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  1. First Successful Targeted Mutagenesis Using CRISPR /Cas9 in Stably Transformed Grain Amaranth Tissue

    Article • Plant Biotechnology Journal, February 2026, Wiley

    Dr. Goetz Hensel

  2. FLOWERING LOCUS T1 is a pleiotropic regulator of reproductive development, longevity, and source–sink relations in barley

    Article • PLANT PHYSIOLOGY, January 2026, Oxford University Press (OUP)

    Dr. Goetz Hensel

  3. Establishment of an in vitro Culture and Regeneration Protocol for the Native Grass Polypogon australis Brong

    Article • November 2025, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  4. FLOWERING LOCUS T1 is a pleiotropic regulator of reproductive development, plant longevity, and source-sink relations in barley

    Article • November 2025, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  5. The cost of survival: mutation in a barley Strigolactone repressor HvD53A impairs photosynthesis but increases drought tolerance

    Article • Plant and Cell Physiology, August 2025, Oxford University Press (OUP)

    Dr. Goetz Hensel

  6. Evolutionary clues unlock CoQ10 biofortification

    Article • Trends in Plant Science, August 2025, Elsevier

    Dr. Goetz Hensel

  7. Barley resistance and susceptibility to fungal cell entry involve the interplay of ROP signaling with phosphatidylinositol‐monophosphates

    Article • The Plant Journal, July 2025, Wiley

    Dr. Goetz Hensel

  8. Advances in gene editing-led route for hybrid breeding in crops

    Article • Biotechnology Advances, July 2025, Elsevier

    Dr. Goetz Hensel

  9. Iron allocation to chloroplast proteins depends on the DNA-binding protein WHIRLY1

    Article • Planta, June 2025, Springer Science + Business Media

    Dr. Goetz Hensel

  10. CLAVATA signalling shapes barley inflorescence by controlling activity and determinacy of shoot meristem and rachilla

    Article • Nature Communications, April 2025, Springer Science + Business Media

    Dr. Goetz Hensel

  11. Genetic transformation of the oilseed crop camelina using immature zygotic embryos

    Article • Plant Methods, March 2025, Springer Science + Business Media

    Dr. Goetz Hensel

  12. Ergosterol‐induced immune response in barley involves phosphorylation of phosphatidylinositol phosphate metabolic enzymes and activation of diterpene biosynthesis

    Article • New Phytologist, March 2025, Wiley

    Dr. Goetz Hensel

  13. First Successful Targeted Mutagenesis Using CRISPR/Cas9 in Stably Transformed Grain Amaranth Tissue

    Article • February 2025, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  14. Two Lateral Organ Boundary Domain Transcription Factors HvCRL1 and HvCRL1L1 Regulate Shoot-Borne Root Formation in Barley (Hordeum vulgare L.)

    Article • Journal of Plant Growth Regulation, February 2025, Springer Science + Business Media

    Dr. Goetz Hensel

  15. Genome-wide characterization of two-component system elements in barley enables the identification of grain-specific phosphorelay genes

    Article • BMC Plant Biology, February 2025, Springer Science + Business Media

    Dr. Goetz Hensel

  16. Boosting photosynthesis opens new opportunities for agriculture sustainability and circular economy: The BEST‐CROP research and innovation action

    Article • The Plant Journal, February 2025, Wiley

    Dr. Goetz Hensel

  17. Crop genome editing through tissue-culture-independent transformation methods

    Article • Frontiers in Genome Editing, December 2024, Frontiers

    Dr. Goetz Hensel

  18. WHIRLY1 regulates aliphatic glucosinolate biosynthesis in early seedling development of Arabidopsis

    Article • The Plant Journal, December 2024, Wiley

    Dr. Goetz Hensel

  19. Clonal gamete-mediated polyploid genome design for stacking genomes

    Article • Trends in Plant Science, December 2024, Elsevier

    Dr. Goetz Hensel

  20. Barley resistance and susceptibility to fungal cell entry involve the interplay of ROP signaling with phosphatidylinositol-monophosphates

    Article • November 2024, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  21. Over‐accumulation of chloroplast‐nucleus located WHIRLY1 in barley leads to a decrease in growth and an enhanced stress resistance

