Literature DB >> 9536064

Three drought-responsive members of the nonspecific lipid-transfer protein gene family in Lycopersicon pennellii show different developmental patterns of expression.

M B Trevino1, M A OConnell.   

Abstract

Genomic clones of two nonspecific lipid-transfer protein genes from a drought-tolerant wild species of tomato (Lycopersicon pennellii Corr.) were isolated using as a probe a drought- and abscisic acid (ABA)-induced cDNA clone (pLE16) from cultivated tomato (Lycopersicon esculentum Mill.). Both genes (LpLtp1 and LpLtp2) were sequenced and their corresponding mRNAs were characterized; they are both interrupted by a single intron at identical positions and predict basic proteins of 114 amino acid residues. Genomic Southern data indicated that these genes are members of a small gene family in Lycopersicon spp. The 3'-untranslated regions from LpLtp1 and LpLtp2, as well as a polymerase chain reaction-amplified 3'-untranslated region from pLE16 (cross-hybridizing to a third gene in L. pennellii, namely LpLtp3), were used as gene-specific probes to describe expression in L. pennellii through northern-blot analyses. All LpLtp genes were exclusively expressed in the aerial tissues of the plant and all were drought and ABA inducible. Each gene had a different pattern of expression in fruit, and LpLtp1 and LpLtp2, unlike LpLtp3, were both primarily developmentally regulated in leaf tissue. Putative ABA-responsive elements were found in the proximal promoter regions of LpLtp1 and LpLtp2.

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Year:  1998        PMID: 9536064      PMCID: PMC35054          DOI: 10.1104/pp.116.4.1461

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  32 in total

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Journal:  Plant Mol Biol       Date:  1994-11       Impact factor: 4.076

3.  Drought- and ABA-Induced Changes in Polypeptide and mRNA Accumulation in Tomato Leaves.

Authors:  E A Bray
Journal:  Plant Physiol       Date:  1988-12       Impact factor: 8.340

4.  Abscisic acid-responsive sequences from the em gene of wheat.

Authors:  W R Marcotte; S H Russell; R S Quatrano
Journal:  Plant Cell       Date:  1989-10       Impact factor: 11.277

5.  Characterization of Expression of Drought- and Abscisic Acid-Regulated Tomato Genes in the Drought-Resistant Species Lycopersicon pennellii.

Authors:  T. L. Kahn; S. E. Fender; E. A. Bray; M. A. O'Connell
Journal:  Plant Physiol       Date:  1993-10       Impact factor: 8.340

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Authors:  J Pyee; H Yu; P E Kolattukudy
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Authors:  G M Helmkamp
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8.  High-resolution crystal structure of the non-specific lipid-transfer protein from maize seedlings.

Authors:  D H Shin; J Y Lee; K Y Hwang; K K Kim; S W Suh
Journal:  Structure       Date:  1995-02-15       Impact factor: 5.006

9.  Functional dissection of an abscisic acid (ABA)-inducible gene reveals two independent ABA-responsive complexes each containing a G-box and a novel cis-acting element.

Authors:  Q Shen; T H Ho
Journal:  Plant Cell       Date:  1995-03       Impact factor: 11.277

10.  A pair of genes coding for lipid-transfer proteins in Sorghum vulgare.

Authors:  F Pelèse-Siebenbourg; C Caelles; J C Kader; M Delseny; P Puigdomènech
Journal:  Gene       Date:  1994-10-21       Impact factor: 3.688
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  43 in total

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Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2002-07-29       Impact factor: 6.237

Review 3.  Cryoprotectin: a plant lipid-transfer protein homologue that stabilizes membranes during freezing.

Authors:  Dirk K Hincha
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2002-07-29       Impact factor: 6.237

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5.  Identification of pathogen-responsive regions in the promoter of a pepper lipid transfer protein gene (CALTPI) and the enhanced resistance of the CALTPI transgenic Arabidopsis against pathogen and environmental stresses.

Authors:  Ho Won Jung; Ki Deok Kim; Byung Kook Hwang
Journal:  Planta       Date:  2005-01-15       Impact factor: 4.116

6.  Identification and characterization of high temperature stress responsive genes in bread wheat (Triticum aestivum L.) and their regulation at various stages of development.

Authors:  Harsh Chauhan; Neetika Khurana; Akhilesh K Tyagi; Jitendra P Khurana; Paramjit Khurana
Journal:  Plant Mol Biol       Date:  2010-10-23       Impact factor: 4.076

7.  Comparative transcriptomics reveals patterns of selection in domesticated and wild tomato.

Authors:  Daniel Koenig; José M Jiménez-Gómez; Seisuke Kimura; Daniel Fulop; Daniel H Chitwood; Lauren R Headland; Ravi Kumar; Michael F Covington; Upendra Kumar Devisetty; An V Tat; Takayuki Tohge; Anthony Bolger; Korbinian Schneeberger; Stephan Ossowski; Christa Lanz; Guangyan Xiong; Mallorie Taylor-Teeples; Siobhan M Brady; Markus Pauly; Detlef Weigel; Björn Usadel; Alisdair R Fernie; Jie Peng; Neelima R Sinha; Julin N Maloof
Journal:  Proc Natl Acad Sci U S A       Date:  2013-06-26       Impact factor: 11.205

8.  Increased accumulation of cuticular wax and expression of lipid transfer protein in response to periodic drying events in leaves of tree tobacco.

Authors:  Kimberly D Cameron; Mark A Teece; Lawrence B Smart
Journal:  Plant Physiol       Date:  2005-12-16       Impact factor: 8.340

9.  Expression analysis of a family of nsLTP genes tissue specifically expressed throughout the plant and during potato tuber life cycle.

Authors:  Beatrix M Horvath; Christian W B Bachem; Luisa M Trindade; Marian E P Oortwijn; Richard G F Visser
Journal:  Plant Physiol       Date:  2002-08       Impact factor: 8.340

10.  Lipid transfer proteins in coffee: isolation of Coffea orthologs, Coffea arabica homeologs, expression during coffee fruit development and promoter analysis in transgenic tobacco plants.

Authors:  Michelle G Cotta; Leila M G Barros; Juliana D de Almeida; Fréderic de Lamotte; Eder A Barbosa; Natalia G Vieira; Gabriel S C Alves; Felipe Vinecky; Alan C Andrade; Pierre Marraccini
Journal:  Plant Mol Biol       Date:  2014-01-28       Impact factor: 4.076
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