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Literature DB >> 29621423

Particle bombardment - mediated gene transfer and GFP transient expression in Seteria viridis.

Abstract

Setaria viridis is one of the most important model grasses in studying monocot plant biology. Transient gene expression study is a very important tool in plant biotechnology, functional genomics, and CRISPR-Cas9 genome editing technology via particle bombardment. In this study, a particle bombardment-mediated protocol was developed to introduce DNA into Setaria viridis in vitro leaf explants. In addition, physical and biological parameters, such as helium pressure, distance from stopping screen to the target tissues, DNA concentration, and number of bombardments, were tested and optimized. Optimum concentration of transient GFP expression was achieved using 1.5 ug plasmid DNA with 0.6 mm gold particles and 6 cm bombardment distance, using 1,100 psi. Doubling the bombardment instances provides the maximum number of foci of transient GFP expression. This simple protocol will be helpful for genomics studies in the S. viridis monocot model.

Entities: Species

Keywords: GFP; Transient expression; bombardment; gene transfer; monocot model

Mesh：

Substances：
DNA

Year: 2018 PMID： 29621423 PMCID： PMC5933905 DOI： 10.1080/15592324.2018.1441657

Source DB: PubMed Journal: Plant Signal Behav ISSN： 1559-2316

18 in total

1. The B73 maize genome: complexity, diversity, and dynamics.

Authors: Patrick S Schnable; Doreen Ware; Robert S Fulton; Joshua C Stein; Fusheng Wei; Shiran Pasternak; Chengzhi Liang; Jianwei Zhang; Lucinda Fulton; Tina A Graves; Patrick Minx; Amy Denise Reily; Laura Courtney; Scott S Kruchowski; Chad Tomlinson; Cindy Strong; Kim Delehaunty; Catrina Fronick; Bill Courtney; Susan M Rock; Eddie Belter; Feiyu Du; Kyung Kim; Rachel M Abbott; Marc Cotton; Andy Levy; Pamela Marchetto; Kerri Ochoa; Stephanie M Jackson; Barbara Gillam; Weizu Chen; Le Yan; Jamey Higginbotham; Marco Cardenas; Jason Waligorski; Elizabeth Applebaum; Lindsey Phelps; Jason Falcone; Krishna Kanchi; Thynn Thane; Adam Scimone; Nay Thane; Jessica Henke; Tom Wang; Jessica Ruppert; Neha Shah; Kelsi Rotter; Jennifer Hodges; Elizabeth Ingenthron; Matt Cordes; Sara Kohlberg; Jennifer Sgro; Brandon Delgado; Kelly Mead; Asif Chinwalla; Shawn Leonard; Kevin Crouse; Kristi Collura; Dave Kudrna; Jennifer Currie; Ruifeng He; Angelina Angelova; Shanmugam Rajasekar; Teri Mueller; Rene Lomeli; Gabriel Scara; Ara Ko; Krista Delaney; Marina Wissotski; Georgina Lopez; David Campos; Michele Braidotti; Elizabeth Ashley; Wolfgang Golser; HyeRan Kim; Seunghee Lee; Jinke Lin; Zeljko Dujmic; Woojin Kim; Jayson Talag; Andrea Zuccolo; Chuanzhu Fan; Aswathy Sebastian; Melissa Kramer; Lori Spiegel; Lidia Nascimento; Theresa Zutavern; Beth Miller; Claude Ambroise; Stephanie Muller; Will Spooner; Apurva Narechania; Liya Ren; Sharon Wei; Sunita Kumari; Ben Faga; Michael J Levy; Linda McMahan; Peter Van Buren; Matthew W Vaughn; Kai Ying; Cheng-Ting Yeh; Scott J Emrich; Yi Jia; Ananth Kalyanaraman; An-Ping Hsia; W Brad Barbazuk; Regina S Baucom; Thomas P Brutnell; Nicholas C Carpita; Cristian Chaparro; Jer-Ming Chia; Jean-Marc Deragon; James C Estill; Yan Fu; Jeffrey A Jeddeloh; Yujun Han; Hyeran Lee; Pinghua Li; Damon R Lisch; Sanzhen Liu; Zhijie Liu; Dawn Holligan Nagel; Maureen C McCann; Phillip SanMiguel; Alan M Myers; Dan Nettleton; John Nguyen; Bryan W Penning; Lalit Ponnala; Kevin L Schneider; David C Schwartz; Anupma Sharma; Carol Soderlund; Nathan M Springer; Qi Sun; Hao Wang; Michael Waterman; Richard Westerman; Thomas K Wolfgruber; Lixing Yang; Yeisoo Yu; Lifang Zhang; Shiguo Zhou; Qihui Zhu; Jeffrey L Bennetzen; R Kelly Dawe; Jiming Jiang; Ning Jiang; Gernot G Presting; Susan R Wessler; Srinivas Aluru; Robert A Martienssen; Sandra W Clifton; W Richard McCombie; Rod A Wing; Richard K Wilson
Journal: Science Date: 2009-11-20 Impact factor: 47.728

2. Improved ballistic transient transformation conditions for tomato fruit allow identification of organ-specific contributions of I-box and G-box to the RBCS2 promoter activity.

Authors: K Baum; B Gröning; I Meier
Journal: Plant J Date: 1997-08 Impact factor: 6.417

3. Morphogenic Regulators Baby boom and Wuschel Improve Monocot Transformation.

Authors: Keith Lowe; Emily Wu; Ning Wang; George Hoerster; Craig Hastings; Myeong-Je Cho; Chris Scelonge; Brian Lenderts; Mark Chamberlin; Josh Cushatt; Lijuan Wang; Larisa Ryan; Tanveer Khan; Julia Chow-Yiu; Wei Hua; Maryanne Yu; Jenny Banh; Zhongmeng Bao; Kent Brink; Elizabeth Igo; Bhojaraja Rudrappa; P M Shamseer; Wes Bruce; Lisa Newman; Bo Shen; Peizhong Zheng; Dennis Bidney; Carl Falco; Jim Register; Zuo-Yu Zhao; Deping Xu; Todd Jones; William Gordon-Kamm
Journal: Plant Cell Date: 2016-09-06 Impact factor: 11.277

Particle bombardment - mediated gene transfer and GFP transient expression in Seteria viridis.

1. The B73 maize genome: complexity, diversity, and dynamics.

2. Improved ballistic transient transformation conditions for tomato fruit allow identification of organ-specific contributions of I-box and G-box to the RBCS2 promoter activity.

3. Morphogenic Regulators Baby boom and Wuschel Improve Monocot Transformation.

4. Physical trauma and tungsten toxicity reduce the efficiency of biolistic transformation.

5. Identification of an ethylene-responsive region in the promoter of a fruit ripening gene.

6. Biolistic transformation of Arabidopsis root hairs: a novel technique to facilitate map-based cloning.

7. Setaria viridis: a model for C4 photosynthesis.

8. Spike-dip transformation of Setaria viridis.

9. Agricultural origins and the isotopic identity of domestication in northern China.

10. Genome editing in maize directed by CRISPR-Cas9 ribonucleoprotein complexes.

1. Reference Genome for the Highly Transformable Setaria viridis ME034V.