    Article • The Plant Journal, June 2024, Wiley

    Dr. Goetz Hensel

  22. RING/U-box E3 protein BIR1 interacts with and ubiquitinates barley growth repressor BROAD LEAF1

    Article • PLANT PHYSIOLOGY, June 2024, Oxford University Press (OUP)

    Dr. Goetz Hensel

  23. Non-cell-autonomous signaling associated with barley ALOG1 specifies spikelet meristem determinacy

    Article • Current Biology, June 2024, Elsevier

    Dr. Goetz Hensel

  24. CLAVATA signalling shapes barley inflorescence architecture by controlling activity and determinacy of shoot apical and rachilla meristems

    Article • May 2024, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  25. The major nucleoid-associated protein WHIRLY1 promotes chloroplast development in barley

    Article • May 2024, openRxiv

    Dr. Goetz Hensel

  26. The Arabidopsis Mitochondrial Nucleoid–Associated Protein WHIRLY2 Is Required for a Proper Response to Salt Stress

    Article • Plant and Cell Physiology, March 2024, Oxford University Press (OUP)

    Dr. Goetz Hensel

  27. Anatomical insights into the vascular layout of the barley rachis: implications for transport and spikelet connection

    Article • Annals of Botany, February 2024, Oxford University Press (OUP)

    Dr. Goetz Hensel

  28. HOMEOBOX2, the paralog of SIX-ROWED SPIKE1/HOMEOBOX1, is dispensable for barley spikelet development

    Article • Journal of Experimental Botany, February 2024, Oxford University Press (OUP)

    Dr. Goetz Hensel

  29. CRISPR enables sustainable cereal production for a greener future

    Article • Trends in Plant Science, February 2024, Elsevier

    Dr. Goetz Hensel

  30. Precise Gene Editing of Cereals Using CRISPR/Cas Technology

    Article • December 2023, Springer Science + Business Media

    Dr. Goetz Hensel

  31. CRISPR/Cas9-mediated genome editing techniques and new breeding strategies in cereals – current status, improvements, and perspectives

    Article • Biotechnology Advances, December 2023, Elsevier

    Dr. Goetz Hensel

  32. Anatomical insights into the vascular lay-out of the barley rachis: implications for transport and spikelet connection

    Article • November 2023, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  33. early maturity 7 promotes early flowering by controlling the light input into the circadian clock in barley

    Article • PLANT PHYSIOLOGY, November 2023, Oxford University Press (OUP)

    Dr. Goetz Hensel

  34. CRISPR/Cas-mediated plant genome editing: outstanding challenges a decade after implementation

    Article • Trends in Plant Science, October 2023, Elsevier

    Dr. Isabel Mafra, Dr. Goetz Hensel

  35. UDP-glucosyltransferase HvUGT13248 confers type II resistance to Fusarium graminearum in barley

    Article • PLANT PHYSIOLOGY, August 2023, Oxford University Press (OUP)

    Dr. Goetz Hensel

  36. PEP444c encoded within the MIR444c gene regulates microRNA444c accumulation in barley

    Article • Physiologia Plantarum, August 2023, Wiley

    Dr. Goetz Hensel

  37. Development of a methodology for in vitro tissue culture and callus generation of Polypogon australis Brong

    Article • August 2023, Avestia Publishing

    Dr. Goetz Hensel

  38. The role of biotechnological tools for mitigating abiotic stress in a changing climate – preface

    Article • Plant Cell Tissue and Organ Culture (PCTOC), July 2023, Springer Science + Business Media

    Dr. Goetz Hensel

  39. EARLY MATURITY 7modifies the circadian clock and photoperiod sensitivity in barley

    Article • June 2023, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  40. Barley stripe mosaic virus-mediated somatic and heritable gene editing in barley (Hordeum vulgare L.)

