Ute Voß

Contact

• workRoom C10 Plant Sciences
  Sutton Bonington Campus
  Sutton Bonington
  Leicestershire
  LE12 5RD
  UK
• workvia Teams
• ute.voss@nottingham.ac.uk

Research Summary

How morphogen homeostasis evolved to shape land plants

Understanding how plants regulate their growth and shape is of fundamental importance to successfully breeding crop plants that gain high yields, even in extreme weather conditions. The body plan of animals and plants determines the positioning of organs such as legs in animals or leaves and flowers in plants. This is regulated by small chemicals called morphogens.

One important developmental signaling compound in land plants is auxin, a key regulator of almost all aspects of plant development, including morphogenesis and adaptive responses. Auxin gradients are established and maintained by a tightly regulated interplay between homeostasis, signalling, and transport. Auxin can be inactivated by conjugation, but metabolic data suggest that auxin oxidation is the major auxin degradation pathway. I recently identified the two major auxin oxidising enzymes in the model plant Arabidopsis thaliana: DIOXYGENASE FOR AUXIN OXIDATION 1&2 (DAO1&2). My research programme will answer how this novel clade of auxin degrading enzymes contributes to plant development and how auxin degradation contributes to the plant's abiotic stress acclimatisation.

Recent Publications

• LEFTLEY, N., BANDA, J., PANDEY, B., BENNETT, M. and VOß, U., 2021. Uncovering How Auxin Optimizes Root Systems Architecture in Response to Environmental Stresses: Cold Spring Harb Perspect Biol Cold Spring Harb Perspect Biol.
• MELLOR NL, VOSS U, JANES G, BENNETT MJ, WELLS DM and BAND L, 2020. Auxin fluxes through plasmodesmata modify root-tip auxin distribution Development.
• KHAN, F. A., VOß, U., POUND, M. P. and FRENCH, A. P., 2020. Volumetric Segmentation of Cell Cycle Markers in Confocal Images Using Machine Learning and Deep Learning: Front Plant Sci Front Plant Sci. 11, 1275
• TRINH DC, LAVENUS J, GOH T, BOUTTE Y, DROGUE Q, VAISSAYRE V, TELLIER F, LUCAS M, VOSS U, GANTET P, FAURE JD, DUSSERT S, FUKAKI H, BENNETT MJ, LAPLAZE L and GUYOMARC'H S, 2019. PUCHI regulates very long chain fatty acid biosynthesis during lateral root and callus formation PNAS.

