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And then there were many: MADS goes genomic

Stefanie De Bodt UGent, Jeroen Raes UGent, Yves Van de Peer UGent and Günter Theißen (2003) TRENDS IN PLANT SCIENCE. 8(10). p.475-483
abstract
During the past decade, MADS-box genes have become known as key regulators in both reproductive and vegetative plant development. Traditional genetics and functional genomics tools are now available to elucidate the expression and function of this complex gene family on a much larger scale. Moreover, comparative analysis of the MADS-box genes in diverse flowering and non-flowering plants, boosted by bioinformatics, contributes to our understanding of how this important gene family has expanded during the evolution of land plants. Therefore, the recent advances in comparative and functional genomics; should enable researchers to identify the full range of MADS-box gene functions, which should help us significantly in developing a better understanding of plant development and evolution.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (review)
publication status
published
subject
keyword
PROTEIN-PROTEIN INTERACTIONS, FLORAL HOMEOTIC GENES, CONTROLLING FLOWER DEVELOPMENT, TRANSCRIPTION FACTOR FAMILY, DNA-BINDING PROTEINS, BOX MULTIGENE FAMILY, ARABIDOPSIS-THALIANA, CHROMATIN IMMUNOPRECIPITATION, PHYSCOMITRELLA-PATENS, REGULATORY ELEMENTS
journal title
TRENDS IN PLANT SCIENCE
Trends Plant Sci.
volume
8
issue
10
pages
475 - 483
Web of Science type
Review
Web of Science id
000186206700007
JCR category
PLANT SCIENCES
JCR impact factor
13.405 (2003)
JCR rank
2/136 (2003)
JCR quartile
1 (2003)
ISSN
1360-1385
DOI
10.1016/j.tplants.2003.09.006
language
English
UGent publication?
yes
classification
A1
copyright statement
I have transferred the copyright for this publication to the publisher
id
212389
handle
http://hdl.handle.net/1854/LU-212389
date created
2004-04-22 18:29:00
date last changed
2016-12-19 15:44:50
@article{212389,
  abstract     = {During the past decade, MADS-box genes have become known as key regulators in both reproductive and vegetative plant development. Traditional genetics and functional genomics tools are now available to elucidate the expression and function of this complex gene family on a much larger scale. Moreover, comparative analysis of the MADS-box genes in diverse flowering and non-flowering plants, boosted by bioinformatics, contributes to our understanding of how this important gene family has expanded during the evolution of land plants. Therefore, the recent advances in comparative and functional genomics; should enable researchers to identify the full range of MADS-box gene functions, which should help us significantly in developing a better understanding of plant development and evolution.},
  author       = {De Bodt, Stefanie and Raes, Jeroen and Van de Peer, Yves and Thei{\ss}en, G{\"u}nter},
  issn         = {1360-1385},
  journal      = {TRENDS IN PLANT SCIENCE},
  keyword      = {PROTEIN-PROTEIN INTERACTIONS,FLORAL HOMEOTIC GENES,CONTROLLING FLOWER DEVELOPMENT,TRANSCRIPTION FACTOR FAMILY,DNA-BINDING PROTEINS,BOX MULTIGENE FAMILY,ARABIDOPSIS-THALIANA,CHROMATIN IMMUNOPRECIPITATION,PHYSCOMITRELLA-PATENS,REGULATORY ELEMENTS},
  language     = {eng},
  number       = {10},
  pages        = {475--483},
  title        = {And then there were many: MADS goes genomic},
  url          = {http://dx.doi.org/10.1016/j.tplants.2003.09.006},
  volume       = {8},
  year         = {2003},
}

Chicago
De Bodt, Stefanie, Jeroen Raes, Yves Van de Peer, and Günter Theißen. 2003. “And Then There Were Many: MADS Goes Genomic.” Trends in Plant Science 8 (10): 475–483.
APA
De Bodt, Stefanie, Raes, J., Van de Peer, Y., & Theißen, G. (2003). And then there were many: MADS goes genomic. TRENDS IN PLANT SCIENCE, 8(10), 475–483.
Vancouver
1.
De Bodt S, Raes J, Van de Peer Y, Theißen G. And then there were many: MADS goes genomic. TRENDS IN PLANT SCIENCE. 2003;8(10):475–83.
MLA
De Bodt, Stefanie, Jeroen Raes, Yves Van de Peer, et al. “And Then There Were Many: MADS Goes Genomic.” TRENDS IN PLANT SCIENCE 8.10 (2003): 475–483. Print.