    Article • Frontiers in Plant Science, June 2023, Frontiers

    Dr. Goetz Hensel

  41. Multilayered regulation of developmentally programmed pre-anthesis tip degeneration of the barley inflorescence

    Article • The Plant Cell, June 2023, Oxford University Press (OUP)

    Dr. Goetz Hensel

  42. PEP444c encoded within theMIR444cgene regulates microRNA444c accumulation in barley

    Article • May 2023, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  43. A molecular framework for grain number determination in barley

    Article • Science Advances, March 2023, American Association for the Advancement of Science

    Dr. Goetz Hensel

  44. SWEET11b transports both sugar and cytokinin in developing barley grains

    Article • The Plant Cell, March 2023, Oxford University Press (OUP)

    Dr. Goetz Hensel

  45. The balance between growth and resistance is shifted to the latter by over-accumulation of chloroplast-nucleus located WHIRLY1 in barley

    Article • February 2023, openRxiv

    Dr. Goetz Hensel

  46. Editorial: Genome editing and biotechnological advances for crop improvement and future agriculture

    Article • Frontiers in Plant Science, January 2023, Frontiers

    Dr. Goetz Hensel

  47. Ribonucleoprotein (RNP)-Mediated Allele Replacement in Barley (Hordeum vulgare L.) Leaves

    Article • January 2023, Springer Science + Business Media

    Dr. Goetz Hensel

  48. Ribonucleoprotein (RNP)-Mediated Targeted Mutagenesis in Barley (Hordeum vulgare L.)

    Article • January 2023, Springer Science + Business Media

    Dr. Goetz Hensel

  49. Capturing Wheat Phenotypes at the Genome Level

    Article • Frontiers in Plant Science, July 2022, Frontiers

    Professor Turgay UNVER, Dr. Goetz Hensel

  50. The meiotic topoisomerase VI B subunit (MTOPVIB) is essential for meiotic DNA double-strand break formation in barley (Hordeum vulgare L.)

    Article • Plant Reproduction, June 2022, Springer Science + Business Media

    Dr. Goetz Hensel

  51. Genome editing and beyond: what does it mean for the future of plant breeding?

    Article • Planta, May 2022, Springer Science + Business Media

    Dr. Goetz Hensel

  52. Enhancing cereal productivity by genetic modification of root architecture

    Article • Biotechnology Journal, May 2022, Wiley

    Dr. Goetz Hensel

  53. The barley leaf rust resistance gene Rph3 encodes a predicted membrane protein and is induced upon infection by avirulent pathotypes of Puccinia hordei

    Article • Nature Communications, May 2022, Springer Science + Business Media

    Dr. Goetz Hensel

  54. WHIRLIES Are Multifunctional DNA-Binding Proteins With Impact on Plant Development and Stress Resistance

    Article • Frontiers in Plant Science, April 2022, Frontiers

    Dr. Goetz Hensel

  55. Posttranslational modification of the RHO of plants protein RACB by phosphorylation and cross-kingdom conserved ubiquitination

    Article • PLOS One, March 2022, PLOS

    Dr. Goetz Hensel

  56. Genome Editing

    Article • January 2022, Springer Science + Business Media

    Dr. Goetz Hensel

  57. Dosage of duplicated and antifunctionalized homeobox proteins influences spikelet development in barley

    Article • November 2021, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  58. Enhancing crop productivity by CRISPR-mediated genetic improvement of root architecture: a focus on phytohormones

    Article • October 2021, Authorea, Inc.

    Dr. Goetz Hensel

  59. Mutation of the ALBOSTRIANS Ohnologous Gene HvCMF3 Impairs Chloroplast Development and Thylakoid Architecture in Barley

