Your search keyword '"Ziva Amsellem"' showing total 33 results

1. Inhibition of gibberellin accumulation by water deficiency promotes fast and long‐term ‘drought avoidance’ responses in tomato

Author

Yuval Eshed, Asaph Aharoni, Hagai Shohat, David Weiss, Danuše Tarkowská, Hadar Cheriker, Ziva Amsellem, Shula Blum, Himabindu Vasuki, and Natanella Illouz-Eliaz

Subjects

Canopy, Physiology, Mutant, Plant Science, chemistry.chemical_compound, Solanum lycopersicum, Guard cell, medicine, Leaf size, Dehydration, Abscisic acid, Transpiration, biology, Chemistry, fungi, Water, food and beverages, Metabolism, biology.organism_classification, medicine.disease, Gibberellins, Droughts, Horticulture, Plant Stomata, Gibberellin, Solanum, Abscisic Acid

Abstract

Plants reduce transpiration to avoid dehydration during drought episodes by stomatal closure and inhibition of canopy growth. While abscisic acid (ABA) has a primary role in ‘drought avoidance’, previous studies suggest that gibberellin (GA), might also be involved. Here we show in tomato (Solanum lycopersicum) that shortage of water inhibited the expression of the GA biosynthesis genes GA20 oxidase1 (GA20ox1) and GA20ox2 and induced the GA-deactivating gene GA2ox7 in leaves and guard cells, resulting in reduced bioactive GA levels. Drought regulation of GA metabolism was mediated by ABA-dependent and independent pathways, and by the transcription factor DEHYDRATION RESPONSIVE ELEMENT BINDING (DREB), TINY1. Mutations in GA20ox1 and GA20ox2 reduced water loss due to the smaller canopy area. On the other hand, loss of GA2ox7 did not affect leaf size, but attenuated stomatal response to water deficiency; during soil dehydration, ga2ox7 plants closed their stomata and reduced transpiration later than WT, suggesting that ga2ox7 stomata are hyposensitive to soil dehydration. Together, the results suggest that drought-induced GA deactivation in guard cells contributes to stomatal closure at the early stages of soil dehydration, whereas inhibition of GA synthesis in leaves promotes mainly the long-term reduction in canopy growth to reduce transpiration area.

Published

2021

2. Solanum lycopersicum CLASS-II KNOX genes regulate fruit anatomy via gibberellin-dependent and independent pathways

Author

Amit Shtern, Alexandra Keren-Keiserman, Jean-Philippe Mauxion, Chihiro Furumizu, John Paul Alvarez, Ziva Amsellem, Naama Gil, Etel Motenko, Sharon Alkalai-Tuvia, Elazar Fallik, Nathalie Gonzalez, and Alexander Goldshmidt

Subjects

Physiology, Plant Science

Abstract

The pericarp is the predominant tissue determining the structural characteristics of most fruits. However, the molecular and genetic mechanisms controlling pericarp development remain only partially understood. Previous studies have identified that CLASS-II KNOX genes regulate fruit size, shape, and maturation in Arabidopsis thaliana and Solanum lycopersicum. Here we characterized the roles of the S. lycopersicum CLASS-II KNOX (TKN-II) genes in pericarp development via a detailed histological, anatomical, and karyotypical analysis of TKN-II gene clade mRNA-knockdown (35S:amiR-TKN-II) fruits. We identify that 35S:amiR-TKN-II pericarps contain more cells around their equatorial perimeter and fewer cell layers than the control. In addition, the cell sizes but not the ploidy levels of these pericarps were dramatically reduced. Further, we demonstrate that fruit shape and pericarp layer number phenotypes of the 35S:amiR-TKN-II fruits can be overridden by the procera mutant, known to induce a constitutive response to the plant hormone gibberellin. However, neither the procera mutation nor exogenous gibberellin application can fully rescue the reduced pericarp width and cell size phenotype of 35S:amiR-TKN-II pericarps. Our findings establish that TKN-II genes regulate tomato fruit anatomy, acting via gibberellin to control fruit shape but utilizing a gibberellin-independent pathway to control the size of pericarp cells.

Published

2022

3. Solanum lycopersicum CLASS-II KNOXgenes regulate fruit anatomy via gibberellin-dependent and independent pathways

Author

Amit Shtern, Alexandra Keren-Keiserman, Jean-Philippe Mauxion, Chihiro Furumizu, John Paul Alvarez, Ziva Amsellem, Naama Gil, Etel Motenko, Sharon Alkalai-Tuvia, Elazar Fallik, Nathalie Gonzalez, and Alexander Goldshmidt

Abstract

The pericarp is the predominant tissue determining the structural characteristics of most fruits. However, the molecular and genetic mechanisms controlling pericarp development remain only partially understood. Previous studies have identified that CLASS-II KNOX genes regulate fruit size, shape, and maturation inArabidopsis thalianaandSolanum lycopersicum. Here we characterized the roles of theSolanum lycopersicumCLASS-II KNOX (TKN-II) genes in pericarp development via a detailed histological, anatomical, and karyotype analysis of theTKN-IIknockdown (35S:amiR-TKN-II) fruits. We identify that35S:amiR-TKN-IIpericarps contain more cells around their equatorial perimeter and fewer cell layers than the control. In addition, the cell sizes but not the ploidy levels of these pericarps were dramatically reduced.Further, we demonstrate that fruit shape and pericarp layer number phenotypes of the35S:amiR-TKN-IIfruits can be overridden by theproceramutant, known to induce a constitutive response to the plant hormone gibberellin. However, neither theproceramutation nor exogenous gibberellin application can fully rescue the reduced pericarp width and cell size phenotype of35S:amiR-TKN-IIpericarps. Our findings establish that TKN-II genes regulate tomato fruit anatomy, acting via gibberellin to control fruit shape but utilizing a gibberellin-independent pathway to control the size of pericarp cells.HighlightTomatoCLASS-II KNOXgenes regulate fruit and pericarp anatomy via GA-dependent and independent pathways.

