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Heads of Laboratories

Head shot of Nam-Hai Chua
Nam-Hai Chua, Ph.D.
Andrew W. Mellon Professor
Laboratory of Plant Molecular Biology

Because they can’t pick up and move, plants must react rapidly to changes in their environment. To do this requires a complex network of signaling pathways that can involve epigenetic factors, such as noncoding RNA molecules. Dr. Chua studies how some of these pathways work. His laboratory is currently investigating how plants respond to stress, including changes in water and nutrient availability.

Using Arabidopsis as a model, Dr. Chua’s lab employs a combination of genetic, molecular, and biochemical techniques — including transcriptome analysis, mutant screens, and transgenic plants — to investigate how plants respond to abiotic and biotic signals and stresses at the molecular level.

Water, nitrogen, and phosphate are some of the most important environmental stimuli for plants. Molecular responses to these factors are integral to the regulation of a plant’s development. Plant homeostasis is maintained by phytohormones and signaling molecules. Changes in water and nutrient availability can modulate hormone and signaling pathways, resulting in complex physiological and developmental responses. Members of the Chua lab are focusing on identifying the molecular mechanisms of these responses, including identifying signaling pathway intermediates and changes in expression due to epigenetic factors, such as chromatin modifications and noncoding RNAs.

In addition to this, members of the Chua lab are investigating the role of long noncoding RNAs in plant stress response. Recently, Dr. Chua’s lab has found that the Arabidopsis genome encodes around 8,000 long intergenic noncoding RNAs (lincRNAs) and 36,000 natural antisense transcripts (NATs) whose functions await identification. Current effort is directed toward the characterization of genes involved in the biogenesis and regulation of lincRNAs and NATs and the elucidation of the functions of these noncoding RNAs.

Prior work in Dr. Chua’s lab established several of the basic tools necessary to conduct molecular research in plants. One of those tools is a highly controllable and chemically inducible plant gene expression system that allows researchers to turn transgenes on and off as desired. Using this system, Dr. Chua found key proteins involved in the plant’s response to the light/dark transition. Dr. Chua’s research has also identified proteins that play a role in a plant’s reaction to drought. The lab has constructed different transgenic mutants that are more tolerant of drought conditions and can resume growth when water is no longer a limiting factor.

Learning how plants’ protein intermediates act and understanding the roles of their modifications in signaling will lead to strategies by which scientists may manipulate plant genetics in order to fortify crops against viral infection, drought, flood, pests, and other suboptimal conditions. The knowledge generated by Dr. Chua through the use of Arabidopsis can be applied toward crop improvement to reduce hunger around the world, as well as to create sustainable agriculture in regions of the world that are today poorly suited to it.


B.Sc. in botany and biochemistry, 1965
University of Singapore

A.M. in biology, 1967
Ph.D. in biology, 1969
Harvard University


Lecturer, 1969–1971
University of Singapore Medical School

Research Associate, 1971–1973
Assistant Professor, 1973–1977
Associate Professor, 1977–1981
Professor, 1981–
The Rockefeller University


Singapore National Science and Technology Gold Medal, 1998

Singapore Public Administration Gold Medal, 2002

International Prize in Biology, Japan Society for the Promotion of Science, 2005

Lawrence Bogorad Award, American Society for Plant Biologists, 2010


The Royal Society
Chinese Academy of Sciences
Academia Sinica


Park, B.S. et al. NITROGEN LIMITATION ADAPTATION recruits PHOSPHATE2 to target the phosphate transporter PT2 for degradation during the regulation of Arabidopsis phosphate homeostasis. Plant Cell  26, 454–464 (2014).

Wang H. et al. Genome-wide identification of long noncoding natural antisense transcripts and their responses to light in Arabidopsis. Genome Res. 24, 444–453 (2014).

Jin, J. et al. PLncDB: plant long non-coding RNA database. Bioinformatics 29, 1068–1071 (2013).

Liu, J. et al. Genome-wide analysis uncovers regulation of long intergenic noncoding RNAs in Arabidopsis. Plant Cell 24, 4333–4345 (2012).

Hemmes, H. et al. Circadian clock regulates dynamic chromatin modifications associated with Arabidopsis CCA1/LHY and TOC1 transcriptional rhythms. Plant Cell Physiol. 53, 2016–2029 (2012).

Dr. Chua is a faculty member in the David Rockefeller Graduate Program and the Tri-Institutional M.D.-Ph.D. Program.