• View all publications

• LEFTLEY, N., BANDA, J., PANDEY, B., BENNETT, M. and VOß, U., 2021. Uncovering How Auxin Optimizes Root Systems Architecture in Response to Environmental Stresses: Cold Spring Harb Perspect Biol Cold Spring Harb Perspect Biol.
• MELLOR NL, VOSS U, JANES G, BENNETT MJ, WELLS DM and BAND L, 2020. Auxin fluxes through plasmodesmata modify root-tip auxin distribution Development.
• KHAN, F. A., VOß, U., POUND, M. P. and FRENCH, A. P., 2020. Volumetric Segmentation of Cell Cycle Markers in Confocal Images Using Machine Learning and Deep Learning: Front Plant Sci Front Plant Sci. 11, 1275
• TRINH DC, LAVENUS J, GOH T, BOUTTE Y, DROGUE Q, VAISSAYRE V, TELLIER F, LUCAS M, VOSS U, GANTET P, FAURE JD, DUSSERT S, FUKAKI H, BENNETT MJ, LAPLAZE L and GUYOMARC'H S, 2019. PUCHI regulates very long chain fatty acid biosynthesis during lateral root and callus formation PNAS.
• ESCAMEZ S, ANDRE D, SZTOJKA B, BOLLHONER B, HALL H, BERTHET B, VOSS U, LERS A, MAIZEL A, ANDERSSON M, BENNETT MJ and TUOMINEN H, 2019. Cell death in cells overlying lateral root primordia facilitates organ growth in Arabidopsis Current Biology.
• CASANOVA-SÁEZ, R. and VOß, U., 2019. Auxin Metabolism Controls Developmental Decisions in Land Plants: Trends Plant Sci Trends Plant Sci. 24(8), 741-754
• BHOSALE R, GIRI J, PANDEY B K, GIEHL R F H, HARTMANN A, TRAINI R, TRUSKINA J, LEFTLEY N, HANLON M, SWARUP K, RASHED A, VOß U, ALONSO J, STEPANOVA A, YUN J, LJUNG K, BROWN K M, LYNCH J P, DOLAN L, VERNOUX T, BISHOPP A, WELLS D, VON WIRÉN N, BENNETT M J and SWARUP R, 2018. A mechanistic framework for auxin dependent Arabidopsis root hair elongation to low external phosphate Nature Communications. 9(1), 1409
• 2016. Dynamic regulation of auxin oxidase and conjugating enzymes AtDAO1 and GH3 modulates auxin homeostasis. Proceedings of the National Academy of Sciences of the United States of America. (In Press.)
• PORCO S, PENCIK A, RASHED A, VOSS U, CASANOVA-SAEZ, BISHOPP A, GOLEBIOWSKA A, BHOSALE R, SWARUP R, SWARUP K, PENAKOVA P, NOVAK O, STASWICK P, HEDDEN P, PHILLIPS AL, VISSENBERG K, BENNETT MJ and LJUNG K, 2016. Dioxygenase-encoding AtDAO1 gene controls IAA oxidation and homeostasis in Arabidopsis PNAS. 113(39), 11016-11021
• REINHARDT H, HACHEZ C, BIENERT MD, BEEBO A, SWARUP K, VOß U, BOUHIDEL K, FRIGERIO L, SCHJOERRING JK, BENNETT MJ and CHAUMONT F, 2016. Tonoplast Aquaporins Facilitate Lateral Root Emergence. Plant physiology. 170(3), 1640-54
• LAVENUS J, GOH T, GUYOMARC'H S, HILL K, LUCAS M, VOß U, KENOBI K, WILSON MH, FARCOT E, HAGEN G, GUILFOYLE TJ, FUKAKI H, LAPLAZE L and BENNETT MJ, 2015. Inference of the Arabidopsis lateral root gene regulatory network suggests a bifurcation mechanism that defines primordia flanking and central zones. The Plant cell. 27(5), 1368-88
• VOß U, WILSON MH, KENOBI K, GOULD PD, ROBERTSON FC, PEER WA, LUCAS M, SWARUP K, CASIMIRO L, HOLMAN TJ, WELLS DM, PÉRET B, GOH T, FUKAKI H, HODGMAN TC, LAPLAZE L, HALLIDAY KJ, LJUNG K, MURPHY AS, HALL AJ, WEBB AR and BENNETT MJ, 2015. The circadian clock rephrases during lateral root organ initiation in Arabidopsis thaliana Nature Communications. 6, 7641
• VOß U, BISHOPP A, FARCOT E and BENNETT MJ, 2014. Modelling hormonal response and development Trends in Plant Science. (In Press.)