Published

2022

4. CLASS-II KNOX genes coordinate spatial and temporal patterns of the tomato ripening

Author

John P. Alvarez, Idan Efroni, Amit Shtern, Chihiro Furumizu, Ziva Amsellem, Daniel Chalupowicz, Sharon Tuvia-Alkalai, Tzahi Arazi, Elazar Fallik, Alexandra Keren-Keiserman, and Alexander Goldshmidt

Subjects

Senescence, Gene knockdown, chemistry.chemical_compound, Ethylene, chemistry, Arabidopsis, Ripening, Silique, Biology, biology.organism_classification, Gene, Phenotype, Cell biology

Abstract

Ripening is a complex developmental change of a mature organ, the fruit. In plants like a tomato, it involves softening, pigmentation, and biosynthesis of metabolites beneficial for the human diet. Examination of the transcriptional changes towards ripening suggests that redundant uncharacterized factors may be involved in the coordination of the ripening switch. Previous studies have demonstrated that Arabidopsis CLASS-II KNOX genes play a significant role in controlling the maturation of siliques and their transition to senescence. Here we examined the combined role of all four tomato CLASS-II KNOX genes in the maturation and ripening of fleshy fruits using an artificial microRNA targeting them simultaneously. As expected, the knockdown plants (35S::amiR-TKN-CL-II) exhibited leaves with increased complexity, reminiscent of the leaf phenotype of plants overexpressing CLASS-I KNOX, which antagonize CLASS-II KNOX gene functions. The fruits of 35S::amiR-TKN-CL-II plants were notably smaller than the control. While their internal gel/placenta tissue softened and accumulated the typical pigmentation, the pericarp color break took place ten days later than control, and eventually, it turned yellow instead of red.Additionally, the pericarp of 35S::amiR-TKN-CL-II fruits remained significantly firmer than control even after three weeks of shelf storage. Strikingly, the 35S::amiR-TKN-CL-II fruits showed early ethylene release and respiration peak, but these were correlated only with liquefaction and pigmentation of the internal tissues. Our findings suggest that CLASS-II KNOX genes are required to coordinate the spatial and temporal patterns of tomato fruit ripening.One sentence summaryTomato CLASS-II KNOX genes play antagonistic roles in the regulation of ripening at the internal fruit domains and pericarp.

Published

2021

5. Major impacts of widespread structural variation on gene expression and crop improvement in tomato

Author

Melissa Kramer, Michael C. Schatz, Joyce Van Eck, Jesse Gillis, Harry J. Klee, Lei Zhang, Fritz J. Sedlazeck, Zachary B. Lippman, Ziva Amsellem, Sebastian Soyk, Matthias Benoit, Hamid Razifard, Hamsini Suresh, W. Richard McCombie, Esther van der Knaap, Tom Hai Harel, Yuval Levy, Gili Shalev-Schlosser, Xingang Wang, Sergey Aganezov, Gina Robitaille, Samuel F. Hutton, Lara Pereira, Florian Maumus, Melanie Kirsche, Danielle Ciren, Jennifer Kim, Srividya Ramakrishnan, Zachary H. Lemmon, Michael Alonge, Denise M. Tieman, Yuval Eshed, Ana L. Caicedo, Sara Goodwin, T. Rhyker Ranallo-Benavidez, Johns Hopkins University (JHU), Génétique, Reproduction et Développement (GReD ), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020]), Cold Spring Harbor, Cold Spring Harbor Laboratory, Centre for Research in Agricultural Genomics (CRAG), Chinese Academy of Sciences [Beijing] (CAS), Unité de Recherche Génomique Info (URGI), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Department of Plant Sciences, Weizmann Institute of Science [Rehovot, Israël], University of Massachusetts System (UMASS), Princeton University, Boyce Thompson Institute [Ithaca], Cold Spring Harbor Laboratory (CSHL), Dept Plant Sci, Ohio State University [Columbus] (OSU), Simons Center for Quantitative Biology [Cold Spring Harbor], and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Clermont Auvergne [2017-2020] (UCA [2017-2020])-Centre National de la Recherche Scientifique (CNRS)

Subjects

Crops, Agricultural, Genotype, [SDV]Life Sciences [q-bio], Quantitative Trait Loci, Quantitative trait locus, Biology, Genome, Gene dosage, General Biochemistry, Genetics and Molecular Biology, Article, Structural variation, 03 medical and health sciences, 0302 clinical medicine, Cytochrome P-450 Enzyme System, Solanum lycopersicum, Gene Expression Regulation, Plant, Gene Duplication, Inbreeding, Copy-number variation, Alleles, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, Ecotype, 2. Zero hunger, 0303 health sciences, [SDV.GEN]Life Sciences [q-bio]/Genetics, food and beverages, Epistasis, Genetic, Molecular Sequence Annotation, Quantitative genetics, Plant Breeding, Phenotype, Evolutionary biology, Fruit, Genomic Structural Variation, Trait, Epistasis, Genome, Plant, 030217 neurology & neurosurgery

Abstract

Structural variants (SVs) underlie important crop improvement and domestication traits. However, resolving the extent, diversity, and quantitative impact of SVs has been challenging. We used long-read nanopore sequencing to capture 238,490 SVs in 100 diverse tomato lines. This panSV genome, along with 14 new reference assemblies, revealed large-scale intermixing of diverse genotypes, as well as thousands of SVs intersecting genes and cis-regulatory regions. Hundreds of SV-gene pairs exhibit subtle and significant expression changes, which could broadly influence quantitative trait variation. By combining quantitative genetics with genome editing, we show how multiple SVs that changed gene dosage and expression levels modified fruit flavor, size, and production. In the last example, higher order epistasis among four SVs affecting three related transcription factors allowed introduction of an important harvesting trait in modern tomato. Our findings highlight the underexplored role of SVs in genotype-to-phenotype relationships and their widespread importance and utility in crop improvement.

Published

2020

6. A Cytokinin-Activating Enzyme Promotes Tuber Formation in Tomato

Author

Akiva Shalit-Kaneh, Yuval Eshed, Tamar Eviatar-Ribak, Eliezer Lifschitz, Louise Chappell-Maor, and Ziva Amsellem

Subjects

Cytokinins, Apical dominance, Meristem, Enzyme Activators, Organogenesis, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Solanum lycopersicum, Gene Expression Regulation, Plant, Auxin, Axillary bud, Botany, chemistry.chemical_classification, Agricultural and Biological Sciences(all), Base Sequence, biology, Biochemistry, Genetics and Molecular Biology(all), fungi, food and beverages, biology.organism_classification, MicroRNAs, Plant Tubers, chemistry, Cytokinin, Polar auxin transport, Solanum, General Agricultural and Biological Sciences, Signal Transduction

Abstract

Summary Background Dedicated storage organs in the form of tubers are evolutionary novelties that share a common function but originate in diverse species from different organs. Tubers in potato, Solanum tuberosum , are derived from the swollen tips of specialized basal lateral juvenile shoots, called stolons. Lateral buds of tomato, Solanum lycopersicum , a potato sibling species, only form regular shoots. The evo-devo mechanisms restricting tuber formation to basal juvenile axillary meristems of potato while completely inhibiting it in tomato meristems are not currently understood. Results Ectopic expression of tomato LONELY GUY ( LOG1 ), a cytokinin (CK) biosynthesis gene, imparts potential to the outgrowing juvenile tomato buds to generate, de novo, aerial minitubers (TMTs). TMTs are morphologically, developmentally, and metabolically homologous to aerial potato tubers and display a unique transcriptome with altered hormonal signaling networks. The new hormonal balance stimulates ectopic branching of dormant axillary meristems and loss of apical dominance without disruption of polar auxin transport and obviates the need for specific branching genes. miR156 , a master regulator of juvenility, extends tuber-forming potential to distal axillary buds in both wild-type potato and tomato primed by LOG1 signaling. Conclusions Ubiquitous activation of TLOG1 uncovered a developmentally suppressed tuber-forming potential within tomato axillary meristems. Other meristems in other plants may also carry hidden, suppressed organogenesis potentials. The unlocking of this potential by the activity of a single gene represents a prime example of an evolutionary novelty in the making and suggests that CKs may function as universal regulators of storage-organ formation in plants.

