Access the full text.
Sign up today, get DeepDyve free for 14 days.
A. Kessler, I. Baldwin (2002)
Plant responses to insect herbivory: the emerging molecular analysis.Annual review of plant biology, 53
Karam Singh, R. Foley, L. Oñate-Sánchez (2002)
Transcription factors in plant defense and stress responses.Current opinion in plant biology, 5 5
M. Aida, T. Ishida, M. Tasaka (1999)
Shoot apical meristem and cotyledon formation during Arabidopsis embryogenesis: interaction among the CUP-SHAPED COTYLEDON and SHOOT MERISTEMLESS genes.Development, 126 8
P. Johnson, E. Sterneck, S. Williams (1993)
Activation domains of transcriptional regulatory proteinsJournal of Nutritional Biochemistry, 4
K. Hammond-Kosack, Jonathan Jones (1996)
Resistance gene-dependent plant defense responses.The Plant cell, 8 10
Rugang Li, R. Rimmer, Min Yu, A. Sharpe, G. Séguin-Swartz, D. Lydiate, D. Hegedus (2003)
Two Brassica napus polygalacturonase inhibitory protein genes are expressed at different levels in response to biotic and abiotic stressesPlanta, 217
H. Stotz, B. Pittendrigh, J. Kroymann, Kerstin Weniger, Jacqueline Fritsche, Antje Bauke, T. Mitchell-Olds (2000)
Induced plant defense responses against chewing insects. Ethylene signaling reduces resistance of Arabidopsis against Egyptian cotton worm but not diamondback moth.Plant physiology, 124 3
R. Sablowski, E. Meyerowitz (1998)
A Homolog of NO APICAL MERISTEM Is an Immediate Target of the Floral Homeotic Genes APETALA3/PISTILLATACell, 92
J. Thain, H. Doherty, D. Bowles, D. Wildon (1990)
Oligosaccharides that induce proteinase inhibitor activity in tomato plants cause depolarization of tomato leaf cellsPlant Cell and Environment, 13
M. Collinge, T. Boller (2001)
Differential induction of two potato genes, Stprx2 and StNAC, in response to infection by Phytophthora infestans and to woundingPlant Molecular Biology, 46
M. Kuhlmann, K. Horvay, A. Strathmann, T. Heinekamp, U. Fischer, S. Böttner, W. Dröge-Laser (2003)
The α-Helical D1 Domain of the Tobacco bZIP Transcription Factor BZI-1 Interacts with the Ankyrin-repeat Protein ANK1 and Is Important for BZI-1 Function, Both in Auxin Signaling and Pathogen Response*The Journal of Biological Chemistry, 278
P. Reymond, H. Weber, Martine Damond, E. Farmer (2000)
Differential Gene Expression in Response to Mechanical Wounding and Insect Feeding in ArabidopsisPlant Cell, 12
Barbara Baker, Patricia Zambryski, B. Staskawicz, S. Dinesh-Kumar (1997)
Signaling in plant-microbe interactions.Science, 276 5313
K. Stowe, R. Marquis, C. Hochwender, E. Simms (2000)
THE EVOLUTIONARY ECOLOGY OF TOLERANCE TO CONSUMER DAMAGEAnnual Review of Ecology, Evolution, and Systematics, 31
Krestine Greve, T. Cour, M. Jensen, F. Poulsen, K. Skriver (2003)
Interactions between plant RING-H2 and plant-specific NAC (NAM/ATAF1/2/CUC2) proteins: RING-H2 molecular specificity and cellular localization.The Biochemical journal, 371 Pt 1
M. Dicke, R.M.P. Van Poecke (2002)
Frontiers in Molecular Biology: Plant Signal Transduction
E. Souer, A. Houwelingen, M. Bliek, R. Beusekom-Kloos, J. Mol, R. Koes (1998)
Co-suppression of nam and homologous genes leads to a reduction in axillary meristem formation and increased leaf and stem size in Petunia, 26
S. Clough, A. Bent (1998)
Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana.The Plant journal : for cell and molecular biology, 16 6
M. Duval, T. Hsieh, S. Kim, T. Thomas (2002)
Molecular characterization of AtNAM: a member of theArabidopsis NAC domain superfamilyPlant Molecular Biology, 50
E. Souer, A. Houwelingen, Daisy Kloos, J. Mol, R. Koes (1996)
The No Apical Meristem Gene of Petunia Is Required for Pattern Formation in Embryos and Flowers and Is Expressed at Meristem and Primordia BoundariesCell, 85
D. Hermsmeier, U. Schittko, I.T. Baldwin (2001)
Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuataPlant Physiol., 125
S. Robatzek, I. Somssich (2001)
A new member of the Arabidopsis WRKY transcription factor family, AtWRKY6, is associated with both senescence- and defence-related processes.The Plant journal : for cell and molecular biology, 28 2
L. Walling (2000)
The Myriad Plant Responses to HerbivoresJournal of Plant Growth Regulation, 19
Hailing Jin, Cathie Martin (1999)
Multifunctionality and diversity within the plant MYB-gene familyPlant Molecular Biology, 41
D. Hermsmeier, Ursula Schittko, I. Baldwin (2001)
Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuata. I. Large-scale changes in the accumulation of growth- and defense-related plant mRNAs.Plant physiology, 125 2
