All Stories

  1. Investigation of the Roles of Phosphatidylinositol 4-Phosphate 5-Kinases 7,9 and Wall-Associated Kinases 1–3 in Responses to Indole-3-Carbinol and Biotic Stress in Arabidopsis Thaliana

    Article • Biomolecules, October 2024, MDPI AG

    Daniel Chamovitz

  2. Overexpression of S30 Ribosomal Protein Leads to Transcriptional and Metabolic Changes That Affect Plant Development and Responses to Stress

    Article • Biomolecules, March 2024, MDPI AG

    Daniel Chamovitz

  3. Tryptophol acetate and tyrosol acetate, small molecule metabolites identified in a probiotic mixture, inhibit hyperinflammation

    Article • Journal of Innate Immunity, February 2023, Karger Publishers

    raz jelinek, Daniel Chamovitz

  4. Ulvan crude extract’s chemical and biophysical profile and its effect as a biostimulant on Arabidopsis thaliana

    Article • Algal Research, March 2022, Elsevier

    Daniel Chamovitz

  5. CSN5A Subunit of COP9 Signalosome Is Required for Resetting Transcriptional Stress Memory after Recurrent Heat Stress in Arabidopsis

    Article • Biomolecules, April 2021, MDPI AG

    Daniel Chamovitz

  6. Overexpression of the ribosomal S30 subunit leads to indole‐3‐carbinol tolerance in Arabidopsis thaliana

    Article • The Plant Journal, December 2020, Wiley

    Daniel Chamovitz

  7. CSN5A Subunit of COP9 Signalosome Temporally Buffers Response to Heat in Arabidopsis

    Article • Biomolecules, November 2019, MDPI AG

    Daniel Chamovitz

  8. Flowers respond to pollinator sound within minutes by increasing nectar sugar concentration

    Article • Ecology Letters, July 2019, Wiley

    Daniel Chamovitz

  9. Role of Cop9 Signalosome Subunits in the Environmental and Hormonal Balance of Plant

    Article • Biomolecules, June 2019, MDPI AG

    Daniel Chamovitz

  10. Flowers respond to pollinator sound within minutes by increasing nectar sugar concentration

    Article • December 2018, Cold Spring Harbor Laboratory Press

    Daniel Chamovitz

  11. The COP9 signalosome influences the epigenetic landscape of Arabidopsis thaliana

    Article • Bioinformatics, December 2018, Oxford University Press (OUP)

    Daniel Chamovitz

  12. Plants are intelligent; now what?

    Article • Nature Plants, September 2018, Springer Science + Business Media

    Daniel Chamovitz

  13. Indole-3-carbinol: a plant hormone combatting cancer

    Article • F1000Research, June 2018, Faculty of 1000, Ltd.

    Daniel Chamovitz

  14. Wounding of Arabidopsis leaves induces indole-3-carbinol-dependent autophagy in roots ofArabidopsis thaliana

    Article • The Plant Journal, July 2017, Wiley

    Daniel Chamovitz

  15. Wild emmer genome architecture and diversity elucidate wheat evolution and domestication

    Article • Science, July 2017, American Association for the Advancement of Science

    Daniel Chamovitz

  16. Multidimensional patterns of metabolic response in abiotic stress-induced growth of Arabidopsis thaliana

    Article • Plant Molecular Biology, September 2016, Springer Science + Business Media

    Daniel Chamovitz

  17. The effect of indole-3-carbinol on PIN1 and PIN2 in Arabidopsis roots

    Article • Plant Signaling & Behavior, August 2015, Taylor & Francis

    Daniel Chamovitz

  18. The glucosinolate breakdown product indole-3-carbinol acts as an auxin antagonist in roots ofArabidopsis thaliana

    Article • The Plant Journal, April 2015, Wiley

    Daniel Chamovitz

  19. The COP9 signalosome is vital for timely repair of DNA double-strand breaks

    Article • Nucleic Acids Research, April 2015, Oxford University Press (OUP)

    Daniel Chamovitz

  20. Protein competition switches the function of COP9 from self-renewal to differentiation

    Article • Nature, October 2014, Springer Science + Business Media

    Daniel Chamovitz

  21. Drosophila COP9 signalosome subunit 7 interacts with multiple genomic loci to regulate development

    Article • Nucleic Acids Research, August 2014, Oxford University Press (OUP)

    Daniel Chamovitz

  22. Faculty of 1000 evaluation for Arabidopsis thaliana as a model species for xylem hydraulics: does size matter?

    Article • April 2013, Faculty of 1000, Ltd.

