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  • Hochholdinger F., Baldauf J. (2018) Heterosis in Crop Plants. Current Biol., in press.
  • Kreszies T., Shellakkutti N., Osthoff A., Yu P., Baldauf J., Zeisler-Diehl V., Ranathunge K., Hochholdinger F., Schreiber L. (2018) Osmotic stress enhances suberization of apoplastic barriers in barley seminal roots: analysis of chemical, transcriptomic and physiological responses. New Phytol., in press.
  • Baldauf J., Marcon, C., Lithio, A., Vedder, L., Altrogge, L., Piepho, H.-P., Schoof, H., Nettleton, D., Hochholdinger, F. (2018) Single parent expression is a general mechanism that drives extensive complementation of non-syntenic genes in maize (Zea mays L.) hybrids. Current Biol., 28: 431-437. PubMed
  • Hochholdinger F., Marcon C., Baldauf J., Frey F., Yu P. (2018) Proteomics of Maize Root Development. Front. Plant Sci., 9: 143. PubMed
  • Yu P., Wang C., Baldauf J., Tai H., Gutjahr C., Hochholdinger F., Li C. (2018) Root type and soil phosphate determine the taxonomic landscape of colonizing fungi and the transcriptome of field-grown maize roots. New Phytol., 217: 1240-1253. PubMed
  • Hochholdinger F., Yu P., Marcon C. (2018) Genetic control of root system development in maize. Trends in Plant Sci., 23:79-88. PubMed
  • Yu P., Marcon C., Baldauf J.A., Frey F., Baer M., Hochholdinger F. (2018): Transcriptomic dissection of maize root system development. The Zea mays Genome, book chapter, in press.


  • Hey S., Baldauf J., Opitz N., Lithio A., Pasha A., Provart N., Nettleton D., Hochholdinger F. (2017) Complexity and specificity of the maize (Zea mays L.) root hair transcriptome. J. Exp. Bot.,68(9):2175-2185. PubMed Free Article 

  • Unterseer S., Seidel M.A., Bauer E., Haberer G., Hochholdinger F., Opitz N., Marcon C., Baruch K., Spannagl M., Mayer K.F.X., Schön C.-C. (2017) European Flint reference sequences complement the maize pan-genome. bioRxiv 103747.

  • Tai H., Opitz N., Lithio A., Lu X., Nettleton D., Hochholdinger F. (2017) Non-syntenic genes drive RTCS-dependent regulation of the embryo transcriptome during formation of seminal root primordia in maize (Zea mays L.). J. Exp. Bot., 68(3):403-414. PubMed

  • Marcon C., Paschold A., Malik W.A., Lithio A., Baldauf J.A., Altrogge L., Opitz N., Lanz C., Schoof H., Nettleton D., Piepho H.-P., Hochholdinger F. (2017) Stability of single parent gene expression complementation in maize hybrids upon water deficit stress. Plant Physiol., 173(2):1247-1257. PubMed Free Article


  • Li L., Hey S., Liu S., Liu Q., McNinch C., Hu H.C., Wen T.J., Marcon C., Paschold A., Bruce W., Schnable P.S., Hochholdinger F. (2016) Characterization of maize roothairless6 which encodes a D-type cellulose synthase and controls the switch from bulge formation to tip growth. Sci. Rep. 6, 34395. Free Article
  • Yu P., Gutjahr C., Li C., Hochholdinger F. (2016) Genetic control of lateral root formation in cereals. Trends Plant Sci., 21:951-961. PubMed
  • Hochholdinger F. (2016) Untapping root system architecture for crop improvement. J. Exp. Bot., 67(15):4431-3. PubMed

  • Sebastian J., Yee M.C., Viana W.G., Rellán-Álvarez R., Feldman M., Priest H., Trontin C., Lee T., Jiang H., Baxter I., Mockler T.C., Hochholdinger F., Brutnell T.P., Dinneny J.R. (2016) Grasses suppress shoot-borne roots to conserve water during drought. Proc. Nat. Acad. Sci. U S A, 113(31):8861-6. PubMed