Published

2013

7. Regulation of LANCEOLATE by miR319 is required for compound-leaf development in tomato

Author

Ziva Amsellem, Sharona Shleizer, Arnon Brand, Aya Refael Cohen, John Paul Alvarez, Idan Efroni, Naomi Ori, Yuval Eshed, Irena Pekker, Dani Zamir, Naama Menda, Osnat Yanai, Eyal Blum, and Adi Etzioni

Subjects

Molecular Sequence Data, Genes, Plant, Solanum lycopersicum, Leaflet formation, Gene Expression Regulation, Plant, Botany, Genetics, Primordium, RNA, Messenger, Transcription factor, Gene, DNA Primers, Regulation of gene expression, biology, Reverse Transcriptase Polymerase Chain Reaction, fungi, Gene Expression Regulation, Developmental, food and beverages, Plants, Genetically Modified, biology.organism_classification, Cell biology, Plant Leaves, MicroRNAs, RNA, Plant, Ectopic expression, Solanum, Solanaceae

Abstract

Plant leaves show pronounced plasticity of size and form. In the classical, partially dominant mutation Lanceolate (La), the large compound leaves of tomato (Solanum lycopersicum) are converted into small simple ones. We show that LA encodes a transcription factor from the TCP family containing an miR319-binding site. Five independent La isolates are gain-of-function alleles that result from point mutations within the miR319-binding site and confer partial resistance of the La transcripts to microRNA (miRNA)-directed inhibition. The reduced sensitivity to miRNA regulation leads to elevated LA expression in very young La leaf primordia and to precocious differentiation of leaf margins. In contrast, downregulation of several LA-like genes using ectopic expression of miR319 resulted in larger leaflets and continuous growth of leaf margins. Our results imply that regulation of LA by miR319 defines a flexible window of morphogenetic competence along the developing leaf margin that is required for leaf elaboration.

Published

2007

8. Endogenous and Synthetic MicroRNAs Stimulate Simultaneous, Efficient, and Localized Regulation of Multiple Targets in Diverse Species

Author

Ziva Amsellem, Yuval Eshed, John Paul Alvarez, Eyal Blum, Irena Pekker, and Alexander Goldshmidt

Subjects

Nicotiana tabacum, Molecular Sequence Data, Mutant, Arabidopsis, Down-Regulation, Plant Science, Solanum lycopersicum, Gene Expression Regulation, Plant, Tobacco, Botany, Arabidopsis thaliana, Promoter Regions, Genetic, Gene, Transcription factor, Research Articles, Phylogeny, Plant Proteins, Regulation of gene expression, Base Sequence, biology, Arabidopsis Proteins, fungi, food and beverages, Cell Biology, biology.organism_classification, Phenotype, Cell biology, MicroRNAs, RNA, Plant, Mutation, Nucleic Acid Conformation, RNA Polymerase II

Abstract

Recent studies demonstrated that pattern formation in plants involves regulation of transcription factor families by microRNAs (miRNAs). To explore the potency, autonomy, target range, and functional conservation of miRNA genes, a systematic comparison between plants ectopically expressing pre-miRNAs and plants with corresponding multiple mutant combinations of target genes was performed. We show that regulated expression of several Arabidopsis thaliana pre-miRNA genes induced a range of phenotypic alterations, the most extreme ones being a phenocopy of combined loss of their predicted target genes. This result indicates quantitative regulation by miRNA as a potential source for diversity in developmental outcomes. Remarkably, custom-made, synthetic miRNAs vectored by endogenous pre-miRNA backbones also produced phenocopies of multiple mutant combinations of genes that are not naturally regulated by miRNA. Arabidopsis-based endogenous and synthetic pre-miRNAs were also processed effectively in tomato (Solanum lycopersicum) and tobacco (Nicotiana tabacum). Synthetic miR-ARF targeting Auxin Response Factors 2, 3, and 4 induced dramatic transformations of abaxial tissues into adaxial ones in all three species, which could not cross graft joints. Likewise, organ-specific expression of miR165b that coregulates the PHABULOSA-like adaxial identity genes induced localized abaxial transformations. Thus, miRNAs provide a flexible, quantitative, and autonomous platform that can be employed for regulated expression of multiple related genes in diverse species.

Published

2006

9. Ultralow Calcium Requirements of Fungi Facilitate Use of Calcium Regulating Agents to Suppress Host Calcium-Dependent Defenses, Synergizing Infection by a Mycoherbicide

Author

Abraham Warshawsky, Daphna Michaeli, V. Kampel, Ziva Amsellem, and Jonathan Gressel

Subjects

chemistry.chemical_element, Biology, Calcium, Colletotrichum coccodes, chemistry.chemical_compound, BAPTA, Botany, Colletotrichum, medicine, Pest Control, Biological, Egtazic Acid, Glucans, Malvaceae, Chelating Agents, Calcium metabolism, Virulence, Callose, Nutritional Requirements, Membrane Proteins, General Chemistry, Fungi imperfecti, Calcium Channel Blockers, biology.organism_classification, EGTA, Verapamil, chemistry, Biochemistry, Glucosyltransferases, Schizosaccharomyces pombe Proteins, General Agricultural and Biological Sciences, medicine.drug

Abstract

Infection by many fungi activates a variety of calcium dependent defenses in the hosts, slowing or suppressing the attacker and limiting the efficacy of mycoherbicides. The calcium requirement for fungal growth is so low that it could only be implied based on fungi containing calcium-dependent signaling enzymes. Analytical grade media contain

