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Less is more: strategies to remove marker genes from transgenic plants
Yuan-Yeu Yau, C Neal Stewart BMC Biotechnology 2013, 13:36 (23 April 2013)
Abstract | Provisional PDF
| PubMed
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Editor’s summary
Yuan-Yeu Yau and C Neal Stewart review existing strategies to remove selectable marker genes from transgenic plants, including site specific recombination systems, and explore emerging technologies for increased precision genome modification. |
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Immobilized Rhizopus oryzae lipase catalyzed synthesis of palm stearin and cetyl alcohol wax esters: Optimization by Response Surface Methodology
Mohamed Sellami, Imen Aissa, Fakher Frikha, Youssef Gargouri, Nabil Miled BMC Biotechnology 2011, 11:68 (17 June 2011)
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| PubMed
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Using protein microarray technology to screen anti-ERCC1 monoclonal antibodies for specificity and applications in pathology
Donghui Ma, Dror Baruch, Youmin Shu, Kehu Yuan, Zairen Sun, Kaiyan Ma, Toan Hoang, Wei Fu, Li Min, Zhu-Sheng Lan, Fangxun Wang, Lori Mull, Wei-Wu He BMC Biotechnology 2012, 12:88 (21 November 2012)
Abstract | Full text | PDF
| PubMed
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Protein body formation in stable transgenic tobacco expressing elastin-like polypeptide and hydrophobin fusion proteins
Sonia P GutiƩrrez, Reza Saberianfar, Susanne E Kohalmi, Rima Menassa BMC Biotechnology 2013, 13:40 (10 May 2013)
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| PubMed
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Quantification of PRL/Stat5 signaling with a novel pGL4-CISH reporter
Feng Fang, Giovanni Antico, Jiamao Zheng, Charles V Clevenger BMC Biotechnology 2008, 8:11 (6 February 2008)
Abstract | Full text | PDF
| PubMed | Cited on BioMed Central
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Novel sequential ChIP and simplified basic ChIP protocols for promoter co-occupancy and target gene identification in human embryonic stem cells
Ricardo B Medeiros, Kate J Papenfuss, Brian Hoium, Kristen Coley, Joy Jadrich, Saik-Kia Goh, Anuratha Elayaperumal, Julio E Herrera, Ernesto Resnik, Hsiao-Tzu Ni BMC Biotechnology 2009, 9:59 (29 June 2009)
Abstract | Full text | PDF
| PubMed | Cited on BioMed Central
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Editor’s summary
A novel, fast, sequential chromatin immunoprecipitation (ChIP) protocol with high sensitivity identified promoter co-occupancy for transcription factors in human embryonic stem cells, providing a useful high-throughput tool to investigate protein–DNA interactions.
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