    Article • Frontiers in Plant Science, October 2021, Frontiers

    Dr. Goetz Hensel

  60. The barley leaf rust resistance gene Rph3 encodes a putative executor protein

    Article • July 2021, Research Square

    Dr. Goetz Hensel

  61. OMICs, Epigenetics, and Genome Editing Techniques for Food and Nutritional Security

    Article • Plants, July 2021, MDPI AG

    Dr. Goetz Hensel

  62. The Arabidopsis AAC Proteins CIL and CIA2 Are Sub-functionalized Paralogs Involved in Chloroplast Development

    Article • Frontiers in Plant Science, June 2021, Frontiers

    Dr. Goetz Hensel

  63. Genome editing of barley

    Article • April 2021, Taylor & Francis

    Dr. Goetz Hensel

  64. Genome editing of barley

    Article • April 2021, Taylor & Francis

    Dr. Goetz Hensel

  65. Improving rice salt tolerance by precision breeding in a new era

    Article • Current Opinion in Plant Biology, April 2021, Elsevier

    Dr. Goetz Hensel, Professor Robert Henry

  66. Grain filling in barley relies on developmentally controlled programmed cell death

    Article • Communications Biology, March 2021, Springer Science + Business Media

    Dr. Goetz Hensel, Professor Yaroslav B. Blume

  67. The Arabidopsis AAC Proteins CIL and CIA2 Are Sub-functionalized Paralogs involved in Chloroplast Development

    Article • February 2021, openRxiv

    Dr. Goetz Hensel

  68. Plastid-Targeted Cyanobacterial Flavodiiron Proteins Maintain Carbohydrate Turnover and Enhance Drought Stress Tolerance in Barley

    Article • Frontiers in Plant Science, January 2021, Frontiers

    Dr. Goetz Hensel

  69. Integrating cyanobacterial flavodiiron proteins within the chloroplast photosynthetic electron transport chain maintains carbohydrate turnover and enhances drought stress tolerance in barley

    Article • October 2020, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  70. Prime Editing: Game Changer for Modifying Plant Genomes

    Article • Trends in Plant Science, August 2020, Elsevier

    Dr. Goetz Hensel

  71. Barley HISTIDINE KINASE 1 (HvHK1) coordinates transfer cell specification in the young endosperm

    Article • The Plant Journal, July 2020, Wiley

    Dr. Goetz Hensel

  72. Posttranslational modification of the RHO of plants protein RACB by phosphorylation and cross-kingdom conserved ubiquitination

    Article • May 2020, openRxiv

    Dr. Goetz Hensel

  73. Prime Editing: A New Way for Genome Editing

    Article • Trends in Cell Biology, April 2020, Elsevier

    Dr. Goetz Hensel

  74. Kmasker plants – a tool for assessing complex sequence space in plant species

    Article • The Plant Journal, January 2020, Wiley

    Dr. Goetz Hensel

  75. Genetic transformation of Triticeae cereals – Summary of almost three-decade's development

    Article • Biotechnology Advances, November 2019, Elsevier

    Dr. Goetz Hensel

  76. Orthologous receptor kinases quantitatively affect the host status of barley to leaf rust fungi

    Article • Nature Plants, November 2019, Springer Science + Business Media

    Dr. Goetz Hensel

  77. More precise, more universal and more specific – the next generation of RNA‐guided endonucleases for genome editing

    Article • European Journal of Biochemistry, October 2019, Wiley

    Dr. Goetz Hensel

  78. Mutation of the ALBOSTRIANS Ohnologous Gene HvCMF3 Impairs Chloroplast Development and Thylakoid Architecture in Barley due to Reduced Plastid Translation

    Article • September 2019, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  79. Barley cysteine protease PAP14 plays a role in degradation of chloroplast proteins

    Article • Journal of Experimental Botany, August 2019, Oxford University Press (OUP)

    Dr. Goetz Hensel

  80. Effect of Thiobacillus and Superabsorbent on Essential Oil Components in Thyme Species

    Article • Journal of Essential Oil Bearing Plants, May 2019, Taylor & Francis

    Dr. Goetz Hensel

  81. Leaf Variegation and Impaired Chloroplast Development Caused by a Truncated CCT Domain Gene in albostrians Barley

    Article • The Plant Cell, April 2019, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  82. Abscisic acid is a substrate of the ABC transporter encoded by the durable wheat disease resistance gene Lr34

    Article • New Phytologist, April 2019, Wiley

    Dr. Goetz Hensel

  83. Leaf Variegation and Impaired Chloroplast Development Caused by a Truncated CCT Domain gene in albostrians Barley

    Article • February 2019, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  84. Unleashing floret fertility in wheat through the mutation of a homeobox gene

    Article • Proceedings of the National Academy of Sciences, February 2019, Proceedings of the National Academy of Sciences

    Dr. Goetz Hensel

  85. Corrigendum: Modification of Barley Plant Productivity Through Regulation of Cytokinin Content by Reverse-Genetics Approaches

    Article • Frontiers in Plant Science, February 2019, Frontiers

    Dr. Goetz Hensel

  86. The nucleoid-associated protein WHIRLY1 is required for the coordinate assembly of plastid and nucleus-encoded proteins during chloroplast development