Tao Ren, F. Qu, T. Morris (2000)
HRT Gene Function Requires Interaction between a NAC Protein and Viral Capsid Protein to Confer Resistance to Turnip Crinkle VirusPlant Cell, 12
D.D. Hegedus, M.Y. Gruber, L. Braun, G.G. Khachatourians (2002)
Transgenic Plants and Crops
M. Gruber, D. Hegedus, L. Braun, G. Khachatourians (2002)
Genetic Engineering and Resistance to Insects
Qi Xie, G. Frugis, D. Colgan, N. Chua (2000)
Arabidopsis NAC1 transduces auxin signal downstream of TIR1 to promote lateral root development.Genes & development, 14 23
S. Strauss, A. Agrawal (1999)
The ecology and evolution of plant tolerance to herbivory.Trends in ecology & evolution, 14 5
T. Ishida, M. Aida, Shinobu Takada, Masao Tasaka (2000)
Involvement of CUP-SHAPED COTYLEDON genes in gynoecium and ovule development in Arabidopsis thaliana.Plant & cell physiology, 41 1
Hiroki Tamai, M. Iwabuchi, T. Meshi (2002)
Arabidopsis GARP transcriptional activators interact with the Pro-rich activation domain shared by G-box-binding bZIP factors.Plant & cell physiology, 43 1
Q. Xie, Hui Guo, Geza Dallman, Shengyun Fang, A. Weissman, N. Chua (2002)
SINAT5 promotes ubiquitin-related degradation of NAC1 to attenuate auxin signalsNature, 419
P. Schenk, K. Kazan, I. Wilson, Jonathan Anderson, Todd Richmond, S. Somerville, J. Manners (2000)
Coordinated plant defense responses in Arabidopsis revealed by microarray analysis.Proceedings of the National Academy of Sciences of the United States of America, 97 21
W. Chen, Karam Singh (1999)
The auxin, hydrogen peroxide and salicylic acid induced expression of the Arabidopsis GST6 promoter is mediated in part by an ocs element.The Plant journal : for cell and molecular biology, 19 6
M. Aida, T. Ishida, H. Fukaki, Hisao Fujisawa, M. Tasaka (1997)
Genes involved in organ separation in Arabidopsis: an analysis of the cup-shaped cotyledon mutant.The Plant cell, 9
E. Souer, A. van Houwelingen, M. Bliek, D. Kloos, J. Mol, R. Koes (1998)
Co-suppression of nam and homologous genes leads to a reduction in axillary meristem formation and increased leaf and stem size in Petunia: a possible role for NAC domain genes in plant developmentFlowering Newsl., 26
Shinobu Takada, K. Hibara, T. Ishida, M. Tasaka (2001)
The CUP-SHAPED COTYLEDON1 gene of Arabidopsis regulates shoot apical meristem formation.Development, 128 7
M. Rechsteiner, S. Rogers (1996)
PEST sequences and regulation by proteolysis.Trends in biochemical sciences, 21 7
Murat Cokol, R. Nair, B. Rost (2000)
Finding nuclear localization signalsEMBO reports, 1
K. Kikuchi, M. Ueguchi-Tanaka, Kayo Yoshida, Yasuo Nagato, M. Matsusoka, H. Hirano (2000)
Molecular analysis of the NAC gene family in riceMolecular and General Genetics MGG, 262
I. Baldwin, C. Preston (1999)
The eco-physiological complexity of plant responses to insect herbivoresPlanta, 208
Q. Xie, A. Sanz-Burgos, Huishan Guo, J. García, C. Gutiérrez (1999)
GRAB proteins, novel members of the NAC domain family, isolated by their interaction with a geminivirus proteinPlant Molecular Biology, 39
Subtractive expressed sequence tag analysis and screening of cDNA libraries derived from Brassica napus leaves subjected to mechanical wounding, flea beetle feeding or cold temperatures revealed eight genes encoding NAC-domain transcription factors. The genes were found to be differentially regulated in response to biotic and abiotic stresses including wounding, insect feeding, Sclerotinia sclerotiorum infection, cold shock and dehydration. Five BnNAC proteins were orthologous to Arabidopsis thaliana ATAF1 or ATAF2 and gave rise to developmental abnormalities similar to the A. thaliana nam and cuc mutants when expressed ectopically in A. thaliana. Transgenic lines expressing BnNAC14, exhibited large leaves, thickened stems and hyper-developed lateral root systems similar to that observed with A. thaliana NAC1, but also were delayed in bolting and lacked an apical dominant tap root. Several of the BnNAC proteins were capable of activating gene expression in yeast and recognized an element within the CaMV35S promoter. A yeast two-hybrid screen revealed that BnNAC14 interacted with other select BnNAC proteins in vitro and identified an additional BnNAC gene, BnNAC485. The protein interaction and transcriptional activation domains were mapped by deletion analysis.
Plant Molecular Biology – Springer Journals
Published: Oct 7, 2004
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.