus; David Twell
Journal:  Genetics       Date:  2004-08       Impact factor: 4.562

Review 2.  Control of male gametophyte development.

Authors:  Sheila McCormick
Journal:  Plant Cell       Date:  2004-03-22       Impact factor: 11.277

3.  The Protein Phosphatases and Protein Kinases of Arabidopsis thaliana.

Authors:  Huachun Wang; David Chevalier; Clayton Larue; Sung Ki Cho; John C Walker
Journal:  Arabidopsis Book       Date:  2007-02-20

Review 4.  Metabolism and roles of phosphatidylinositol 3-phosphate in pollen development and pollen tube growth in Arabidopsis.

Authors:  Xin-Qi Gao; Xian Sheng Zhang
Journal:  Plant Signal Behav       Date:  2012-02-01

5.  Genetic analysis and fine mapping of the Ga1-S gene region conferring cross-incompatibility in maize.

Authors:  Hua Zhang; Xu Liu; Yu'e Zhang; Chuan Jiang; Dezhou Cui; Huaihua Liu; Detao Li; Liwen Wang; Tingting Chen; Lihua Ning; Xia Ma; Huabang Chen
Journal:  Theor Appl Genet       Date:  2011-10-19       Impact factor: 5.699

6.  Silencing of the pollen-specific gene NTP303 and its family members in tobacco affects in vivo pollen tube growth and results in male sterile plants.

Authors:  Peter de Groot; Koen Weterings; Mark de Been; Floyd Wittink; Raymond Hulzink; Jan Custers; Marinus van Herpen; George Wullems
Journal:  Plant Mol Biol       Date:  2004-07       Impact factor: 4.076

7.  Small heat shock proteins are differentially regulated during pollen development and following heat stress in tobacco.

Authors:  Roman A Volkov; Irina I Panchuk; Fritz Schöffl
Journal:  Plant Mol Biol       Date:  2005-03       Impact factor: 4.076

8.  RNA interference of the Arabidopsis putative transcription factor TCP16 gene results in abortion of early pollen development.

Authors:  Taito Takeda; Kazuo Amano; Masa-Aki Ohto; Kenzo Nakamura; Shusei Sato; Tomohiko Kato; Satoshi Tabata; Chiharu Ueguchi
Journal:  Plant Mol Biol       Date:  2006-05       Impact factor: 4.076

9.  FlowerNet: a gene expression correlation network for anther and pollen development.

Authors:  Simon Pearce; Alison Ferguson; John King; Zoe A Wilson
Journal:  Plant Physiol       Date:  2015-02-09       Impact factor: 8.340

10.  An Arabidopsis homolog of yeast ATG6/VPS30 is essential for pollen germination.

Authors:  Yuki Fujiki; Kohki Yoshimoto; Yoshinori Ohsumi
Journal:  Plant Physiol       Date:  2007-01-26       Impact factor: 8.340
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