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selected publications academic article Liew LCWang YPeirats-Llobet MBerkowitz OWhelan JLewsey MG. Laser-capture microdissection RNA-sequencing for spatial and temporal tissue-specific gene expression analysis in plants. Journal of Visualized Experiments. 162:1-14. 2020 Full text if available Liew LCNarsai RWang YBerkowitz OWhelan JLewsey MG. Temporal tissue‐specific regulation of transcriptomes during barley (Hordeum vulgare) seed germination. The Plant Journal. 101:700-715. 2020 Full text if available Liew LCSingh MBBhalla PL. A novel role of the soybean clock gene LUX ARRHYTHMO in male reproductive development. Scientific Reports. 7:1-16. 2017 Full text if available Rubenach AJSHecht VVander Schoor JKLiew LCAubert GBurstin JWeller JL. EARLY FLOWERING3 redundancy fine-tunes photoperiod sensitivity. Plant Physiology. 173:2253-2264. 2017 Full text if available Narsai RGouil QSecco DSrivastava AKarpievitch YVLiew LCLister RLewsey MGWhelan J. Extensive transcriptomic and epigenomic remodelling occurs during Arabidopsis thaliana germination. Genome Biology: biology for the post-genomic era. 18:1-18. 2017 Full text if available Winarto HPLiew LCGresshoff PMScott PTSingh MBBhalla PL. Isolation and Characterization of Circadian Clock Genes in the Biofuel Plant Pongamia (Millettia pinnata). Bioenergy Research. 8:760-774. 2015 Full text if available Liew LCHecht VSussmilch FCWeller JL. The pea photoperiod response gene STERILE NODES is an ortholog of LUX ARRHYTHMO. Plant Physiology. 165:648-657. 2014 Full text if available Liew LCSingh MBBhalla PL. Unique and conserved features of floral evocation in legumes. Journal of Integrative Plant Biology. 56:714-728. 2014 Full text if available Liew LCSingh MBBhalla PL. An RNA-Seq Transcriptome Analysis of Histone Modifiers and RNA Silencing Genes in Soybean during Floral Initiation Process. PLoS ONE. 8. 2013 Full text if available Weller JLLiew LCHecht VFGRajandran VLaurie RERidge SWenden BSchoor JKVJaminon OBlassiau CDalmais MRameau CBendahmane AMacknight RCLejeune-Hénaut I. A conserved molecular basis for photoperiod adaptation in two temperate legumes. Proceedings of the National Academy of Sciences of USA. 109:21158-21163. 2012 Full text if available Hecht VLaurie REVander Schoor JKRidge SKnowles CLLiew LCSussmilch FCMurfet ICMacknight RCWeller JL. The pea GIGAS gene is a FLOWERING LOCUS T homolog necessary for graft-transmissible specification of flowering but not for responsiveness to photoperiod. The Plant Cell. 23:147-161. 2011 Full text if available Liew LCHecht VLaurie REKnowles CLVander Schoor JKMacknight RCWeller JL. DIE NEUTRALIS and LATE BLOOMER 1 Contribute to Regulation of the Pea Circadian Clock. The Plant Cell. 21:3198-3211. 2009 Full text if available Weller JLHecht VLiew LCSussmilch FCWenden BKnowles CLVander Schoor JK. Update on the genetic control of flowering in garden pea. Journal of Experimental Botany. 60:2493-2499. 2009 Full text if available Hecht VKnowles CLVander Schoor JKLiew LCJones SELambert MJMWeller JL. Pea LATE BLOOMER1 Is a GIGANTEA Ortholog with Roles in Photoperiodic Flowering, Deetiolation, and Transcriptional Regulation of Circadian Clock Gene Homologs. Plant Physiology. 144:648-661. 2007 Full text if available Berkowitz OXu YWang YLiew LCZhu YLewsey MGWhelan J. RNA-seq analysis of laser micro-dissected Arabidopsis thaliana leaf epidermis, mesophyll and vasculature defines tissue-specific transcriptional responses to multiple stress treatments Full text if available