    Article • Planta, January 2019, Springer Science + Business Media

    Dr. Goetz Hensel

  87. Targeted genome modifcation in protoplasts of a highly regenerable Siberian barley cultivar using RNA-guided Cas9 endonuclease

    Article • Vavilov Journal of Genetics and Breeding, January 2019, Institute of Cytology and Genetics, SB RAS

    Dr. Goetz Hensel

  88. Convergent evolution of a metabolic switch between aphid and caterpillar resistance in cereals

    Article • Science Advances, December 2018, American Association for the Advancement of Science

    Dr. Goetz Hensel

  89. The CRISPR/Cas revolution continues: From efficient gene editing for crop breeding to plant synthetic biology

    Article • Journal of Integrative Plant Biology, December 2018, Wiley

    Dr. Goetz Hensel

  90. Modification of Barley Plant Productivity Through Regulation of Cytokinin Content by Reverse-Genetics Approaches

    Article • Frontiers in Plant Science, November 2018, Frontiers

    Dr. Goetz Hensel

  91. Genome Engineering Using TALENs

    Article • November 2018, Springer Science + Business Media

    Dr. Goetz Hensel

  92. Repression of drought-induced cysteine-protease genes alters barley leaf structure and responses to abiotic and biotic stresses

    Article • Journal of Experimental Botany, November 2018, Oxford University Press (OUP)

    Dr. Goetz Hensel

  93. Targeted Base Editing Systems Are Available for Plants

    Article • Trends in Plant Science, November 2018, Elsevier

    Dr. Goetz Hensel

  94. Unleashing floret fertility by a mutated homeobox gene improved grain yield during wheat evolution under domestication

    Article • October 2018, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  95. Effect of Thiobacillus and superabsorbent on essential oil components in Thyme species

    Article • September 2018, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  96. Evolutionarily conserved partial gene duplication in the Triticeae tribe of grasses confers pathogen resistance

    Article • August 2018, Springer Science + Business Media

    Dr. Goetz Hensel

  97. The plastid-nucleus located DNA/RNA binding protein WHIRLY1 regulates microRNA-levels during stress in barley (Hordeum vulgare L.)

    Article • RNA Biology, July 2018, Taylor & Francis

    Dr. Goetz Hensel, Wolfgang Bilger

  98. Silencing barley cystatins HvCPI-2 and HvCPI-4 specifically modifies leaf responses to drought stress

    Article • Plant Cell & Environment, March 2018, Wiley

    Dr. Goetz Hensel

  99. Overexpression of HvIcy6 in Barley Enhances Resistance against Tetranychus urticae and Entails Partial Transcriptomic Reprogramming

    Article • International Journal of Molecular Sciences, March 2018, MDPI AG

    Dr. Goetz Hensel

  100. Barley ADH-1 modulates susceptibility to Bgh and is involved in chitin-induced systemic resistance

    Article • Plant Physiology and Biochemistry, February 2018, Elsevier

    Dr. Goetz Hensel

  101. The plastid-nucleus located DNA/RNA binding protein WHIRLY1 regulates microRNA-levels during stress

    Article • October 2017, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  102. The partial duplication of an E3-ligase gene in Triticeae species mediates resistance to powdery mildew fungi

    Article • September 2017, Cold Spring Harbor Laboratory Press

    Dr. Goetz Hensel

  103. VPE, Programmed cell death

    Article • New Phytologist, August 2017, Wiley

    Van Tran, Dr. Goetz Hensel

  104. Pathogen-inducibleTa-Lr34resexpression in heterologous barley confers disease resistance without negative pleiotropic effects

    Article • Plant Biotechnology Journal, July 2017, Wiley

    Dr. Goetz Hensel

  105. Leaf primordium size specifies leaf width and vein number among row-type classes in barley

    Article • The Plant Journal, June 2017, Wiley

    Dr. Goetz Hensel

  106. Acceleration of leaf senescence is slowed down in transgenic barley plants deficient in the DNA/RNA-binding protein WHIRLY1

    Article • Journal of Experimental Botany, January 2017, Oxford University Press (OUP)