Published

2002

10. Isolation, Identification, and Activity of Mycoherbicidal Pathogens from Juvenile Broomrape Plants

Author

Z. Kerenyi, Jonathan Gressel, L. Hornok, Y. Goldwasser, Yeshaiahu Kleifeld, and Ziva Amsellem

Subjects

Fusarium, biology, fungi, Fumigation, food and beverages, Fusarium arthrosporioides, Orobanche aegyptiaca, biology.organism_classification, Spore, Orobanche, Insect Science, Botany, Fusarium oxysporum, Agronomy and Crop Science, Mycelium

Abstract

Although there are reports of isolation of mycoherbicidal pathogens attacking the widespread broomrapes ( Orobanche spp.) that parasitize legumes and vegetables, none is in use or available. This is despite there being no good method of controlling broomrapes in most crops other than by preplant fumigation with methyl bromide. Two highly parasitic fungi, Fusarium arthrosporioides strain E4a (CNCM I-164) and F. oxysporum strain E1d (CNCM I-1622), were isolated from nearly 100 organisms found on diseased, juvenile, emerging Orobanche flower stalks. A near-axenic polyethylene envelope system for culturing broomrape on tomato roots was used to ascertain pathogenicity of these strains. Both organisms fulfilled Koch's postulates for being primary pathogens. Their DNAs were analyzed and fingerprinted by restriction fragment length polymorphism and random amplified polymorphic DNA, showing that they are indeed different from each other and from many other Fusarium spp. and other formae speciales of F. oxysporum including a strain that attacks O. cumana on sunflowers. Both strains infect O. aegyptiaca, O. cernua, and O. ramosa, but not O. cumana. They did not infect any of the vegetable and legume crops tested and thus seem specific to Orobanche. Tomato plant roots dipped into a fungal spore and mycelial suspension and planted in broomrape-infested soil were protected for 6 weeks, as were tomato transplants in pot experiments. About 90% control was also achieved by posttransplant soil drench with fungal suspensions in pot experiments. These pathogens may be effective as seed, transplant, or soil-drench treatments of high-value vegetable and other crops.

Published

2001

11. [Untitled]

Author

M. C. Zonno, Z. Kerenyi, Y. Goldwasser, J. Kroschel, L. Hornok, Yeshaiahu Kleifeld, Joachim Sauerborn, O. Klein, Jonathan Gressel, Dorette Sophie Müller-Stöver, Ziva Amsellem, H. Thomas, Sameer A. Barghouthi, Maurizio Vurro, and Barry A. Cohen

Subjects

Fusarium, Biological pest control, food and beverages, Fusarium arthrosporioides, Biology, biology.organism_classification, medicine.disease_cause, Orobanche, Animal ecology, Insect Science, Botany, Infestation, medicine, Agronomy and Crop Science, Legume, Mycelium

Abstract

Parasitic broomrapes (Orobanche spp.) are majoruncontrolled weeds in the Mediterranean regions of Europe and the NearEast causing major losses to vegetable, grain legume, and sunflowercrops. Selective herbicides alone cannot provide persistent, season-longcontrol of these parasites, and much methyl bromide is used for theircontrol, where affordable. Thus they are excellent targets forbiocontrol. The recent progress by the COST 816 Orobancheworking group in this area is reviewed herein. Natural infestation bythe fly Phytomyza orobanchia of seed capsules of Orobanchecrenata parasitising faba bean halved Orobanche seedproduction while inundative releases of adults reduced it to 5%of viable seeds. The fungi Fusarium arthrosporioides E4a andF. oxysporum E1d, as well as strains of bacteria were isolatedfrom diseased, juvenile, Orobanche flower stalks. They arepathogenic to O. aegyptiaca, O. crenata and O. ramosaon most vegetable crops. A F. oxysporum f. sp.orthoceras was specifically pathogenic to O. cumana onsunflowers. All were used in various experiments with a modicum ofsuccess. Methods were developed to formulate isolated mycelia, whichcould eventually allow the use of transgenic hypervirulent pathogens inasporogenic (deletion) mutants (as a failsafe against spread).Mycotoxins were also isolated from different Fusarium and otherfungal species that kill Orobanche, and are being consideredfor direct use, or to augment other strategies. All threeFusarium spp. used have been transformed with gusand/or gfp genes allowing tracing their movement in theenvironment, and opening the way to future transformations tohypervirulence.

Published

2001

12. Long-term dry preservation of viable mycelia of two mycoherbicidal organisms

Author

Nina K. Zidack, Ziva Amsellem, P.Charles Quimby, and Jonathan Gressel

Subjects

Colony-forming unit, Fusarium, biology, fungi, food and beverages, Bacterial growth, biology.organism_classification, Conidium, Spore, Orobanche, Horticulture, Botany, Weed, Agronomy and Crop Science, Mycelium

Abstract

The production of large amounts of fungal spores for preservation and formulation are considered constraints to effective use of fungal biocontrol agents. Few successful attempts have been made to store fungal mycelia alone. Late log-phase liquid fermenter cultured isolated mycelia of two Fusarium spp. specific to the parasitic broomrapes ( Orobanche spp.) from fermenters were formulated in alginate beads or in `Stabileze’ (starch, sucrose, corn oil, and silica) and air-dried. `Stabileze’ formulations exhibited 9 months and retained pathogenicity to the weed for over a year, while mycelia harvested earlier, and conidia from liquid culture exhibited >40% loss of viability. Mycelia from liquid culture yielded >20 times more colony forming units (cfu) of F. arthrosporioides and >2 times more cfu of F. oxysporum than spores at late log phase. Efficient formulation of mycelia should significantly change the economics of biocontrol.