• GIBBS DJ, VOß U, HARDING SA, FANNON J, MOODY LA, YAMADA E, SWARUP K, NIBAU C, BASSEL GW, CHOUDHARY A, LAVENUS J, BRADSHAW SJ, STEKEL DJ, BENNETT MJ and COATES JC, 2014. AtMYB93 is a novel negative regulator of lateral root development in Arabidopsis. The New phytologist. 203(4), 1194-207
• ATKINSON, JONATHAN A., RASMUSSEN, AMANDA, TRAINI, RICHARD, VOSS, UTE, STURROCK, CRAIG, MOONEY, SACHA J., WELLS, DARREN M. and BENNETT, MALCOLM J., 2014. Branching Out in Roots: Uncovering Form, Function, and Regulation Plant Physiology. 166(2), 538-550
• RICHTER S, KIENTZ M, BRUMM S, NIELSEN ME, PARK M, GAVIDIA R, KRAUSE C, VOSS U, BECKMANN H, MAYER U, STIERHOF YD and JÜRGENS G, 2014. Delivery of endocytosed proteins to the cell-division plane requires change of pathway from recycling to secretion. eLife. 3, e02131
• VOß U, BISHOPP A, FARCOT E and BENNETT MJ, 2014. Modelling hormonal response and development. Trends in plant science. 19(5), 311-9
• WILSON M, GOH T, VOß U, BISHOPP A, PÉRET B and BENNETT M, 2013. SnapShot: Root development. Cell. 155(5), 1190-1190.e1
• VOSS U, LARRIEU A and WELLS DM, 2013. From jellyfish to biosensors: the use of fluorescent proteins in plants. The International journal of developmental biology. 57(6-8), 525-33
• PERET B, LI G, ZHAO J, BAND L, VOSS U, POSTAIRE O, LUU D, DA INES O, CASIMIRO I, LUCAS M, WELLS D, LAZZERINI L, NACRY P, KING J, JENSEN O, SCHAFFNER A, MAUREL C and BENNETT MJ, 2012. Auxin regulates Aquaporin function to facilitate lateral root emergence. Nature Cell Biology. 10, 991-8
• FRENCH AP, WILSON MH, KENOBI K, DIETRICH D, VOß U, UBEDA-TOMÁS S, PRIDMORE TP and WELLS DM, 2012. Identifying biological landmarks using a novel cell measuring image analysis tool: Cell-o-Tape. Plant methods. 8, 7
• DE SMET, IVE, VOSS, UTE, LAU, STEFFEN, WILSON, MICHAEL, SHAO, NING, TIMME, RUTH, SWARUP, RANJAN, KERR, IAN, HODGMAN, CHARLIE, BOCK, RALPH, BENNETT, MALCOLM, JÜRGENS, GERD and BEECKMAN, TOM, 2011. Unraveling the evolution of auxin signaling. Plant Physiology. 155, 209-221
• MURARO, D, BYRNE, H, KING, J, VOSS, U, KIEBER, J and BENNETT, M, 2011. The Influence Of Cytokinin-Auxin Cross-Regulation On Cell-Fate Determination In Arabidopsis Thaliana Root Development Journal Of Theoretical Biology. 283(1), 152-167
• DE SMET, I., LAU, S., VOSS, U., VANNESTE, S., BENJAMINS, R., RADEMACHER, E.H., SCHLERETH, A., DE RYBEL, B., VASSILEVA, V., GRUNEWALD, W., NAUDTS, M., LEVESQUE, M.P., EHRISMANN, J.S., INZE, D., LUSCHNIG, C., BENFEY, P.N., WEIJERS, D., VAN MONTAGU, M.C.E., BENNETT, M.J., JURGENS, G. and BEECKMAN, T., 2010. Bimodular auxin response controls organogenesis in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America. 107(6), 2705-2710
• DE SMET, IVE, VOSS, UTE, JURGENS, GERD and BEECKMAN, TOM, 2009. Receptor-like kinases shape the plant. Nature Cell Biology. 11(10), 1166-1173
• RICHTER S, VOSS U and JÜRGENS G, 2009. Post-Golgi traffic in plants. Traffic (Copenhagen, Denmark). 10(7), 819-28
• HAGA N, KATO K, MURASE M, ARAKI S, KUBO M, DEMURA T, SUZUKI K, MÜLLER I, VOSS U, JÜRGENS G and ITO M, 2007. R1R2R3-Myb proteins positively regulate cytokinesis through activation of KNOLLE transcription in Arabidopsis thaliana. Development (Cambridge, England). 134(6), 1101-10
• GARRIDO E, VOSS U, MÜLLER P, CASTILLO-LLUVA S, KAHMANN R and PÉREZ-MARTÍN J, 2004. The induction of sexual development and virulence in the smut fungus Ustilago maydis depends on Crk1, a novel MAPK protein. Genes & development. 18(24), 3117-30