  • Baldauf J.A., Marcon C., Paschold A., Hochholdinger F. (2016) Nonsyntenic genes drive tissue-specific dynamics of differential, nonadditive and allelic expression patterns in maize hybrids. Plant Physiol.,171(2):1144-1155. PubMed Free Article
  • Yu P., Baldauf J.A., Lithio A., Marcon C., Nettleton D., Li C., Hochholdinger F. (2016) Root type specific reprogramming of maize pericycle transcriptomes by local high nitrate results in disparate lateral root branching patterns. Plant Physiol., 170(3):1783-98. PubMed Free Article
  • Zhang Y., Marcon C., Tai H., von Behrens I., Ludwig Y., Hey S., Berendzen K.W., Hochholdinger F. (2016) Conserved and unique features of the homeologous maize Aux/IAA proteins ROOTLESS WITH UNDETECTABLE MERISTEM 1 and RUM1-like 1. J. Exp. Bot., 67(4):1137-47.PubMed Free Article

  • Tai H., Lu X., Opitz N., Marcon C., Paschold A., Lithio A., Nettleton D., Hochholdinger F. (2016) Transcriptomic and anatomic complexity of primary, seminal and crown roots highlight root type-specific functional diversity in maize (Zea mays L.). J. Exp. Bot., 67(4):1123-35. PubMed Free Article

  • Xu C., Luo F., Hochholdinger F. (2016) LOB domain proteins: beyond lateral organ boundaries. Trends Plant Sci., 21(2):159-67. PubMed
  • Opitz N., Marcon C., Paschold A., Malik W.A., Lithio A., Brandt R., Piepho H.-P., Nettleton D., Hochholdinger F. (2016) Extensive tissue-specific transcriptomic plasticity in maize primary roots upon water deficit. J. Exp. Bot., 67(4):1095-1107. PubMed Free Article

  • Anjam M.S., Ludwig, Y.,  Hochholdinger F.,  Miyaura C., Inada M., Siddique S., )Grundler F.M.W. (2016) An improved procedure for isolation of high-quality RNA from nematode-infected Arabidopsis roots through laser capture microdissection. Plant Methods, 12:25.PubMed Free Article

  • Marcon C., Baldauf J.A., Hochholdinger F. (2016) Komplementation von Genexpressionsmustern in Maishybriden. Biospektrum, (22):603-605.



  • Yu P., Eggert K., von Wirén N., Li C., Hochholdinger F. (2015): Cell-type specific gene expression analyses by RNA-Seq reveal local high nitrate triggered lateral root initiation in shoot-borne roots of maize by modulating auxin-related cell cycle-regulation. Plant Physiol.,169(1):690-704. PubMed Free Article

  • Marcon C., Malik W.A., Walley J.W., Shen Z., Paschold A., Smith L.G., Piepho H.-P., Briggs S.P., Hochholdinger F. (2015): A high resolution tissue-specific proteome and phosphoproteome atlas of maize primary roots reveals functional gradients along the root axis. Plant Physiol., 168: 233-246. PubMed Free Article

  • Xu C., Tai H., Saleem M., Ludwig Y., Majer C., Berendzen K., Nagel K., Wojciechowski T., Meeley R., Taramino G., Hochholdinger F. (2015): Cooperative action of the paralogous maize LOB domain proteins RTCS and RTCL in shoot-borne root formation. New Phytol., 207:1123-33. PubMed

  • Zhang Y., von Behrens I., Zimmermann R., Ludwig Y., Hey S., Hochholdinger F. (2015): LATERAL ROOT PRIMORDIA 1 of maize acts as a transcriptional activator in auxin signaling downstream of the Aux/IAA gene rootless with undetectable meristem1. J. Exp. Bot., 66:3855-63. PubMed Free Article

  • Yu P, Hochholdinger F, Li C (2015): Root-type-specific plasticity in response to localized high nitrate supply in maize (Zea mays). Ann. Bot., 116(5):751-762. PubMed Free Article


  • Paschold A., Larson N.B., Marcon C., Schnable J.C., Yeh C.T., Lanz C., Nettleton D., Piepho H.P., Schnable P.S., Hochholdinger F. (2014): Non-syntenic genes drive highly dynamic complementation of gene expression in maize hybrids. Plant Cell, 26: 3939-3948. PubMed