Published

1999

13. Abstracts of papers presented at the 15th conference of the weed science society of Israel

Author

H. Eizenberg, Z. Tanaami, R. Jacobsohn, A. Lalazar, M. Hayut, M. Sibony, A. Tal, B. Rubin, T. Yossef, D. Plakhine, Y. Kleifeld, T. Weinberg, E. Lior, N. Avdat, V. H. Portnoy, N. Katzir, D. M. Joel, H. Buxbaum, Y. Goldwasser, J. Hershenhorn, E. Zamski, Y. Hershenhorn, S. Golan, G. Herzlinger, T. Chilf, Dalia Losner-Goshen, R. Aly, N. Halpern, T. Blumenfeld, Adiva Shomer-Ilan, A. M. Mayer, Nurit Bar-Nun, G. Ben-Hod, Ziva Amsellem, J. Gressel, Z. Kernyi, L. Hornok, B. Cohen, A. Sharon, S. Kitahin, A. Bosak, Y. Bar-Peled, N. Barnea, H. Yasour, Y. Alon, Y. Z. El-Nahhal, S. Nir, T. Polubesova, L. Margulies, E. Siti, Ch. Kaplan, I. Levanon, M. Gokkes, A. Hadar, Y. Chachlon, H. Yovel, G. Colodney, S. Glidai, Shuli Tal, A. Nir, E. Yasur, J. Kigel, T. Yaacoby, Bin Ye, U. Kimel, Shulamit Manulis, Frida Kleitman, Orit Dror, Laura Chalupowicz, E. Khayat, Leah Tsror (Lahkim), Orly Erlich, A. Menashe, M. Wysoki, U. Gerson, Y. Slabezki, A. Dag, H. Efrat, B. Yacobson, E. Palevsky, H. Reuveny, D. Oppenheim, O. Okonis, B. Raccah, Anat Kritzman, H. Yunis, A. Gera, Edna Tanne, J. Cohen, Z. Sandu, Svetlana Alexandrov, A. Geral, Y. Cohen, Sonja Farkash, A. Baider, Tirza Zahavi, M. Reuveni, D. Scheglov, S. Lavee, Aegilops speltoides, J. Manisterski, Pnina Ben-Yehuda, Ayelet Shimony, Tamar Eilam, Y. Anikster, S. Freeman, C. Lahav, A. Sztejnberg, Y. Nitzani, M. Maimon, Talma Katan, D. Shtienberg, G. Kritzman, Z. Herzog, D. Openheim, Miriam Zilberstaine, Daphna Blatchinsky, Y. Elad, Y. Mesika, B. Kirshner, Y. Shmulevitz, Dalia Rav David, A. Sztjenberg, Hanna Yehezkel, D. Shmuel, E. Taari, Y. Posalski, M. Fuchs, J. Katan, S. Pivonia, R. Cohen, Rachel Levite, A. Gamliel, A. Grinstein, V. Zilberg, Marina Benihes, Orna Ucko, L. Klein, E. Uriely, M. E. Stangheilini, Nadia Korolev, Leah Tsror, Marina Hazanovsky, Sara Leviush-Mordechai, Sara Sivan, Yael Rekah, M. Aharon, I. Peretz-Alon, D. Prusky, Delilah Beno-Moualem, N. Yakoby, Ilana Kobiler, A. Dinoor, N. Dudai, R. Reuveni, D. Chaimovitch, Daya Sa’adi, Olga Larkov, Evgenia Dor, E. Lewinsohn, E. Putievsky, U. Afek, Janeta Orenstein, E. Nuriel, S. Carmeli, V. Rodov, M. Bar-Joseph, D. Eshel, Ruth Ben-Arie, Michal Reuven, Aida Zviebil, Y. Szmulewich, Y. Ben-Yephet, Airit Lavkovits, T. Markovits, I. Mor, B. Bar-Yosef, N. M. Iraki, M. N. Ahmad, J. N. Abu-Sa’id, I. Barash, M. Assaraf, C. Ginzburg, O. Yarden, A. Mduel, Y. Oren, Z. Solel, Miriam Kimchi, A. Sadovski, E. Yogev, A. Yaniv, A. Omari, I. Ofer, P. Sarid, E. Avisar, O. Naot, B. Bing, S. Ovadia, Y. Sachs, Neta Mor, Y Gotlieb, Ronit Benishti, Y. HaMeiri, P. Sarig, Anat Yogev, Y. Barzilai, B. Balaom, Orly Erlich-Holtzer, Tselila Ben-David, M. Lang, U. Lubovsky, R. Engel-Kirshner, Y. Zachs, A. Dubitzky, N. Genaim, Y. Gotlieb, R. Porat, V. Vinocur, Batya Weisseah, Leah Cohen, S. Droby, Edna Sharon, Meira Bar-Eyal, M. Mor, O. Kleifeld, I. Chet, Y. Spiegel, U. Yechye, E. Nof, Susanne Guske, Esther Nof, A. Lichter, Orit Dvir, Y. Zutkhi, Tania Kapulonov, Lillian Sonego, S. Israel, Yael Skutelski, Tamar Lahav, Y. Peretz-Alon, E. Becker, O. Heiman, E. Shlevin, Y. Mahrer, R. Fluhr, Q. Pan, Marianne Sela, Odelia Pisanti, Ofra Hadrian, Ada Fainzilber, Sigal Sivaldi, D. Zamir, D. Silverman, R. Ausher, Y. Melamed, A. Gal-On, G. Slutsky, Y. Wang, Nurbol Galiakparov, Orly Aziz, I. Sela, R. Gafny, Emma Teverovsky, F. Akad, D. Gidoni, H. Czosnek, G. Loebenstein, S. Bakshi, Oded Yarden, Abraham Sztejnberg, Inbal Yassur, S. Wolf, M. B. Dickman, A. Mitra, M. Robinson, R. Maor, D. Ezra, Einat Pardes, and I. Kosman

Subjects

Agriculture, business.industry, Insect Science, Ecology (disciplines), Weed science, Plant Science, Social science, Biology, business

Published

1999

14. Abstracts of papers presented at the 14th conference of the Weed Science Society of Israel Abstracts of papers presented at the international conference on controlled atmosphere and fumigation (CAF) in stored products Abstracts of papers presented at the joint international conference of FAOPMA — CEPA on pest control in the 21st century Abstracts of papers presented at the 2nd international Agro-Ecology Symposium on integrated pest management: from the drawing board to the market

