Literature DB >> 25063322

Agrobacterium-mediated high-frequency transformation of an elite commercial maize (Zea mays L.) inbred line.

Myeong-Je Cho1, Emily Wu, Jackie Kwan, Maryanne Yu, Jenny Banh, Wutt Linn, Ajith Anand, Zhi Li, Susan TeRonde, James C Register, Todd J Jones, Zuo-Yu Zhao.   

Abstract

KEY MESSAGE: An improved Agrobacterium -mediated transformation protocol is described for a recalcitrant commercial maize elite inbred with optimized media modifications and AGL1. These improvements can be applied to other commercial inbreds. This study describes a significantly improved Agrobacterium-mediated transformation protocol in a recalcitrant commercial maize elite inbred, PHR03, using optimal co-cultivation, resting and selection media. The use of green regenerative tissue medium components, high copper and 6-benzylaminopurine, in resting and selection media dramatically increased the transformation frequency. The use of glucose in resting medium further increased transformation frequency by improving the tissue induction rate, tissue survival and tissue proliferation from immature embryos. Consequently, an optimal combination of glucose, copper and cytokinin in the co-cultivation, resting and selection media resulted in significant improvement from 2.6 % up to tenfold at the T0 plant level using Agrobacterium strain LBA4404 in transformation of PHR03. Furthermore, we evaluated four different Agrobacterium strains, LBA4404, AGL1, EHA105, and GV3101 for transformation frequency and event quality. AGL1 had the highest transformation frequency with up to 57.1 % at the T0 plant level. However, AGL1 resulted in lower quality events (defined as single copy for transgenes without Agrobacterium T-DNA backbone) when compared to LBA4404 (30.1 vs 25.6 %). We propose that these improvements can be applied to other recalcitrant commercial maize inbreds.

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Year:  2014        PMID: 25063322     DOI: 10.1007/s00299-014-1656-x

Source DB:  PubMed          Journal:  Plant Cell Rep        ISSN: 0721-7714            Impact factor:   4.570


  14 in total

1.  Transgenic maize plants by tissue electroporation.

Authors:  K D'Halluin; E Bonne; M Bossut; M De Beuckeleer; J Leemans
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2.  A potent inhibitor of ethylene action in plants.

Authors:  E M Beyer
Journal:  Plant Physiol       Date:  1976-09       Impact factor: 8.340

3.  Agrobacterium-mediated sorghum transformation.

Authors:  Z Y Zhao; T Cai; L Tagliani; M Miller; N Wang; H Pang; M Rudert; S Schroeder; D Hondred; J Seltzer; D Pierce
Journal:  Plant Mol Biol       Date:  2000-12       Impact factor: 4.076

4.  Agrobacterium tumefaciens-mediated transformation of maize embryos using a standard binary vector system.

Authors:  Bronwyn R Frame; Huixia Shou; Rachel K Chikwamba; Zhanyuan Zhang; Chengbin Xiang; Tina M Fonger; Sue Ellen K Pegg; Baochun Li; Dan S Nettleton; Deqing Pei; Kan Wang
Journal:  Plant Physiol       Date:  2002-05       Impact factor: 8.340

5.  Improved Agrobacterium-mediated transformation of three maize inbred lines using MS salts.

Authors:  Bronwyn R Frame; Jennifer M McMurray; Tina M Fonger; Marcy L Main; Kyle W Taylor; François J Torney; Margie M Paz; Kan Wang
Journal:  Plant Cell Rep       Date:  2006-05-19       Impact factor: 4.570

6.  Stable transformation of rice (Oryza sativa L.) via microprojectile bombardment of highly regenerative, green tissues derived from mature seed.

Authors:  M-J Cho; H Yano; D Okamoto; H-K Kim; H-R Jung; K Newcomb; V K Le; H S Yoo; R Langham; B B Buchanan; P G Lemaux
Journal:  Plant Cell Rep       Date:  2003-10-10       Impact factor: 4.570

7.  Transformation of Maize Cells and Regeneration of Fertile Transgenic Plants.

Authors:  W. J. Gordon-Kamm; T. M. Spencer; M. L. Mangano; T. R. Adams; R. J. Daines; W. G. Start; J. V. O'Brien; S. A. Chambers; W. R. Adams; N. G. Willetts; T. B. Rice; C. J. Mackey; R. W. Krueger; A. P. Kausch; P. G. Lemaux
Journal:  Plant Cell       Date:  1990-07       Impact factor: 11.277

8.  Agrobacterium-mediated transformation of maize.

Authors:  Yuji Ishida; Yukoh Hiei; Toshihiko Komari
Journal:  Nat Protoc       Date:  2007       Impact factor: 13.491

9.  Improvement of Agrobacterium-mediated transformation in Hi-II maize (Zea mays) using standard binary vectors.

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Journal:  Plant Cell Rep       Date:  2007-10-16       Impact factor: 4.570

10.  Effect of l-aminocyclopropane-l-carboxylic acid, silver nitrate, and norbornadiene on plant regeneration from maize callus cultures.