  • Nestler J., Liu S., Wen T.-J., Paschold A., Marcon C., Tang H.M., Li D., Li L., Meeley R., Sakai H., Bruce W., Schnable P.S., Hochholdinger F. (2014): Roothairless5, which functions in maize (Zea mays L.) root hair initiation and elongation encodes a monocot-specific NADPH oxidase. Plant J., 79: 729-740. PubMed 

  • Zhang Y., Paschold A., Marcon C., Liu S., Tai H., Nestler J., Yeh C. T., Opitz N., Lanz C., Schnable P. S., Hochholdinger F. (2014): The Aux/IAA gene rum1 involved in seminal and lateral root formation controls vascular patterning in maize (Zea mays L.)  primary roots. J. Exp. Bot., 65: 4919-4930.PubMed Free Article

  • Opitz N., Paschold A., Marcon C., Malik W.A., Lanz C., Piepho H.P., Hochholdinger F. (2014): Transcriptomic complexity in young maize primary roots in response to low water potentials. BMC Genomics, 15 (1): 741. PubMed Free Article

  • Ludwig Y., Berendzen K.W., Xu C., Piepho H.P., Hochholdinger F. (2014): Diversity of Stability, Localization, Interaction and Control of Downstream Gene Activity in the Maize Aux/IAA Protein Family. PLoS ONE, 9: e107346. PubMed Free Article

  • Yu P., White P.J., Hochholdinger F., Li C. (2014): Phenotypic plasticity of the maize root system in response to heterogeneous nitrogen availability. Planta, 240(4): 667-678. PubMed

  • Kumar B., Abdel-Ghani A.H., Pace J., Reyes-Matamoros J., Hochholdinger F., Lübberstedt T. (2014): Association analysis of single nucleotide polymorphisms in candidate genes with root traits in maize (Zea mays L.) seedlings. Plant Sci., 224: 9-19. PubMed
  • Ludwig Y., Hochholdinger F. (2014): Laser microdissection of plant cells.Meth. Mol. Biol., 1080:249-258. PubMed



  • Muthreich N., Majer C., Beatty M., Paschold A., Schützenmeister A., FuY., Malik W.A., Schnable P.S., Piepho H.-P., Sakai H., Hochholdinger F. (2013): Comparative transcriptome profiling of maize (Zea mays L.) coleoptilar nodes during shoot-borne root initiation. Plant Physiol., 163:419-30. PubMed  Free article

  • Ludwig Y., Zhang Y., Hochholdinger F. (2013): The maize (Zea mays L.) AUXIN/INDOLE-3-ACETIC ACID gene family: phylogeny, synteny, and unique root-type and tissue-specific expression patterns during development. PLoS ONE, 8(11): e78859. PubMed  Free article

  • Marcon C., Lamkemeyer T., Malik W.A., Ungrue D, Piepho H.-P., Hochholdinger F. (2013): Heterosis-associated proteome analyses of maize (Zea mays L.) seminal roots by quantitative label-free LC-MS. J. Proteomics, 93: 295-302. PubMed

  • Husakova E., Hochholdinger F., Soukup A. (2013): Lateral root development in the maize (Zea mays) lateral rootless1 mutant. Ann. Bot., 112:417-428. PubMed Free Article

  • Marcon C., Paschold A., Hochholdinger F. (2013): Genetic control of root organogenesis in cereals. Meth. Mol. Biol., 959:69-81. PubMed

  • Hochholdinger F., Nestler J. (2013): Plant Root Development, Genetics and Genomics Of. In: Maloy S and  Hughes  K (ed.) Brenner's Encyclopedia of Genetics, vol. 5, pp. 349-352. Elsevier: New York .

  • Hochholdinger F., Feix G. (2013): Genetic analysis of maize root development. In Plant roots the hidden half. 4th ed., Marcel Dekker, New York, Inc, 10: 1-8.

  • Hochholdinger F., Paschold A., Marcon C. (2013): Heterosis: Maishybride exprimieren mehr Gene als ihre Eltern. Biologie in unserer Zeit, 43:11-12.