Author

E. Yogev, M. Berson, Y. Benyamini, Y. Sheinboim, T. Lev-Ran, A. Bahat, Y. Barkai, Y. Gatti, M. Zaidan, O. Barazani, Y. Boshvize, S. Graph, U. Luchinsky, T. Blumenfeld, Y. Kleifeld, G. Herzlinger, H. Bucsbaum, S. Golan, T. Chilf, R. Aly, Y. Ohali, A. Ovadia, Y. Chachlon, H. Yovel, Y. Tesler, G. Colodney, A. Nir, S. Zarka, A. Tal, B. Rubin, T. Yaacoby, Y. Alon, Y. Kedar, Orit Ben-Zvi Assaraf, O. Shainberg, H. D. Rabinowitch, E. Tel-Or, Y. Goldwasser, D. M. Joel, D. Plakhine, V. Portnoy, G. Tzuri, N. Katzir, Dalia Losner-Goshen, A. M. Mayer, R. Jacobsohn, Z. Tanaami, H. Eisenberg, Ziva Amsellem, Z. Kernyi, L. Hornok, J. Gressel, Adiva Shomer-Ilan, Ela Nir, Daphna Michaeli, V. Kampel, A. Warshawsky, M. Yogev, M. Negbi, J. Hershenhorn, Y. Lavan, T. Hilf, M. Horowitz, M. Cohen, I. Hirsch, A. Veneziani, S. T. Conyers, C. H. Bell, Ana C. Sá-Fischer, C. S. Adler, Ch. Reichmuth, P. W. Flinn, D. W. Hagstrum, G. N. Mbata, R. G. Winks, Elisabeth A. Hyne, M. Q. Chaudhry, A. D. MacNicoll, N. R. Price, M. Schöller, J. -F. Dugast, R. Plarre, S. Navarro, E. J. Donahaye, R. Diaz, Miriam Rindner, A. Azrieli, P. Trematerra, F. Fontana, M. Mancini, Ailsa D. Hocking, Marta H. Taniwaki, J. Lacey, A. Hamer, N. Magan, N. Paster, F. M. Caliboso, D. G. Alvindia, G. C. Sabio, M. T. dela Cruz, Okky Setyawati Dharmaputra, A. S. R. Putri, M. Sidik, Eleni Papademetriou, A. Varnava, C. Mouskos, M. A. Malek, B. Parveen, K. A. Dzisi, W. O. Ellis, Ana Maria Estevez, Ljubica Galletti, T. Fichet, E. Oteiza, L. A. Lizana, M. X. Gonzalez, B. Yakobson, Y. Slavezky, H. Ephrati, El-H. Bartaly, R. K. Kashyap, M. Gupta, W. L. Kashyap, B. S. Dahiya, A. K. Dash, J. R. Rangaswamy, R. D. Shroff, D. S. Jayas, W. E. Muir, N. D. G. White, L Gaye, null Weller, J. E. van S. Graver, Wu-Kang Peng, M. Bengston, E. Alip, C. Reed, J. G. Leesch, G. F. Knapp, G. F. Russell, L. B. Llewellin, Ch. Ulrichs, H. J. Banks, P. C. Annis, R. Allanson, R. Tauscher, K. Westphal, S. Mohan, M. Gopalan, P. C. Sumdarababu, V. V. Sree Narayanan, Sabine Prozell, G. Ziegleder, B. Schartmann, R. Matissek, J. Kraus, D. Gerard, S. Rogg, W. Raemann, R. F. Ryan, Ya-Nan Wang, R. T. Noyes, P. Kenkel, J. T. Criswell, G. W. Cuperus, C. J. Waterford, C. P. Whittle, L. Benzing, S. Ball, T. DeBruin, C. R. Newman, S. J. Hilton, B. W. Bridgeman, R. J. Hodges, M. Smith, A. Madden, D. Russell, H. Halid, J. L. Zettler, Perlina D. Sayaboc, A. J. O. Gibe, S. Ignatowicz, S. Oboza, C. Slusarski, P. J. Collins, F. A. El-Lakwah, A. A. Darwish, M. M. Khattab, A. M. Abdel-Latif, R. N. Emery, S. Pratt, C. Waterford, A. L. Clifton, K. A. Mills, T. J. Wontner-Smith, G. Khair, W. S. Magee, R. T. Baker, R. W. D. Taylor, J. Klijnstra, R. T. Ross, M. Kostokovski, Valérie Ducom, Julie A. Cassells, R. H. Burton, S. Bhadrikaju, R. L. Meagher, R. Wilkin, C. van Natto, V. Stejskal, P. M. Cogan, N. G. Gratz, U. Shalom, Hedva Pener, A. G. Havron, Z. Klein, H. Adler, S. Moran, A. Wilamowski, R. Amichai, D. K. Mueller, M. Spiegelstein, E. Shaaya, M. Kostjukovski, N. Cooper, M. Coll, S. Steinberg, E. Ravins, W. Waldner, R. Ausher, Y. Rössler, H. Denzer, E. Dunkelblum, and M. Kehat

Subjects

Insect Science, Plant Science

Published

1996

15. Biocontrol of weeds: Overcoming evolution for efficacy

Author

Ziva Amsellem, Abraham Warshawsky, V. Kampel, Jonathan Gressel, and D. Michaeli

Subjects

business.industry, fungi, Biological pest control, food and beverages, General Medicine, Biology, Pathogenicity, Pollution, Biotechnology, Chemical agents, Dew, Weed, business, Food Science

Abstract

Inundatively used mycoherbicides have been uneconomical and ineffectual, mainly because a large inoculum is required to overcome weeds’ innate defenses, as well as the need for long dew periods to become established. Weed defenses can be suppressed by specific chemical agents, or overcome biologically (using mixed organisms and/or engineering enhanced pathogenicity), and better formulants replace the long dew periods.

Published

1996

16. Failure of the tomato trans-acting short interfering RNA program to regulate AUXIN RESPONSE FACTOR3 and ARF4 underlies the wiry leaf syndrome

Author

Gilgi Friedlander, Irena Pekker, Moti Sabban, Guy Wachsman, John Paul Alvarez, Tamar Yifhar, Yuval Eshed, Dror Peled, Anna Pistunov, and Ziva Amsellem

Subjects

Small RNA, Small interfering RNA, Nicotiana tabacum, Molecular Sequence Data, Arabidopsis, Plant Science, Biology, In Brief, Solanum lycopersicum, Plant Growth Regulators, Species Specificity, Auxin, Gene Expression Regulation, Plant, Botany, Tobacco, Arabidopsis thaliana, RNA, Small Interfering, Gene, Alleles, Plant Proteins, Solanum tuberosum, chemistry.chemical_classification, Base Sequence, Indoleacetic Acids, fungi, food and beverages, Cell Biology, Sequence Analysis, DNA, biology.organism_classification, Cell biology, Plant Leaves, Phenotype, chemistry, Genetic Loci, RNA, Plant, Mutation, Solanum, Biogenesis

Abstract

Interfering with small RNA production is a common strategy of plant viruses. A unique class of small RNAs that require microRNA and short interfering (siRNA) biogenesis for their production is termed trans-acting short interfering RNAs (ta-siRNAs). Tomato (Solanum lycopersicum) wiry mutants represent a class of phenotype that mimics viral infection symptoms, including shoestring leaves that lack leaf blade expansion. Here, we show that four WIRY genes are involved in siRNA biogenesis, and in their corresponding mutants, levels of ta-siRNAs that regulate AUXIN RESPONSE FACTOR3 (ARF3) and ARF4 are reduced, while levels of their target ARFs are elevated. Reducing activity of both ARF3 and ARF4 can rescue the wiry leaf lamina, and increased activity of either can phenocopy wiry leaves. Thus, a failure to negatively regulate these ARFs underlies tomato shoestring leaves. Overexpression of these ARFs in Arabidopsis thaliana, tobacco (Nicotiana tabacum), and potato (Solanum tuberosum) failed to produce wiry leaves, suggesting that the dramatic response in tomato is exceptional. As negative regulation of orthologs of these ARFs by ta-siRNA is common to land plants, we propose that ta-siRNA levels serve as universal sensors for interference with small RNA biogenesis, and changes in their levels direct species-specific responses.

