Experts and Doctors on mads domain proteins in Seoul, South Korea


Locale: Seoul, South Korea
Topic: mads domain proteins

Top Publications

  1. Seo E, Lee H, Jeon J, Park H, Kim J, Noh Y, et al. Crosstalk between cold response and flowering in Arabidopsis is mediated through the flowering-time gene SOC1 and its upstream negative regulator FLC. Plant Cell. 2009;21:3185-97 pubmed publisher
  2. Lee J, Ryu H, Chung K, Posé D, Kim S, Schmid M, et al. Regulation of temperature-responsive flowering by MADS-box transcription factor repressors. Science. 2013;342:628-32 pubmed publisher
  3. Lee J, Kim J, Kim S, Cho H, Kim J, Ahn J. The E3 ubiquitin ligase HOS1 regulates low ambient temperature-responsive flowering in Arabidopsis thaliana. Plant Cell Physiol. 2012;53:1802-14 pubmed publisher
    ..Moreover, hos1 mutants were insensitive to intermittent cold. Collectively, our results suggest that HOS1 acts as a common regulator in the signaling pathways that control flowering time in response to low ambient temperature...
  4. Hwang H, Kim H, Jeong Y, Choi M, Lee S, Kim S. Overexpression of EVE1, a novel ubiquitin family protein, arrests inflorescence stem development in Arabidopsis. J Exp Bot. 2011;62:4571-81 pubmed publisher
    ..The eve1-D mutation provides a way to study the regulatory mechanisms that control phase transition from the vegetative to the reproductive state. ..
  5. Lee J, Oh M, Park H, Lee I. SOC1 translocated to the nucleus by interaction with AGL24 directly regulates leafy. Plant J. 2008;55:832-43 pubmed publisher
    ..Finally, we show that LFY is expressed only in those tissues where SOC1 and AGL24 expressions overlap. Thus, we propose that heterodimerization of SOC1 and AGL24 is a key mechanism in activating LFY expression. ..
  6. Choi K, Park C, Lee J, Oh M, Noh B, Lee I. Arabidopsis homologs of components of the SWR1 complex regulate flowering and plant development. Development. 2007;134:1931-41 pubmed
    ..Our results strongly support the presence of an SWR1C-like complex in Arabidopsis that ensures proper development, including floral repression through full activation of FLC...
  7. Song H, Song J, Cho J, Amasino R, Noh B, Noh Y. The RNA binding protein ELF9 directly reduces SUPPRESSOR OF OVEREXPRESSION OF CO1 transcript levels in arabidopsis, possibly via nonsense-mediated mRNA decay. Plant Cell. 2009;21:1195-211 pubmed publisher
    ..Thus, the SOC1 transcript is one of the direct targets of ELF9, which appears to be involved in NMD-dependent mRNA quality control in Arabidopsis. ..
  8. Lee K, Park J, Lim H, Park H. HB-EGF induces cardiomyocyte hypertrophy via an ERK5-MEF2A-COX2 signaling pathway. Cell Signal. 2011;23:1100-9 pubmed publisher
    ..In conclusion, HB-EGF induces cardiomyocyte hypertrophy through an EGFR-ERK5-MEF2A-COX-2 pathway. Our findings will help us to better understand the molecular mechanisms behind HB-EGF-induced cardiomyocyte hypertrophy. ..
  9. Jung J, Ju Y, Seo P, Lee J, Park C. The SOC1-SPL module integrates photoperiod and gibberellic acid signals to control flowering time in Arabidopsis. Plant J. 2012;69:577-88 pubmed publisher
    ..Our observations indicate that the SOC1-SPL module serves as a molecular link that integrates photoperiod and GA signals to promote flowering in Arabidopsis. ..

More Information


  1. Chung K, Lee J, Lee J, Ahn J. Fruit indehiscence caused by enhanced expression of NO TRANSMITTING TRACT in Arabidopsis thaliana. Mol Cells. 2013;35:519-25 pubmed publisher
    ..In seed crops, a reduction in pod dehiscence can increase yield by decreasing seed dispersal; therefore, our results may prove useful as a basis to improve crop yield. ..
  2. Kim S, Yun C, Lee J, Jang Y, Park H, Kim J. OsCO3, a CONSTANS-LIKE gene, controls flowering by negatively regulating the expression of FT-like genes under SD conditions in rice. Planta. 2008;228:355-65 pubmed publisher
    ..Our results suggest that OsCO3 primarily controls flowering time under SD conditions by negatively regulating Hd3a and FTL expression, independent of the SD-promotion pathway...
  3. Choi K, Kim S, Kim S, Kim M, Hyun Y, Lee H, et al. SUPPRESSOR OF FRIGIDA3 encodes a nuclear ACTIN-RELATED PROTEIN6 required for floral repression in Arabidopsis. Plant Cell. 2005;17:2647-60 pubmed
    ..Subcellular localization using a green fluorescent protein fusion showed that Arabidopsis ARP6 is located at distinct regions of the nuclear periphery. ..
  4. Yoo S, Wu X, Lee J, Ahn J. AGAMOUS-LIKE 6 is a floral promoter that negatively regulates the FLC/MAF clade genes and positively regulates FT in Arabidopsis. Plant J. 2011;65:62-76 pubmed publisher
    ..The present results suggest that AGL6 acts as a floral promoter with a dual role, the inhibition of the transcription of the FLC/MAF genes and the promotion of FT expression in Arabidopsis. ..
  5. Yoo S, Lee J, Ahn J. Overexpression of AGAMOUS-LIKE 28 (AGL28) promotes flowering by upregulating expression of floral promoters within the autonomous pathway. Biochem Biophys Res Commun. 2006;348:929-36 pubmed
    ..Collectively, our data suggest that AGL28 is a positive regulator of known floral promoters within the autonomous pathway in Arabidopsis. ..
  6. Yoo S, Chung K, Kim J, Lee J, Hong S, Yoo S, et al. CONSTANS activates SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1 through FLOWERING LOCUS T to promote flowering in Arabidopsis. Plant Physiol. 2005;139:770-8 pubmed
    ..Taken together, these data suggest that CO activates SOC1 through FT to promote flowering in Arabidopsis. ..
  7. Kim S, Choi K, Park C, Hwang H, Lee I. SUPPRESSOR OF FRIGIDA4, encoding a C2H2-Type zinc finger protein, represses flowering by transcriptional activation of Arabidopsis FLOWERING LOCUS C. Plant Cell. 2006;18:2985-98 pubmed
    ..Thus, we propose that LD binds to SUF4 to suppress its activity in the absence of FRI. ..
  8. Chang M, Kang H, Baek I, Kang C, Park Y, Yun C. Kdx1 regulates RCK1 gene expression by interacting with Rlm1 in Saccharomyces cerevisiae. Biochem Biophys Res Commun. 2013;435:350-5 pubmed publisher
    ..Taken together, these data suggest that Kdx1 interacts with Rlm1 to activate RCK1 gene expression in response to stress in Saccharomyces cerevisiae. ..