  • Paschold A.*, Jia Y.*, Marcon C., Lund S., Larson N.B., Yeh C.T., Ossowski S., Lanz C., Nettleton D., Schnable P.S., Hochholdinger F. (2012): Complementation contributes to transcriptome complexity in maize (Zea mays L.) hybrids relative to their inbred parents. Genome Res., 22: 2445-2454. PubMed   Free article

  • De Smet I., White P., Bengough A. G., Dupuy L., Parizot B., Casimiro I., Heidstra R., Laskowski M., Lepetit M., Hochholdinger F., Draye X., Zhang H., Broadley M.R., Péret B., Hammond J.P., Fukaki H., Mooney S., Lynch J.P., Malamy J.E., Nacry P., Schurr U., Laplaze L., Benfey P.,Beeckman T., Bennett M. (2012): Analyzing lateral root development: how to move forward. Plant Cell, 24:15-20. PubMed

  • Majer C.*, Xu C.*, Berendzen K.W., Hochholdinger F. (2012): Molecular interactions of RTCS, a LOB domain protein regulating shoot-borne root initiation in maize (Zea mays L.)  Phil. Trans. R. Soc. B, 367:1542-1451. PubMed

  • Liao C., Hochholdinger F., Li C. (2012): Comparative Analyses of three Legume Species Reveals Conserved and Unique Root Extracellular Proteins. Proteomics, 12: 3219-3228. PubMed

  • Kumar B., Abdel-Ghani A.H., Reyes Matamoros J.M., Hochholdinger F., Lübberstedt T. (2012): Genotypic variation for root architecture traits in seedlings of maize (Zea mays L.) inbred lines, Plant Breeding, 131: 465-478. Journal website



  • von Behrens I., KomatsuM.,  Zhang Y., BerendzenK.W., NiuX., SakaiH., Taramino G.,  Hochholdinger F. (2011): Rootless with undetectable meristem1 encodes a monocot-specific AUX/IAA protein that controls embryonic seminal and postembryonic lateral root initiation in maize. Plant J., 66: 341-353.   PubMed

  • Nestler J., Schütz W., Hochholdinger F. (2011): Conserved and unique features of the maize root hair proteome. J. Proteome Res., 10: 2525-2537. PubMed

  • Majer C., Hochholdinger F. (2011): Defining the boundaries: structure and function of LOB-domain proteins. Trends Plant Sci.,16: 47-52.   PubMed



  • Zimmermann R., Sakai H., Hochholdinger F. (2010): The Gibberelic Acid Stimulated Like (GSL) gene family in maize (Zea mays L.) and its role in lateral root development. Plant Physiol., 152: 356-365.   PubMed   Free article

  • Saleem M., Lamkemeyer T., Schutzenmeister A., Madlung J., Sakai H., Piepho H.P., Nordheim A., Hochholdinger F. (2010): Specification of cortical parenchyma and stele of maize (Zea mays L.) primary roots by asymmetric levels of auxin, cytokinin and cytokinin-regulated proteins.  Plant Physiol., 152: 4-18.   PubMed   Free article

  • Marcon C., Schützenmeister A., Schütz W., Madlung J, Piepho H.P., Hochholdinger F. (2010): Non-additive protein accumulation patterns in maize (Zea mays L.) hybrids during embryo development.J. Proteome Res., 9: 6511-6522.   PubMed

  • Ma W., Muthreich N., Liao C., Franz-Wachtel M., Schütz W., Zhang F., Hochholdinger F., Li C. (2010): The mucilage proteome of maize (Zea mays L.) primary roots. J. Proteome Res., 9: 2968-2976.   PubMed

  • Muthreich N., Schützenmeister A., Schütz W., Madlung J., Krug K., Nordheim A., Piepho H.-P., Hochholdinger F. (2010): Regulation of the maize (Zea mays L.) embryo proteome by RTCS which controls seminal root initiation. Eur. J. Cell Biol., 89: 242-249.   PubMed