    Dr. Goetz Hensel

  107. RNA-Guided Cas9-Induced Mutagenesis in Tobacco Followed by Efficient Genetic Fixation in Doubled Haploid Plants

    Article • Frontiers in Plant Science, January 2017, Frontiers

    Dr. Goetz Hensel

  108. Agrobacterium-Mediated Transformation of Wheat Using Immature Embryos

    Article • January 2017, Springer Science + Business Media

    Dr. Goetz Hensel

  109. An LRR/Malectin Receptor-Like Kinase Mediates Resistance to Non-adapted and Adapted Powdery Mildew Fungi in Barley and Wheat

    Article • Frontiers in Plant Science, December 2016, Frontiers

    Dr. Goetz Hensel

  110. The barley (Hordeum vulgare) cellulose synthase-like D2 gene (HvCslD2) mediates penetration resistance to host-adapted and nonhost isolates of the powdery mildew fungus

    Article • New Phytologist, June 2016, Wiley

    Dr. Goetz Hensel

  111. HvPap-1 C1A protease actively participates in barley proteolysis mediated by abiotic stresses

    Article • Journal of Experimental Botany, May 2016, Oxford University Press (OUP)

    Dr. Goetz Hensel

  112. Polarized Defense Against Fungal Pathogens Is Mediated by the Jacalin-Related Lectin Domain of Modular Poaceae -Specific Proteins

    Article • Molecular Plant, April 2016, Elsevier

    Dr. Goetz Hensel

  113. The INDETERMINATE DOMAIN Protein BROAD LEAF1 Limits Barley Leaf Width by Restricting Lateral Proliferation

    Article • Current Biology, April 2016, Elsevier

    Dr. Goetz Hensel

  114. A simple test for the cleavage activity of customized endonucleases in plants

    Article • Plant Methods, March 2016, Springer Science + Business Media

    Dr. Goetz Hensel

  115. Increasing abscisic acid levels by immunomodulation in barley grains induces precocious maturation without changing grain composition

    Article • Journal of Experimental Botany, March 2016, Oxford University Press (OUP)

    Dr. Goetz Hensel

  116. Are PECTIN ESTERASE INHIBITOR Genes Involved in Mediating Resistance to Rhynchosporium commune in Barley?

    Article • PLOS One, March 2016, PLOS

    Dr. Goetz Hensel

  117. Mitogen-Activated Protein Kinase Kinase 3 Regulates Seed Dormancy in Barley

    Article • Current Biology, March 2016, Elsevier

    Dr. Goetz Hensel

  118. HvPap-1 C1A Protease and HvCPI-2 Cystatin Contribute to Barley Grain Filling and Germination

    Article • PLANT PHYSIOLOGY, February 2016, American Society of Plant Biologists (ASPB)

    Manuel Martinez, Dr. Goetz Hensel

  119. Stable gene replacement in barley by targeted double-strand break induction

    Article • Journal of Experimental Botany, December 2015, Oxford University Press (OUP)

    Dr. Goetz Hensel

  120. Süßkartoffel: Ein Beispiel für eine natürlich entstandene transgene Feldfrucht

    Article • Biologie in unserer Zeit, December 2015, Wiley

    Dr. Goetz Hensel

  121. Transgenic Production of an Anti HIV Antibody in the Barley Endosperm

    Article • PLOS One, October 2015, PLOS

    Dr. Goetz Hensel

  122. The wheat resistance geneLr34results in the constitutive induction of multiple defense pathways in transgenic barley

    Article • The Plant Journal, October 2015, Wiley

    Dr. Goetz Hensel

  123. Targeted Modification of Gene Function Exploiting Homology-Directed Repair of TALEN-Mediated Double-Strand Breaks in Barley

    Article • G3 Genes Genomes Genetics, July 2015, Genetics Society of America

    Dr. Goetz Hensel

  124. Evolution of the Grain Dispersal System in Barley

    Article • Cell, July 2015, Elsevier

    Dr. Goetz Hensel

  125. The fungal core effector Pep1 is conserved across smuts of dicots and monocots

    Article • New Phytologist, January 2015, Wiley

    Dr. Goetz Hensel, Gunther Doehlemann

  126. Cellular dynamics during early barley pollen embryogenesis revealed by time-lapse imaging

    Article • Frontiers in Plant Science, December 2014, Frontiers

    Dr. Goetz Hensel

  127. Barley (Hordeum vulgare L.) Transformation Using Immature Embryos

    Article • September 2014, Springer Science + Business Media

    Dr. Goetz Hensel

  128. Evolutionary Conserved Function of Barley and Arabidopsis 3-KETOACYL-CoA SYNTHASES in Providing Wax Signals for Germination of Powdery Mildew Fungi

