Novel pristinamycin-responsive expression systems for plant cells

Novel gene regulation systems were designed for plant cells responsive to the streptogramin antibiotic pristinamycin. The pristinamycin‐repressible plant gene regulation concept (PIPpOFF) is based on a transcriptional activator (PIT) which consists of the Pip protein, the repressor of the pristinamy...

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Bibliographic Details
Published in:Biotechnology and bioengineering 2001-07, Vol.74 (2), p.154-163
Main Authors: Frey, Alexander D., Rimann, Markus, Bailey, James E., Kallio, Pauli T., Thompson, Charles J., Fussenegger, Martin
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Base Sequence
Biological and medical sciences
Biotechnology
Cauliflower mosaic virus
Caulimovirus - genetics
Cell Culture Techniques - methods
Cells, Cultured
Drug Resistance, Microbial - genetics
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation, Plant
Genetic engineering
Genetic Engineering - methods
Genetic technics
Herpes simplex virus
Herpes Simplex Virus Protein Vmw65 - genetics
Methods. Procedures. Technologies
Modification of gene expression level
Molecular Sequence Data
Nicotiana - drug effects
Nicotiana - genetics
Nicotiana - metabolism
Operon
Pip
plant gene regulation
Plants, Toxic
pristinamycin
Repressor Proteins - drug effects
Repressor Proteins - genetics
Repressor Proteins - metabolism
streptogramin
Streptomyces
Streptomyces - genetics
tobacco
Virginiamycin - pharmacology
VP16 protein
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Summary:Novel gene regulation systems were designed for plant cells responsive to the streptogramin antibiotic pristinamycin. The pristinamycin‐repressible plant gene regulation concept (PIPpOFF) is based on a transcriptional activator (PIT) which consists of the Pip protein, the repressor of the pristinamycin resistance operon of Streptomyces coelicolor, fused to the VP16 transactivation domain of the Herpes simplex virus. PIT mediates pristinamycin‐repressible activation of a synthetic plant promoter (PpPIR) in tobacco cells consisting of a nine Pip‐binding site‐containing artificial operator (PIR3) placed upstream of a TATA‐box derived from the cauliflower mosaic virus 35S promoter (PCaMV35S). Pristinamycin interferes with induction by negatively regulating the DNA‐binding capacity of the Pip moiety of PIT. A second, streptogramin‐inducible plant gene regulation system (PIPpON) was constructed by combining Pip expression with a plant‐specific pristinamycin‐inducible promoter (PpPIRON). PpPIRON consists of a PIR3 module cloned downstream of the strong constitutive plant promoter PCaMV35S. As in the native Streptomyces configuration, Pip binds to its cognate sequence within PpPIRON in the absence of regulating antibiotic and silences the chimeric plant promoter. Upon addition of pristinamycin, Pip is released from the PIR3 operator and full PCaMV35S‐driven expression of desired plant genes is induced. The PIPpOFF and PIPpON systems performed well in Nicotiana tabacum suspension cultures and promise to provide an attractive extension of existing plant gene regulation technology for basic plant research or biopharmaceutical manufacturing using plant tissue culture. © John Wiley & Sons, Inc. Biotechnol Bioeng 74: 154–163, 2001.
ISSN:0006-3592
1097-0290
DOI:10.1002/bit.1105