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The past, present, and future of chemical biology in auxin research

(2009) ACS CHEMICAL BIOLOGY. 4(12). p.987-998
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Abstract
Research into the plant hormone auxin has always been tightly linked with the use of small molecules, In fact, most of the known players in auxin signaling and transport in the model plant Arabidopsis thaliana were Identified by screening for resistance to auxin analogues. The use of high-throughput screening technologies has since yielded many novel molecules, opening the way for the identification of new target proteins to further elucidate known pathways. Here, we give an overview of well-established and novel molecules used in auxin research and highlight the current status and future perspectives of chemical biology approaches to auxin biology.
Keywords
BRASSINOSTEROID-BIOSYNTHESIS, ROOT GRAVITROPISM, PROTEIN, GENE FAMILY-MEMBERS, ARABIDOPSIS-THALIANA, FUNCTIONAL GENOMIC ANALYSIS, Auxin, Aux/IAA, F-box protein, Indole-3-acetic acid (IAA), Auxin probe, TIR1/AFB, INHIBITORS, EFFLUX, TERFESTATIN-A, ACID

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Citation

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Chicago
De Rybel, Bert, Dominique Audenaert, Tom Beeckman, and Stefan Kepinski. 2009. “The Past, Present, and Future of Chemical Biology in Auxin Research.” Acs Chemical Biology 4 (12): 987–998.
APA
De Rybel, B., Audenaert, D., Beeckman, T., & Kepinski, S. (2009). The past, present, and future of chemical biology in auxin research. ACS CHEMICAL BIOLOGY, 4(12), 987–998.
Vancouver
1.
De Rybel B, Audenaert D, Beeckman T, Kepinski S. The past, present, and future of chemical biology in auxin research. ACS CHEMICAL BIOLOGY. 2009;4(12):987–98.
MLA
De Rybel, Bert, Dominique Audenaert, Tom Beeckman, et al. “The Past, Present, and Future of Chemical Biology in Auxin Research.” ACS CHEMICAL BIOLOGY 4.12 (2009): 987–998. Print.
@article{851002,
  abstract     = {Research into the plant hormone auxin has always been tightly linked with the use of small molecules, In fact, most of the known players in auxin signaling and transport in the model plant Arabidopsis thaliana were Identified by screening for resistance to auxin analogues. The use of high-throughput screening technologies has since yielded many novel molecules, opening the way for the identification of new target proteins to further elucidate known pathways. Here, we give an overview of well-established and novel molecules used in auxin research and highlight the current status and future perspectives of chemical biology approaches to auxin biology.},
  author       = {De Rybel, Bert and Audenaert, Dominique and Beeckman, Tom and Kepinski, Stefan},
  issn         = {1554-8929},
  journal      = {ACS CHEMICAL BIOLOGY},
  keyword      = {BRASSINOSTEROID-BIOSYNTHESIS,ROOT GRAVITROPISM,PROTEIN,GENE FAMILY-MEMBERS,ARABIDOPSIS-THALIANA,FUNCTIONAL GENOMIC ANALYSIS,Auxin,Aux/IAA,F-box protein,Indole-3-acetic acid (IAA),Auxin probe,TIR1/AFB,INHIBITORS,EFFLUX,TERFESTATIN-A,ACID},
  language     = {eng},
  number       = {12},
  pages        = {987--998},
  title        = {The past, present, and future of chemical biology in auxin research},
  url          = {http://dx.doi.org/10.1021/cb9001624},
  volume       = {4},
  year         = {2009},
}

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