    Article • PLANT PHYSIOLOGY, September 2014, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  129. WHIRLY1 is a major organizer of chloroplast nucleoids

    Article • Frontiers in Plant Science, September 2014, Frontiers

    Dr. Goetz Hensel

  130. Repair of Site-Specific DNA Double-Strand Breaks in Barley Occurs via Diverse Pathways Primarily Involving the Sister Chromatid

    Article • The Plant Cell, May 2014, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  131. True-Breeding Targeted Gene Knock-Out in Barley Using Designer TALE-Nuclease in Haploid Cells

    Article • PLOS One, March 2014, PLOS

    Dr. Goetz Hensel

  132. Abscisic Acid Flux Alterations Result in Differential Abscisic Acid Signaling Responses and Impact Assimilation Efficiency in Barley under Terminal Drought Stress

    Article • PLANT PHYSIOLOGY, March 2014, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  133. Domestikation im Zeitraffer: Wie die Gerste zu mehr Körnern kam

    Article • Biologie in unserer Zeit, February 2014, Wiley

    Dr. Goetz Hensel

  134. PROTEIN DISULFIDE ISOMERASE LIKE 5-1 is a susceptibility factor to plant viruses

    Article • Proceedings of the National Academy of Sciences, January 2014, Proceedings of the National Academy of Sciences

    Dr. Goetz Hensel

  135. A Distorted Circadian Clock Causes Early Flowering and Temperature-Dependent Variation in Spike Development in theEps-3AmMutant of Einkorn Wheat

    Article • Genetics, January 2014, Genetics Society of America

    Dr. Goetz Hensel

  136. Genetic Engineering

    Article • January 2014, Springer Science + Business Media

    Dr. Goetz Hensel

  137. Golden SusPtrit: a genetically well transformable barley line for studies on the resistance to rust fungi

    Article • Theoretical and Applied Genetics, November 2013, Springer Science + Business Media

    Dr. Goetz Hensel

  138. A Conserved Apomixis-Specific Polymorphism Is Correlated with Exclusive Exonuclease Expression in Premeiotic Ovules of Apomictic Boechera Species

    Article • PLANT PHYSIOLOGY, October 2013, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  139. The wheatLr34gene provides resistance against multiple fungal pathogens in barley

    Article • Plant Biotechnology Journal, May 2013, Wiley

    Dr. Goetz Hensel

  140. Divergence of expression pattern contributed to neofunctionalization of duplicated HD‐Zip I transcription factor in barley

    Article • New Phytologist, January 2013, Wiley

    Dr. Goetz Hensel

  141. The elimination of a selectable marker gene in the doubled haploid progeny of co-transformed barley plants

    Article • Plant Molecular Biology, November 2012, Springer Science + Business Media

    Dr. Goetz Hensel

  142. Time-lapse imaging of the initiation of pollen embryogenesis in barley (Hordeum vulgare L.)

    Article • Journal of Experimental Botany, September 2012, Oxford University Press (OUP)

    Dr. Goetz Hensel

  143. Structural Changes During The Initiation Of Pollen Embryogenesis In Barley: Ultrastructure Analysis And Live Cell Imaging

    Article • Microscopy and Microanalysis, July 2012, Cambridge University Press

    Dr. Goetz Hensel

  144. Analysis of T-DNA integration and generative segregation in transgenic winter triticale (x Triticosecale Wittmack)

    Article • BMC Plant Biology, January 2012, Springer Science + Business Media

    Dr. Goetz Hensel

  145. Telomere-mediated truncation of barley chromosomes

    Article • Chromosoma, November 2011, Springer Science + Business Media

    Dr. Goetz Hensel

  146. Genetic Transformation of Triticeae Cereals for Molecular Farming

    Article • September 2011, IntechOpen

    Dr. Goetz Hensel

  147. Induction of telomere-mediated chromosomal truncation and stability of truncated chromosomes inArabidopsis thaliana

    Article • The Plant Journal, July 2011, Wiley

    Dr. Goetz Hensel

  148. A Barley ROP GTPase ACTIVATING PROTEIN Associates with Microtubules and Regulates Entry of the Barley Powdery Mildew Fungus into Leaf Epidermal Cells