Authors:  D D Songstad; D R Duncan; J M Widholm
Journal:  Plant Cell Rep       Date:  1988-06       Impact factor: 4.570
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  21 in total

1.  Rapid and efficient Agrobacterium-mediated transformation of sorghum (Sorghum bicolor) employing standard binary vectors and bar gene as a selectable marker.

Authors:  Phat T Do; Hyeyoung Lee; Muruganantham Mookkan; William R Folk; Zhanyuan J Zhang
Journal:  Plant Cell Rep       Date:  2016-06-27       Impact factor: 4.570

2.  Effect of Agrobacterium strain and plasmid copy number on transformation frequency, event quality and usable event quality in an elite maize cultivar.

Authors:  Li Zhi; Susan TeRonde; Sandra Meyer; Maren L Arling; James C Register; Zuo-Yu Zhao; Todd J Jones; Ajith Anand
Journal:  Plant Cell Rep       Date:  2015-01-06       Impact factor: 4.570

3.  Co-culturing on dry filter paper significantly increased the efficiency of Agrobacterium-mediated transformations of maize immature embryos.

Authors:  Xueqing Duan; Liru Zheng; Jinhao Sun; Wenbo Liu; Wenqian Wang; Hailong An
Journal:  Physiol Mol Biol Plants       Date:  2019-02-09

4.  Maize and Arabidopsis ARGOS Proteins Interact with Ethylene Receptor Signaling Complex, Supporting a Regulatory Role for ARGOS in Ethylene Signal Transduction.

Authors:  Jinrui Shi; Bruce J Drummond; Hongyu Wang; Rayeann L Archibald; Jeffrey E Habben
Journal:  Plant Physiol       Date:  2016-06-07       Impact factor: 8.340

Review 5.  Advances in Agrobacterium tumefaciens-mediated genetic transformation of graminaceous crops.

Authors:  Roshan Kumar Singh; Manoj Prasad
Journal:  Protoplasma       Date:  2015-12-10       Impact factor: 3.356

6.  A selective insecticidal protein from Pseudomonas mosselii for corn rootworm control.

Authors:  Jun-Zhi Wei; Jessica O'Rear; Ute Schellenberger; Barbara A Rosen; Young-Jun Park; Mark J McDonald; Genhai Zhu; Weiping Xie; Adane Kassa; Lisa Procyk; Claudia Perez Ortega; Jian-Zhou Zhao; Nasser Yalpani; Virginia C Crane; Scott H Diehn; Gary A Sandahl; Mark E Nelson; Albert L Lu; Gusui Wu; Lu Liu
Journal:  Plant Biotechnol J       Date:  2017-10-01       Impact factor: 9.803

7.  An Alcaligenes strain emulates Bacillus thuringiensis producing a binary protein that kills corn rootworm through a mechanism similar to Cry34Ab1/Cry35Ab1.

Authors:  Nasser Yalpani; Dan Altier; Jennifer Barry; Adane Kassa; Timothy M Nowatzki; Amit Sethi; Jian-Zhou Zhao; Scott Diehn; Virginia Crane; Gary Sandahl; Rongjin Guan; Brad Poland; Claudia Perez Ortega; Mark E Nelson; Weiping Xie; Lu Liu; Gusui Wu
Journal:  Sci Rep       Date:  2017-06-08       Impact factor: 4.379

Review 8.  Genetic and genomic toolbox of Zea mays.

Authors:  Natalie J Nannas; R Kelly Dawe
Journal:  Genetics       Date:  2015-03       Impact factor: 4.402

9.  Discovery of midgut genes for the RNA interference control of corn rootworm.

Authors:  Xu Hu; Nina M Richtman; Jian-Zhou Zhao; Keith E Duncan; Xiping Niu; Lisa A Procyk; Meghan A Oneal; Bliss M Kernodle; Joseph P Steimel; Virginia C Crane; Gary Sandahl; Julie L Ritland; Richard J Howard; James K Presnail; Albert L Lu; Gusui Wu
Journal:  Sci Rep       Date:  2016-07-28       Impact factor: 4.379

10.  Control of Western Corn Rootworm (Diabrotica virgifera virgifera) Reproduction through Plant-Mediated RNA Interference.

Authors:  Xiping Niu; Adane Kassa; Xu Hu; Jonathan Robeson; Mollie McMahon; Nina M Richtman; Joseph P Steimel; Bliss M Kernodle; Virginia C Crane; Gary Sandahl; Julie L Ritland; James K Presnail; Albert L Lu; Gusui Wu
Journal:  Sci Rep       Date:  2017-10-03       Impact factor: 4.379
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