    Daniel Chamovitz

  23. Was Pflanzen wissen

    Article • February 2013, Carl Hanser Verlag

    Daniel Chamovitz

  24. The Organization of a CSN5-containing Subcomplex of the COP9 Signalosome

    Article • Journal of Biological Chemistry, October 2012, American Society for Biochemistry & Molecular Biology (ASBMB)

    Daniel Chamovitz

  25. Rooted in Sensation: Hearing

    Article • The New Scientist, August 2012, Elsevier

    Daniel Chamovitz

  26. Rooted in Sensation: Sight

    Article • The New Scientist, August 2012, Elsevier

    Daniel Chamovitz

  27. Rooted in Sensation: Smell

    Article • The New Scientist, August 2012, Elsevier

    Daniel Chamovitz

  28. Rooted in Sensation: Taste

    Article • The New Scientist, August 2012, Elsevier

    Daniel Chamovitz

  29. Rooted in Sensation: Touch

    Article • The New Scientist, August 2012, Elsevier

    Daniel Chamovitz

  30. Faculty of 1000 evaluation for Towards understanding plant bioacoustics.

    Article • May 2012, Faculty of 1000, Ltd.

    Daniel Chamovitz

  31. What a Plant Smells

    Article • Scientific American A Matter of Time, April 2012, Springer Science + Business Media

    Daniel Chamovitz

  32. COP9 signalosome subunit 7 from Arabidopsis interacts with and regulates the small subunit of ribonucleotide reductase (RNR2)

    Article • Plant Molecular Biology, May 2011, Springer Science + Business Media

    Daniel Chamovitz

  33. Faculty of 1000 evaluation for Blackawton bees.

    Article • January 2011, Faculty of 1000, Ltd.

    Daniel Chamovitz

  34. Lab Family Feud

    Article • Science, November 2010, American Association for the Advancement of Science

    Daniel Chamovitz

  35. Faculty of 1000 evaluation for Genome-wide mapping of alternative splicing in Arabidopsis thaliana.

    Article • July 2010, Faculty of 1000, Ltd.

    Daniel Chamovitz

  36. Revisiting the COP9 signalosome as a transcriptional regulator

    Article • EMBO Reports, March 2009, Wiley

    Daniel Chamovitz

  37. The COP9 Signalosome Is Required for Light-Dependent Timeless Degradation and Drosophila Clock Resetting

    Article • Journal of Neuroscience, January 2009, Society for Neuroscience

    Daniel Chamovitz

  38. Large-scale analysis of Arabidopsis transcription reveals a basal co-regulation network

    Article • BMC Systems Biology, January 2009, Springer Science + Business Media

    Daniel Chamovitz

  39. The Arabidopsis COP9 Signalosome Subunit 7 Is a Model PCI Domain Protein with Subdomains Involved in COP9 Signalosome Assembly

    Article • The Plant Cell, October 2008, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz

  40. A mutation in the tomatoDDB1gene affects cell and chloroplast compartment size and CDT1 transcript

    Article • Plant Signaling & Behavior, September 2008, Taylor & Francis

    Daniel Chamovitz

  41. Arabidopsis eIF3e interacts with subunits of the ribosome, Cop9 signalosome and proteasome

    Article • Plant Signaling & Behavior, June 2008, Taylor & Francis

    Daniel Chamovitz

  42. The Proto-Oncogene Int6 Is Essential for Neddylation of Cul1 and Cul3 in Drosophila

    Article • PLOS One, May 2008, PLOS

    Daniel Chamovitz

  43. Cop9 signalosome subunit 8 (CSN8) is essential for Drosophila development

    Article • Genes to Cells, March 2008, Wiley

    Daniel Chamovitz

  44. Arabidopsis eIF3e is regulated by the COP9 signalosome and has an impact on development and protein translation

    Article • The Plant Journal, October 2007, Wiley

    Daniel Chamovitz

  45. Genomic analysis of COP9 signalosome function in Drosophila melanogaster reveals a role in temporal regulation of gene expression

    Article • Molecular Systems Biology, May 2007, EMBO

    Daniel Chamovitz

  46. COP9 signalosome subunit 5 (CSN5/Jab1) regulates the development of the Drosophila immune system: effects on Cactus, Dorsal and hematopoiesis

    Article • Genes to Cells, February 2007, Wiley

    Daniel Chamovitz

  47. Expression, purification and crystallization of a PCI domain from the COP9 signalosome subunit 7 (CSN7)

    Article • Acta Crystallographica Section F Structural Biology and Crystallization Communications, October 2006, International Union of Crystallography

    Daniel Chamovitz

  48. Growth suppression induced by the TRC8 hereditary kidney cancer gene is dependent upon JAB1/CSN5

    Article • Oncogene, February 2005, Springer Science + Business Media

    Daniel Chamovitz

  49. Translational Regulation via 5′ mRNA Leader Sequences Revealed by Mutational Analysis of the Arabidopsis Translation Initiation Factor Subunit eIF3h

    Article • The Plant Cell, November 2004, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz

  50. The COP9 Signalosome: Mediating Between Kinase Signaling and Protein Degradation

    Article • Current Protein and Peptide Science, June 2004, Bentham Science Publishers

    Daniel Chamovitz

  51. A Systems Approach to the COP9 Signalosome

    Article • PLANT PHYSIOLOGY, June 2003, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz

  52. Protein Homeostasis: A Degrading Role for Int6/eIF3e

    Article • Current Biology, April 2003, Elsevier

    Daniel Chamovitz

  53. The COP9 signalosome

    Article • Current Biology, April 2002, Elsevier

    Daniel Chamovitz

  54. Identification of a Light-regulated Protein Kinase Activity from Seedlings of Arabidopsis thaliana¶

    Article • Photochemistry and Photobiology, January 2002, Wiley

    Daniel Chamovitz, Dr. Przemyslaw Malec

  55. Drosophila JAB1/CSN5 Acts in Photoreceptor Cells to Induce Glial Cells

    Article • Neuron, January 2002, Elsevier

    Daniel Chamovitz

  56. Dissection of the Light Signal Transduction Pathways Regulating the Two Early Light-Induced Protein Genes in Arabidopsis

    Article • PLANT PHYSIOLOGY, November 2001, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz

  57. PCI complexes: pretty complex interactions in diverse signaling pathways

    Article • Trends in Plant Science, August 2001, Elsevier

    Daniel Chamovitz

  58. JAB1/CSN5 and the COP9 signalosome

    Article • EMBO Reports, February 2001, Wiley

    Daniel Chamovitz

  59. ArabidopsiseIF3e (INT-6) Associates with Both eIF3c and the COP9 Signalosome Subunit CSN7

    Article • Journal of Biological Chemistry, October 2000, American Society for Biochemistry & Molecular Biology (ASBMB)

    Daniel Chamovitz

  60. The COP9 signalosome: from light signaling to general developmental regulation and back

    Article • Current Opinion in Plant Biology, October 2000, Elsevier

    Daniel Chamovitz

  61. Unified nomenclature for the COP9 signalosome and its subunits: an essential regulator of development

    Article • Trends in Genetics, May 2000, Elsevier

    Daniel Chamovitz

  62. The COP9 signalosome is essential for development of Drosophila melanogaster

    Article • Current Biology, October 1999, Elsevier

    Daniel Chamovitz

  63. Arabidopsis FUSCA5 Encodes a Novel Phosphoprotein That Is a Component of the COP9 Complex

    Article • The Plant Cell, May 1999, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz, Dr. Przemyslaw Malec

  64. The Arabidopsis homologue of an eIF3 complex subunit associates with the COP9 complex 1

    Article • FEBS Letters, November 1998, Wiley

    Daniel Chamovitz

  65. Arabidopsis Homologs of a c-Jun Coactivator Are Present Both in Monomeric Form and in the COP9 Complex, and Their Abundance Is Differentially Affected by the Pleiotropic cop/det/fus Mutations

    Article • The Plant Cell, November 1998, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz, Dr Joseph R Ecker

  66. Molecular Approaches to Biochemical Purification: The COP9 Complex Paradigm

    Article • January 1998, Springer Science + Business Media

    Daniel Chamovitz

  67. The COP9 Complex, a Novel Multisubunit Nuclear Regulator Involved in Light Control of a Plant Developmental Switch

    Article • Cell, July 1996, Elsevier

    Daniel Chamovitz

  68. The novel components of the arabidopsis light signaling pathway may define a group of general developmental regulators shared by both animal and plant kingdoms

    Article • Cell, August 1995, Elsevier

    Daniel Chamovitz

  69. Molecular structure and enzymatic function of lycopene cyclase from the cyanobacterium Synechococcus sp strain PCC7942.

    Article • The Plant Cell, August 1994, American Society of Plant Biologists (ASPB)

    Daniel Chamovitz

  70. Arabidopsis COP9 is a component of a novel signaling complex mediating light control of development

    Article • Cell, July 1994, Elsevier

    Daniel Chamovitz

  71. Carotenoids in Cyanobacteria

    Article • January 1994, Springer Science + Business Media

    Daniel Chamovitz

  72. Cloning and functional expression in Escherichia coli of a cyanobacterial gene for lycopene cyclase, the enzyme that catalyzes the biosynthesis of β-carotene

    Article • FEBS Letters, August 1993, Wiley

    Daniel Chamovitz

  73. A single polypeptide catalyzing the conversion of phytoene to zeta-carotene is transcriptionally regulated during tomato fruit ripening.

    Article • Proceedings of the National Academy of Sciences, June 1992, Proceedings of the National Academy of Sciences

    Daniel Chamovitz

  74. Molecular cloning and expression in Escherichia coli of a cyanobacterial gene coding for phytoene synthase, a carotenoid biosynthesis enzyme

    Article • FEBS Letters, January 1992, Wiley

    Daniel Chamovitz

  75. Molecular cloning and expression in photosynthetic bacteria of a soybean cDNA coding for phytoene desaturase, an enzyme of the carotenoid biosynthesis pathway.

    Article • Proceedings of the National Academy of Sciences, August 1991, Proceedings of the National Academy of Sciences

    Daniel Chamovitz

  76. The molecular basis of resistance to the herbicide norflurazon

    Article • Plant Molecular Biology, June 1991, Springer Science + Business Media

    Daniel Chamovitz

  77. Carotenoids in Cyanobacteria

    Article • Springer Science + Business Media

    Daniel Chamovitz