Published

2012

17. Quantification of Infection by Alternaria cassiae Using Leaf Immuno-Autoradiography and Radioimmunosorbent Assays

Author

Jonathan Gressel, Amir Sharon, and Ziva Amsellem

Subjects

Antiserum, Chromatography, biology, Physiology, Inoculation, Radioimmunoassay, Plant Science, Fungi imperfecti, biology.organism_classification, Alternaria, Microbiology, Monilinia fructicola, Cassia, Genetics, Agronomy and Crop Science, Mycelium

Abstract

The severity of fungal infection is usually estimated visually as a rating of injury. A more quantitative method was needed to ascertain the effect of additives used to enhance the virulence of mycoherbicidal preparations. A sensitive and accurate serological method is presented for quantitative measurement of Alternaria cassiae infection of Cassia obtusifolia. An antiserum was prepared against a homogenate of mycelium of A. cassiae. A fast and simple procedure of leaf immuno-autoradiography was developed for the visualization of A. cassiae mycelium on inoculated leaves. A radioimmunosorbent assay (RISA) was developed for quantification of the extent of fungal infection. As little as 1. 6 ng/ ml dry weight equivalent of mycelium could be detected by RISA. There was a linear relationship between the logarithm of the RISA values and the logarithm of fungus concentration up to 300 ng/ml. Reduced sensitivity of the assay was pronounced in extracts containing 400 μ g/ml or more fresh weight of leaves. There was 30–40 % cross-reactivity of the antiserum with two other species of Alternaria, as well as with Monilinia fructicola, and almost no reactivity was found with three other fungi tested.

Published

1993

18. Glyphosate Suppression of an Elicited Defense Response

Author

Jonathan Gressel, Amir Sharon, and Ziva Amsellem

Subjects

chemistry.chemical_classification, biology, Physiology, Inoculation, Phytoalexin, Mycoherbicide, fungi, Virulence, Plant Science, Fungi imperfecti, biology.organism_classification, Alternaria, Microbiology, chemistry.chemical_compound, chemistry, Cassia, Glyphosate, Botany, Genetics

Abstract

The major effort in developing pathogenic fungi into potential mycoherbicides is aimed at increasing fungal virulence to weeds without affecting crop selectivity. Specific suppression of biosynthesis of a phytoalexin derived from the shikimate pathway in Cassia obtusifolia L. by a sublethal dose (50 micromolar) of glyphosate increased susceptibility to the mycoherbicide Alternaria cassiae Jurair & Khan. Glyphosate applied with conidia suppressed phytoalexin synthesis beginning at 12 hours, but not an earlier period 8 to 10 hours after inoculation. The phytoalexin synthesis elicited by fungal inoculation was also suppressed by darkness. The magnitudes of virulence of the mycoherbicide in the dark or with glyphosate in the light were both higher than after inoculation in the light with the same concentration of conidia in the absence of glyphosate. Five times less inoculum was needed to cause disease symptoms when applied with glyphosate than without. Glyphosate did not render A. cassiae virulent on soybean ( Glycine max ), a crop related to the host. These results suggest that a specific inhibition of a weed9s elicited defense response can be a safe way to enhance virulence and improve the efficacy of the mycoherbicide.

Published

1992

19. Flexible Tools for Gene Expression and Silencing in Tomato

Author

Yuval Eshed, Martine Lemaire-Chamley, Donald Grierson, Ana I. Fernandez, Adrien Sicard, Moftah Alhagdow, Mansour Karimi, Nicolas Viron, Sean T. May, Pierre Hilson, Matthew Jones, Graham B. Seymour, Anna Czerednik, Ziva Amsellem, Gerco C. Angenent, Christophe Rothan, Complexo Hospitalario Universitario A Coruña, Station de physiologie végétale, Institut National de la Recherche Agronomique (INRA), Department of plant systems biology, Flanders Institute for Biotechnology, University of Nottingham, UK (UON), Department of Plant Sciences, Weizmann Institute of Science [Rehovot, Israël], Radboud university [Nijmegen], Plant Research International, Wageningen University and Research [Wageningen] (WUR), Biologie du fruit et pathologie (BFP), and Université Sciences et Technologies - Bordeaux 1-Université Bordeaux Segalen - Bordeaux 2-Institut National de la Recherche Agronomique (INRA)

Subjects

0106 biological sciences, Physiology, [SDV]Life Sciences [q-bio], Molecular Plant Physiology, POLYGALACTURONASE, Plant Science, 01 natural sciences, CRABS-CLAW, Solanum lycopersicum, Gene Expression Regulation, Plant, Genes, Reporter, Arabidopsis, TRANSCRIPTION, Cloning, Molecular, Promoter Regions, Genetic, Glucuronidase, 2. Zero hunger, Regulation of gene expression, 0303 health sciences, ZINC-FINGER, EPS-1, biology, crabs-claw, plants, food and beverages, Faculty of Science\Biological Science, ARABIDOPSIS, PRI Bioscience, Genetic Techniques, Organ Specificity, Laboratory of Molecular Biology, transcription, SEQUENCE TAGS, sequence tags, Transcriptional Activation, Phytoene desaturase, functional-analysis, Genetic Vectors, Green Fluorescent Proteins, polygalacturonase, Computational biology, [SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, 03 medical and health sciences, Species Specificity, Genetics, Laboratorium voor Moleculaire Biologie, Gene silencing, Genetically modified tomato, zinc-finger, PLANTS, Gene Silencing, artificial micrornas, Gene, 030304 developmental biology, Cell Nucleus, FUNCTIONAL-ANALYSIS, business.industry, FRUIT, fungi, Biology and Life Sciences, Promoter, fruit, Breakthrough Technologies, biology.organism_classification, ARTIFICIAL MICRORNAS, Clone Cells, Biotechnology, MicroRNAs, arabidopsis, Heterologous expression, business, Biomarkers, 010606 plant biology & botany