  • Liu Y., von Behrens I., Muthreich N., Schütz W., Nordheim A., Hochholdinger F. (2010): Regulation of the pericycle proteome in maize (Zea mays L.) primary roots by RUM1 which is required for lateral root initiation. Eur. J. Cell Biol., 89: 236-241.   PubMed

  • Paschold A., Marcon C., Hoecker N., Hochholdinger F. (2010): Molecular dissection of heterosis manifestation during early maize root development. Theor. Appl. Genet. 120: 383-388.   PubMed



  • Saleem M., Lamkemeyer T., Schuetzenmeister A., Fladerer C., Piepho H.-P., Nordheim A., Hochholdinger F. (2009): Tissue specific control of the maize (Zea mays L.) embryo, cortical parenchyma, and stele proteomes by RUM1 which regulates seminal and lateral root initiation. J. Proteome Res. 8: 2285-2297.   PubMed

  • Hochholdinger F., Zimmermann R. (2009): Molecular and genetic dissection of cereal root development. Ann. Plant Rev. 37: 175–191 (invited review).   Link

  • Hochholdinger F. (2009): The Maize Root System: Morphology, Anatomy and Genetics. In The Handbook of Maize (eds J. Bennetzen, S. Hake) pp. 145-160. Springer, New York, Inc.   Link

  • Hochholdinger F., Tuberosa R. (2009): Genetic and genomic dissection of maize root development and architecture. Curr. Opin. Plant Biol. 12: 172-177.   PubMed



  • Hala M., Cole R., Synek L., Drdova E., Pecenkova T., Nordheim A., Lamkemeyer T., Madlung J., Hochholdinger F., Fowler J.E., Zarsky V. (2008): An exocyst complex functions in plant cell growth. Plant Cell 20: 1330-45.   PubMed   Free article

  • Hochholdinger F.*, Wen T.J.*, Zimmermann R., Chimot-Marolle P., da Costa e Silva O., Bruce W., Lamkey K.R., Wienand U., Schnable P.S. (2008): The maize (Zea mays L.) roothairless3 gene encodes a putative GPI-anchored, monocot-specific, COBRA-like protein that significantly affects grain yield. Plant J. 54: 888-98. * Co-first authors   PubMed   Free article

  • Hochholdinger F., Zimmermann R. (2008): Conserved and diverse mechanisms in root development. Curr. Opin. Plant Biol. 11: 70-74.   PubMed

  • Hoecker N., Lamkemeyer T., Sarholz B., Paschold A., Fladerer C., Madlung J., Wurster K., Stahl M., Piepho H.-P., Nordheim A., Hochholdinger F. (2008): Analysis of non-additive protein accumulation in young primary roots of a maize (Zea mays L.) F1-hybrid compared to its parental inbred lines. Proteomics 8: 3882–3894.   PubMed

  • Hoecker N., Keller B., Muthreich N., Chollet D., Descombes P., Piepho H.-P., Hochholdinger F. (2008): Comparison of maize (Zea mays L.)  F1-hybrid and parental inbred line primary root transcriptomes suggests organ specific patterns of non-additive gene expression and conserved expression trends between different hybrids. Genetics 179: 1275-83.   PubMed   Free article



  • Taramino G., Sauer M., Stauffer J., Multani D., Niu X., Sakai H., Hochholdinger F. (2007): The rtcs gene in maize (Zea mays L.) encodes a lob domain protein that is required for postembryonic shoot-borne and embryonic seminal root initiation. Plant J. 50: 649-659.   PubMed

  • Dembinsky D., Woll K., Saleem M., Liu Y., Fu Y., Borsuk L.A., Lamkemeyer T., Fladerer C., Madlung J., Barbazuk B., Nordheim N., Nettleton D., Schnable P.S., Hochholdinger F. (2007): Transcriptomic and proteomic analyses of pericycle cells of the maize (Zea mays L.) primary root. Plant Physiol.145: 575-588.   PubMed   Free article

  • Hochholdinger F., Hoecker N. (2007): Towards the molecular basis of heterosis. Trends Plant Sci. 12: 427-432.   PubMed

  • Hochholdinger F. (2007): Genetische Analyse der Wurzelentwicklung von Mais (Zea mays L.): Von Mutanten zu Genen, Transkriptomen und Proteomen. Beiträge zur Hallenser Pflanzenernährungsforschung 14: 16-20.



