Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/an-inexpensive-easy-to-use-and-highly-customizable-growth-chamber-Ap042rdfY2
References (24)
-
Thomas Slewinski, D. Braun (2010)
The Psychedelic Genes of Maize Redundantly Promote Carbohydrate Export From LeavesGenetics, 185
-
A. Wilke, C. Bronson, A. Tomás, G. Munkvold (2007)
Seed Transmission of Fusarium verticillioides in Maize Plants Grown Under Three Different Temperature Regimes.Plant disease, 91 9
-
T. Cheesbrough (1989)
Changes in the Enzymes for Fatty Acid Synthesis and Desaturation during Acclimation of Developing Soybean Seeds to Altered Growth Temperature.Plant physiology, 90 2
-
P. Williams, C. Hill (1986)
Rapid-Cycling Populations of BrassicaScience, 232
-
Thu Tran, Carissa Hampton, Tom Brossard, M. Harmata, J. Robertson, S. Jurisson, David Braun (2017)
In vivo transport of three radioactive [18F]-fluorinated deoxysucrose analogs by the maize sucrose transporter ZmSUT1.Plant physiology and biochemistry : PPB, 115
-
Jenifer Bush, G. Jander, F. Ausubel (2006)
Prevention and control of pests and diseases.Methods in molecular biology, 323
-
M. Schratz, Christine Gupta, T. Struhs, Kara Gray (2016)
A New Way to See the Light: Improving Light Quality with Cost-Effective LED TechnologyIEEE Industry Applications Magazine, 22
-
F. Katagiri, Dario Canelon-Suarez, Kelsey Griffin, John Petersen, R. Meyer, Megan Siegle, K. Mase (2015)
Design and Construction of an Inexpensive Homemade Plant Growth ChamberPLoS ONE, 10
-
T. Paulitz, R. Bélanger (2003)
Biological control in greenhouse systems.Annual review of phytopathology, 39
-
Chuc Nguyen, V. Singh, E. Oosterom, S. Chapman, D. Jordan, G. Hammer (2013)
Genetic variability in high temperature effects on seed-set in sorghum.Functional plant biology : FPB, 40 5
-
I. Saab, R. Sharp, J. Pritchard, G. Voetberg (1990)
Increased endogenous abscisic Acid maintains primary root growth and inhibits shoot growth of maize seedlings at low water potentials.Plant physiology, 93 4
-
Morgan McCaw, J. Birchler (2017)
Handling Fast‐Flowering Mini‐Maize, 2
-
R. Baker, K. Leach, Nathanial Boyer, Michael Swyers, Yoselin Benitez-Alfonso, Tara Skopelitis, Anding Luo, A. Sylvester, D. Jackson, David Braun (2016)
Sucrose Transporter ZmSut1 Expression and Localization Uncover New Insights into Sucrose Phloem Loading1[OPEN]Plant Physiology, 172
-
D. Braun, Yi Ma, N. Inada, M. Muszynski, R. Baker (2006)
tie-dyed1 Regulates Carbohydrate Accumulation in Maize Leaves1[C][W][OA]Plant Physiology, 142
-
M. Ishibashi, I. Terashima (1995)
Effects of continuous leaf wetness on photosynthesis: adverse aspects of rainfallPlant Cell and Environment, 18
-
Mingshu Huang, Thomas Slewinski, R. Baker, D. Janick-Buckner, B. Buckner, G. Johal, David Braun (2009)
Camouflage patterning in maize leaves results from a defect in porphobilinogen deaminase.Molecular plant, 2 4
-
M. Hossain, Taiji Kawakatsu, K. Kim, Ning Zhang, C. Nguyen, Saad Khan, Josef Batek, T. Joshi, J. Schmutz, J. Grimwood, Robert Schmitz, Dong Xu, S. Jackson, J. Ecker, G. Stacey (2017)
Divergent cytosine DNA methylation patterns in single-cell, soybean root hairs.The New phytologist, 214 2
-
Morgan McCaw, Jason Wallace, P. Albert, E. Buckler, J. Birchler (2016)
Fast-Flowering Mini-Maize: Seed to Seed in 60 DaysGenetics, 204
-
Krishnanand Kulkarni, Sovetgul Asekova, Dong-Ho Lee, K. Bilyeu, J. Song, Jeong-Dong Lee (2017)
Mapping QTLs for 100-seed weight in an interspecific soybean cross of Williams 82 (Glycine max) and PI 366121 (Glycine soja)Crop and Pasture Science, 68
-
R. Morrow (2008)
LED Lighting in HorticultureHortscience, 43
-
Robert Sharp, M. Lenoble, M. Else, Eleanor Thorne, Francesca Gherardi (2000)
Endogenous ABA maintains shoot growth in tomato independently of effects on plant water balance: evidence for an interaction with ethylene.Journal of experimental botany, 51 350
-
Y. Cheng, K. Cheng