    Article • The Plant Cell, June 2011, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  149. Transgene expression systems in the Triticeae cereals

    Article • Journal of Plant Physiology, January 2011, Elsevier

    Dr. Goetz Hensel

  150. BAXINHIBITOR-1Is Required for Full Susceptibility of Barley to Powdery Mildew

    Article • Molecular Plant-Microbe Interactions, September 2010, Scientific Societies

    Dr. Goetz Hensel

  151. HIGS: Host-Induced Gene Silencing in the Obligate Biotrophic Fungal PathogenBlumeria graminis

    Article • The Plant Cell, September 2010, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  152. RBOHF2 of Barley Is Required for Normal Development of Penetration Resistance to the Parasitic FungusBlumeria graminisf. sp.hordei

    Article • Molecular Plant-Microbe Interactions, September 2010, Scientific Societies

    Dr. Goetz Hensel

  153. Whirly1 in chloroplasts associates with intron containing RNAs and rarely co-localizes with nucleoids

    Article • Planta, May 2010, Springer Science + Business Media

    Dr. Goetz Hensel

  154. Promoters of the Barley Germin-Like GER4 Gene Cluster Enable Strong Transgene Expression in Response to Pathogen Attack

    Article • The Plant Cell, March 2010, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  155. Triticeae Cereals

    Article • November 2009, Springer Science + Business Media

    Dr. Goetz Hensel

  156. Agrobacterium-Mediated Gene Transfer to Cereal Crop Plants: Current Protocols for Barley, Wheat, Triticale, and Maize

    Article • International Journal of Plant Genomics, January 2009, Hindawi Publishing Corporation

    Dr. Goetz Hensel

  157. Genetic transformation technology in the Triticeae

    Article • Breeding Science, January 2009, Japanese Society of Breeding

    Dr. Goetz Hensel

  158. Constitutively activated barley ROPs modulate epidermal cell size, defense reactions and interactions with fungal leaf pathogens

    Article • Plant Cell Reports, September 2008, Springer Science + Business Media

    Dr. Goetz Hensel

  159. Efficient generation of transgenic barley: The way forward to modulate plant–microbe interactions

    Article • Journal of Plant Physiology, January 2008, Elsevier

    Dr. Goetz Hensel

  160. A Set of Modular Binary Vectors for Transformation of Cereals

    Article • PLANT PHYSIOLOGY, December 2007, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  161. Genetic transformation of barley (Hordeum vulgare L.) via infection of androgenetic pollen cultures with Agrobacterium tumefaciens

    Article • Plant Biotechnology Journal, March 2006, Wiley

    Dr. Goetz Hensel

  162. Immature pollen-derived doubled haploid formation in barley cv. Golden Promise as a tool for transgene recombination

    Article • Acta Physiologiae Plantarum, December 2005, Springer Science + Business Media

    Dr. Goetz Hensel

  163. Ectopic Expression of Constitutively Activated RACB in Barley Enhances Susceptibility to Powdery Mildew and Abiotic Stress

    Article • PLANT PHYSIOLOGY, September 2005, American Society of Plant Biologists (ASPB)

    Dr. Goetz Hensel

  164. The influence of 2,4-dichlorophenoxyacetic acid on localisation of the PR-proteins CBP20 and class I chitinase in tobacco suspension cell cultures

    Article • Plant Science, December 2002, Elsevier

    Dr. Goetz Hensel

  165. Expression of the tobacco gene CBP20 in response to developmental stage, wounding, salicylic acid and heavy metals

    Article • Plant Science, October 1999, Elsevier

    Dr. Goetz Hensel

  166. The green fluorescent protein targets secretory proteins to the yeast vacuole

    Article • Biochimica et Biophysica Acta (BBA) - Bioenergetics, March 1999, Elsevier

    Dr. Goetz Hensel

  167. Cloning of the wound-inducible protein CBP20 and expression in suspension cultures of tobacco

    Article • Plant Science, October 1997, Elsevier

    Dr. Goetz Hensel