  • Liu Y., Lamkemeyer T., Jakob A., Mi G., Zhang F., Nordheim A., Hochholdinger F. (2006): Comparative proteome analyses of maize (Zea mays L.) primary roots prior to lateral root initiation reveal differential protein expression in the lateral root initiation mutant rum1. Proteomics, 6: 4300-4308.   PubMed

  • Woll K., Dressel A., Sakai H., Piepho H.-P., Hochholdinger F. (2006): The root tip specific gene ZmGrp3: A novel marker for root initiation and a model to study allelic contribution to gene expression in maize (Zea mays L.) primary roots. Theor. Appl. Genet. 113: 1305-1315.   PubMed

  • Sauer M., Jakob A., Nordheim A., Hochholdinger F. (2006): Proteomic analysis of shoot-borne root initiation in maize (Zea mays L.). Proteomics 6: 2530-2541.   PubMed

  • Hoecker N., Keller B., Piepho H.-P., Hochholdinger F. (2006): Manifestation of heterosis during early maize (Zea mays L.) root development. Theor. Appl. Genet. 112: 421-429.   PubMed

  • Piepho H.P., Keller B., Hoecker N., Hochholdinger F. (2006): Combining signals from spotted maize (Zea mays L.) cDNA microarrays obtained at different scanning intensities. Bioinformatics 22: 802-807.   PubMed

  • Hochholdinger F., Sauer M., Dembinsky D., Hoecker N., Muthreich N., Saleem M., Liu Y. (2006): Proteomic dissection of plant development. Proteomics 6: 4076-4083.   PubMed

  • Schlicht M., Strnad M., Scanlon M., Mancuso S., Hochholdinger F., Palme K., Volkmann D., Menzel D., Baluska F. (2006): Auxin Enrichment at Actin-Based Synapses and within Adjacent Endosomes Implicate Vesicular Neurotransmitter-Like Mode of Polar Auxin Transport in Root Apices. Plant Signal. Behav. 1:122-133.   PubMed   Free article



  • Woll K., Borsuk L., Stransky H., Nettleton D., Schnable P.S., Hochholdinger F. (2005): Isolation, characterization and pericycle specific transcriptome analyses of the novel maize (Zea mays L.) lateral and seminal root initiation mutant rum1. Plant Physiol. 139: 1255-1267.   PubMed   Free article

  • Wen T.J.*, Hochholdinger F.*, Sauer M., Bruce W., Schnable P.S. (2005): The roothairless1 gene of maize (Zea mays) encodes a homolog of sec3, which is involved in polar exocytosis. Plant Physiol. 138: 1637-1643. * Co-first authors   PubMed   Free article

  • Hochholdinger F., Woll K., Guo L., Schnable P.S. (2005): Analysis of the soluble proteome of maize (Zea mays L.) primary roots reveals drastic changes in protein composition during early development. Proteomics 18: 4885-4893.   PubMed

  • Keller B., Emrich K., Hoecker N., Sauer M., Hochholdinger F., Piepho H.-P. (2005):Designing a Microarray Experiment to Estimate Dominance in Maize (Zea mays). Theor Appl Genet. 111: 57-64.   PubMed

  • Hochholdinger F., Woll K., Sauer M., Feix G. (2005): Functional genomic tools in support of the genetic analysis of root development in maize (Zea mays L.). 50th anniversary edition of Maydica 50: 437-442.   Link

  • Jung S., Hwang I., Hochholdinger F., Oh Y.J., Lee Y., Eun M.Y., Park W.J. (2005): Progress in the genetic studies on root development in Oryza sativa. J. Nano Bio Tech. 2:66-70.   Link   Free article

  • Hoecker N., Hochholdinger F. (2005): Morphological characterization of heterotic traits in early root development of maize. Maize Genet. Coop. Newsl. 79: 44-45.  Link