2006 2nd International Conference on Power Electronics Systems and Applications General Study for Using Led to Replace Traditional Lighting Devices -
J. Schmutz, S. Cannon, J. Schlueter, Jianxin Ma, T. Mitros, W. Nelson, D. Hyten, Q. Song, J. Thelen, Jianlin Cheng, Dong Xu, U. Hellsten, G. May, Yeisoo Yu, Tetsuya Sakurai, T. Umezawa, M. Bhattacharyya, D. Sandhu, B. Valliyodan, E. Lindquist, Myron Peto, D. Grant, S. Shu, D. Goodstein, K. Barry, Montona Futrell-Griggs, Brian Abernathy, Jianchang Du, Zhixi Tian, Liucun Zhu, N. Gill, T. Joshi, M. Libault, A. Sethuraman, Xue-Cheng Zhang, K. Shinozaki, H. Nguyen, R. Wing, P. Cregan, J. Specht, J. Grimwood, D. Rokhsar, G. Stacey, R. Shoemaker, S. Jackson (2010)
Genome sequence of the palaeopolyploid soybeanNature, 463
-
P. Schnable, D. Ware, R. Fulton, J. Stein, Fusheng Wei, S. Pasternak, Chengzhi Liang, Jianwei Zhang, L. Fulton, T. Graves, P. Minx, A. Reily, L. Courtney, Scott Kruchowski, Chad Tomlinson, C. Strong, Kimberley Delehaunty, C. Fronick, B. Courtney, S. Rock, E. Belter, Feiyu Du, Kyung Kim, R. Abbott, M. Cotton, Andy Levy, P. Marchetto, Kerri Ochoa, S. Jackson, B. Gillam, Weizu Chen, L. Yan, Jamey Higginbotham, M. Cardenas, Jason Waligorski, Elizabeth Applebaum, L. Phelps, J. Falcone, K. Kanchi, T. Thane, A. Scimone, Nay Thane, J. Henke, Tom Wang, J. Ruppert, Neha Shah, Kelsi Rotter, J. Hodges, Elizabeth Ingenthron, M. Cordes, Sara Kohlberg, Jennifer Sgro, Brandon Delgado, Kelly Mead, A. Chinwalla, S. Leonard, Kevin Crouse, K. Collura, D. Kudrna, J. Currie, Ruifeng He, A. Angelova, Shanmugam Rajasekar, T. Mueller, Rene Lomeli, Gabriel Scara, A. Ko, Krista Delaney, Marina Wissotski, G. López, D. Campos, Michele Braidotti, Elizabeth Ashley, W. Golser, Hyeran Kim, Seunghee Lee, Jinke Lin, Zeljko Dujmic, Woojin Kim, J. Talag, A. Zuccolo, Chuanzhu Fan, A. Sebastian, M. Kramer, L. Spiegel, Lidia Nascimento, Theresa Zutavern, B. Miller, Claude Ambroise, S. Muller, W. Spooner, A. Narechania, Liya Ren, Sharon Wei, Sunita Kumari, B. Faga, Michael Levy, L. McMahan, Peter Buren, M. Vaughn, Kai Ying, C. Yeh, S. Emrich, Yi Jia, A. Kalyanaraman, An-Ping Hsia, W. Barbazuk, R. Baucom, T. Brutnell, N. Carpita, C. Chaparro, Jer-Ming Chia, J. Deragon, J. Estill, Yan Fu, J. Jeddeloh, Yujun Han, Hyeran Lee, Pinghua Li, D. Lisch, Sanzhen Liu, Zhijie Liu, Dawn Nagel, M. McCann, P. SanMiguel, A. Myers, D. Nettleton, John Nguyen, Bryan Penning, L. Ponnala, Kevin Schneider, D. Schwartz, Anupma Sharma, C. Soderlund, Nathan Springer, Qi Sun, Hao Wang, M. Waterman, R. Westerman, Thomas Wolfgruber, Lixing Yang, Yeisoo Yu, Lifang Zhang, Shiguo Zhou, Qihui Zhu, J. Bennetzen, R. Dawe, Jiming Jiang, Ning Jiang, G. Presting, S. Wessler, S. Aluru, R. Martienssen, S. Clifton, W. McCombie, R. Wing, R. Wilson (2009)
The B73 Maize Genome: Complexity, Diversity, and DynamicsScience, 326
- Publisher
- Wiley
- Copyright
- © 2017 John Wiley & Sons, Inc.
- ISSN
- 2379-8068
- eISSN
- 2379-8068
- DOI
- 10.1002/cppb.20059
- Publisher site
- See Article on Publisher Site
Abstract
The ability to grow plants in highly controlled and reproducible environments is a critical factor for successful plant biology experiments. This protocol describes a simple and inexpensive method for constructing a fully automatic controlled growth chamber that can be easily adapted in plant biology laboratories as well as classrooms. All the materials described in this protocol can be found in garden and home improvement stores or through websites, making the procurement and setup for growing plants in a controlled environment less expensive and convenient. Furthermore, the system is highly customizable and can be used to study plant responses to numerous abiotic and biotic stress conditions. The growth chamber is designed to enable growth and characterization of large plants, such as maize and soybean. © 2017 by John Wiley & Sons, Inc.
Journal
Current Protocols in Plant Biology – Wiley
Published: Dec 1, 2017
Keywords: ; ; ;