The Plant Cell, Vol. 27: 1819, July 2015, www.plantcell.org ã 2015 American Society of Plant Biologists. All rights reserved.

IN BRIEF

Measuring Cytokinin Levels in the Root Tip by the Zeptomole Perseverance, a competitive spirit, and luck helped Folke Skoog and colleagues isolate and characterize the first cytokinin (CK) from degraded herring sperm DNA samples some 60 years ago (described in Amasino, 2005). Since then, much has been learned about this vital class of phytohormones, which have both local and long-distance effects on multiple processes throughout the plant. CKs interact with several other classes of phytohormones, most famously auxins. The precise balance between CKs and auxins underlies their critical, antagonistic roles in regulating organ initiation, embryogenesis, meristem function, and other crucial processes. Phytohormone levels are thought to be tightly regulated both temporally and spatially. Indeed, Petersson et al. (2009) detected the presence of an auxin gradient in Arabidopsis thaliana roots. However, determining the precise localization of CK is more challenging because CKs are present at extremely low levels (pmol
g 21 fresh weight, ;100-fold lower than auxin levels) and consist of several related molecules and derived metabolites, different forms of which can interconvert via enzymatic reactions. Promoter-reporter studies have predicted the presence of CK gradients within the root apex, but this approach is limited, as it reflects an indirect measure of CK levels, and the reporters employed are potentially subject to additional layers of regulation. Antoniadi et al. (2015) used a powerful technique to construct a map of the intracellular distribution of CKs and CK metabolites in the Arabidopsis root tip based on precise measurements of CK pools in different cell types. To construct this map, the authors measured CK levels in protoplasts prepared from four different populations of root tip cells. The cell populations were labeled by expressing green fluorescent protein (GFP) in root tips under the control of four different cell-type-specific promoters driving expression in different regions of the root tip, including the distal root (root cap, columella, columella initials, and quiescent center), endodermis, stele, and www.plantcell.org/cgi/doi/10.1105/tpc.15.00553

An intracellular gradient of CKs and CK metabolites was detected in the apical part of the primary root, with maximum levels in the lateral root cap, columella, columella initials, and quiescent center cells (see figure). Strikingly, the authors estimated the concentration of CK metabolites in a single root cell to be in the zeptomole range (between 3 3 10221 and 100 3 10221 mol per cell), highlighting the exquisite sensitivity of their detection system. A similar CK gradient was indirectly revealed by comparing data from microarray, proteomic, and promoter-reporter studies. The presence of this CK gradient and the previously detected auxin gradient implies that the antagonistic interactions between these phytohormones are cell type specific. Unraveling the mechanisms underlying the effects of these interactions on individual cell types will require persistence, luck, and perhaps the development of even more powerful techniques.

Jennifer Lockhart Science Editor [email protected] ORCID ID: 0000-0002-1394-8947

REFERENCES Cytokinin gradient map showing a concentration maximum in the lateral root cap, columella, columella initials, and quiescent center cells. The red color scale indicates the CK content in GFP1 protoplasts relative to that in the GFP– reference population for each GFP cell line. N/A, not analyzed. (Reprinted from Antoniadi et al. [2015], Figure 5A.)

cortex/epidermis regions. Protoplasts were isolated from these four lines and sorted into GFP 1 and GFP – populations using fluorescence-activated cell sorting. Cytokinins were then extracted by multilayer solid-phase microextraction and quantified by ultra-high-sensitivity mass spectrometry.

Amasino, R. (2005). 1955: Kinetin arrives: the 50th anniversary of a new plant hormone. Plant Physiol. 138: 1177–1184. ´ , L., Simonovik, B., Antoniadi, I., Pla ckova ˇ Dolezˇ al, K., Turnbull, C., Ljung, K., and Nova´ k, O. (2015). Cell-type-specific cytokinin distribution within the Arabidopsis primary root apex. Plant Cell 27: 1955–1967. Petersson, S.V., Johansson, A.I., Kowalczyk, M., Makoveychuk, A., Wang, J.Y., Moritz, T., Grebe, M., Benfey, P.N., Sandberg, G., and Ljung, K. (2009). An auxin gradient and maximum in the Arabidopsis root apex shown by high-resolution cell-specific analysis of IAA distribution and synthesis. Plant Cell 21: 1659– 1668.

Measuring Cytokinin Levels in the Root Tip by the Zeptomole Jennifer Lockhart Plant Cell 2015;27;1819; originally published online July 7, 2015; DOI 10.1105/tpc.15.00553 This information is current as of September 7, 2015 References

This article cites 3 articles, 3 of which can be accessed free at: http://www.plantcell.org/content/27/7/1819.full.html#ref-list-1

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