  • Hochholdinger F., Guo L., Schnable P.S. (2004): Cytoplasmic regulation of the accumulation of nuclear-encoded proteins in the mitochondrial proteome of maize. Plant J. 37(2): 199-208.   PubMed
  • Schnable P.S., Hochholdinger F., Nakazono M. (2004): Global Expression Profiling Applied to Plant Development. Current Opin. Plant Biol. 7: 50-56.   PubMed
  • Hochholdinger F., Park W.J., Sauer M., Woll K. (2004): From weeds to crops: genetic analysis of root development in cereals. Trends Plant Sci. 9: 42-48.   PubMed
  • Hochholdinger F., Guo L., Schnable P.S. (2004): Lateral roots affect the proteome of the primary root of maize (Zea mays L.). Plant Mol. Biol. 56: 397-412.   PubMed
  • Hochholdinger F., Woll K., Sauer M., Dembinsky D. (2004): Genetic dissection of root formation in maize (Zea mays) reveals root-type specific developmental programs. Annals Bot. 93: 359-368.   PubMed   Free article
  • Park W.J., Hochholdinger F., Gierl A. (2004): Release of defense molecules the benzoxazinoids during lateral- and crown root emergence in Zea mays. J. Plant Physiol. 161: 981-985.   PubMed
  • Woll K., Hochholdinger F. (2004): Isolation of a new root mutant affected in lateral and seminal root initiation. Maize Genet. Coop. Newsl. 78: 59-60.   Link


Vor 2004

  • Woll K., Hochholdinger F. (2003): ZmGrp3 is exclusively expressed in epidermal cells of the root tip and the columella. Maize Genet. Coop. Newsl. 77: 73.   Link
  • Feix G., Hochholdinger F., Park W.J. (2002): Maize root system and Genetic Analysis of ist formation. In Plant roots the hidden half. 3rd ed. (eds Y. Waisel, A. Eshel and U. Kafkafi) pp. 239-248. Marcel Dekker, New York, Inc
  • Hochholdinger F.*, Park W.-J.*,Feix G. (2001): Cooperative action of SLR1 and SLR2 is required for lateral root specific cell-elongation in maize. Plant Physiol., 125: 1529-1539. * Co-first authors   PubMed   Free article
  • Hochholdinger F., Wulff D., Reuter K., Park W.-J., Feix G. (2000): Tissue specific expression of AUX1 in maize roots. J. Plant Physiol. 157: 315-319.
  • Hochholdinger F., Park W.-J., Feix G. (1999): The newly isolated root mutant slr2 is affected in lateral root elongation. Maize Genet. Coop. Newsl. 73: 32-33.   Link
  • Hochholdinger F., Feix G. (1998a): Early post-embryonic root formation is specifically affected in the maize mutant lrt1. Plant J. 16: 247-255.   Link   Free article
  • Hochholdinger F., Feix G. (1998b): Cyclin expression is completely suppressed at the site of crown root formation in the nodal region of the maize root mutant rtcs. J. Plant Physiol. 153: 425-429.
  • Hochholdinger F., Feix G. (1998c): Tiller formation in gaspe flint is not affected by the rtcs locus. Maize Genet. Coop. Newsl. 72: 30-31.   Link
  • Hochholdinger F., Feix G. (1998d): Isolation of the new necrotic root mutant brt1.Maize Genet. Coop. Newsletter 72: 29-30.   Link
  • Hochholdinger F., Park W.-J., and Feix G. (1998): Isolation of the new root mutant slr1 affecting lateral root formation. Maize Genet. Coop. Newsl. 72: 30.   Link
  • Hochholdinger F., Schnable P., Feix G. (1997): Isolation of the new recessive mutant lrt1 deficient in lateral root formation. Maize Genet. Coop. Newsl. 71: 35.   Link
  • Hetz W., Hochholdinger F., Schwall M., Feix G. (1996): Isolation and characterisation of rtcs, a mutant deficient in the formation of nodal roots. Plant J. 10: 845-857.   Link   Free article
  • Hochholdinger F., Hetz W., Feix G. (1996): Juvenile-adult phase transition of vegetative traits is not affected in the root deficient mutant rtcs. Maize Genet. Coop. Newsl. 70: 23.   Link