Abstract

As a genetic platform, tomato (Solanum lycopersicum) benefits from rich germplasm collections and ease of cultivation and transformation that enable the analysis of biological processes impossible to investigate in other model species. To facilitate the assembly of an open genetic toolbox designed to study Solanaceae, we initiated a joint collection of publicly available gene manipulation tools. We focused on the characterization of promoters expressed at defined time windows during fruit development, for the regulated expression or silencing of genes of interest. Five promoter sequences were captured as entry clones compatible with the versatile MultiSite Gateway format: PPC2, PG, TPRP, and IMA from tomato and CRC from Arabidopsis (Arabidopsis thaliana). Corresponding transcriptional fusions were made with the GUS gene, a nuclear-localized GUS-GFP reporter, and the chimeric LhG4 transcription factor. The activity of the promoters during fruit development and in fruit tissues was confirmed in transgenic tomato lines. Novel Gateway destination vectors were generated for the transcription of artificial microRNA (amiRNA) precursors and hairpin RNAs under the control of these promoters, with schemes only involving Gateway BP and LR Clonase reactions. Efficient silencing of the endogenous phytoene desaturase gene was demonstrated in transgenic tomato lines producing a matching amiRNA under the cauliflower mosaic virus 35S or PPC2 promoter. Lastly, taking advantage of the pOP/LhG4 two-component system, we found that well-characterized flower-specific Arabidopsis promoters drive the expression of reporters in patterns generally compatible with heterologous expression. Tomato lines and plasmids will be distributed through a new Nottingham Arabidopsis Stock Centre service unit dedicated to Solanaceae resources.

Published

2009

20. Stage-specific regulation of Solanum lycopersicum leaf maturation by class 1 KNOTTED1-LIKE HOMEOBOX proteins

Author

Yogev Burko, Naomi Ori, Yael Berger, Alexander Goldshmidt, Eran Sharon, Lilach Ben-Yaakov, Eilon Shani, and Ziva Amsellem

Subjects

Regulation of gene expression, Homeodomain Proteins, biology, fungi, Molecular Sequence Data, Morphogenesis, food and beverages, Gene Expression Regulation, Developmental, Cell Biology, Plant Science, Meristem, biology.organism_classification, Plants, Genetically Modified, Plant Leaves, Leaflet formation, Solanum lycopersicum, Gene Expression Regulation, Plant, Arabidopsis, Botany, Gene expression, Homeobox, Solanum, Research Articles, Oligonucleotide Array Sequence Analysis, Plant Proteins

Abstract

Class 1 KNOTTED1-LIKE HOMEOBOX (KNOXI) genes encode transcription factors that are expressed in the shoot apical meristem (SAM) and are essential for SAM maintenance. In some species with compound leaves, including tomato (Solanum lycopersicum), KNOXI genes are also expressed during leaf development and affect leaf morphology. To dissect the role of KNOXI proteins in leaf patterning, we expressed in tomato leaves a fusion of the tomato KNOXI gene Tkn2 with a sequence encoding a repressor domain, expected to repress common targets of tomato KNOXI proteins. This resulted in the formation of small, narrow, and simple leaves due to accelerated differentiation. Overexpression of the wild-type form of Tkn1 or Tkn2 in young leaves also resulted in narrow and simple leaves, but in this case, leaf development was blocked at the initiation stage. Expression of Tkn1 or Tkn2 during a series of spatial and temporal windows in leaf development identified leaf initiation and primary morphogenesis as specific developmental contexts at which the tomato leaf is responsive to KNOXI activity. Arabidopsis thaliana leaves responded to overexpression of Arabidopsis or tomato KNOXI genes during the morphogenetic stage but were largely insensitive to their overexpression during leaf initiation. These results imply that KNOXI proteins act at specific stages within the compound-leaf development program to delay maturation and enable leaflet formation, rather than set the compound leaf route.

Published

2009

21. Transforming a NEP1 toxin gene into two Fusarium spp. to enhance mycoherbicide activity on Orobanche--failure and success

Author

Jonathan Gressel, Einat Safran, Hani Al-Ahmad, Ziva Amsellem, and Sagit Meir

Subjects

Fusarium, Molecular Sequence Data, Virulence, Orobanche aegyptiaca, Colletotrichum coccodes, Microbiology, Transformation, Genetic, Fusarium oxysporum, Amino Acid Sequence, Plant Diseases, biology, Base Sequence, Herbicides, Orobanche, Mycoherbicide, food and beverages, General Medicine, Mycotoxins, biology.organism_classification, Transformation (genetics), Insect Science, Agronomy and Crop Science, Sequence Alignment

Abstract

BACKGROUND: The NEP1 gene encoding a fungal toxin that successfully conferred hypervirulence when transformed into Colletotrichum coccodes (Wallr.) Hughes attacking Abutilon theophrasti (L.) Medic, was tested to ascertain if it would enhance pathogenicity of Fusarium species to Orobanche aegyptiaca Pers. parasitising crops. RESULTS: None of the Fusarium oxysporum (#CNCM 1-1622) NEP1 transformants was hypervirulent. NEP1 transformants of a new but unnamed Fusarium sp. (#CNCM 1-1621 - previously identified as F. arthrosporioides) killed Orobanche more rapidly than the wild type. Transformed lines of both species were NEP1 PCR positive, as was the wild type of F. oxysporum #CNCM 1-1622 and five other formae speciales of F. oxysporum. All six wild-type formae speciales of F. oxysporum tested excrete minute amounts of immunologically and bioassay-detectable NEP1-like protein. NEP1 expression of most F. oxysporum transformants was suppressed, suggesting that the native gene and the transgene silence each other. The sequence of the putative NEP1 gene in Fusarium oxysporum #CNCM 1-1622 differs from the sequence in the toxin-overproducing strain of F. oxysporum f. sp. erythroxyli in four or five amino acids in the first exon. CONCLUSION: Wild-type Fusarium sp. #CNCM 1-1621 does not contain a NEP1-like gene, explaining why it seemed amenable to transformation with high expression, and its virulence was probably enhanced by not cosuppressing the endogenous gene as occurred with Fusarium oxysporum #CNCM 1-1622.

Published

2009

22. Abstracts of papers presented at a meeting of the weed science society of israel on possibilities of reducing herbicide use

Author

Sarina Saltzman, Yeshaiahu Kleifeld, Jonathan Gressel, M. Davis, Z. Gerstl, H. Aviram, A. Eisenberg, Stuart Z. Cohen, Ziva Amsellem, A. Sharon, H. H. Lebaron, J. C. Caseley, Uri Mingelgrin, U. Rosenberg, H. Haas, E. Shlevin, Z. Paster, Menashe Horowitz, and Baruch Rubin

Subjects

business.industry, Ecology (disciplines), Alachlor, Weed science, Plant Science, Biology, Weed control, Biotechnology, chemistry.chemical_compound, chemistry, Agriculture, Insect Science, Atrazine, business

Published

1991

23. Transgenically enhanced expression of indole-3-acetic Acid confers hypervirulence to plant pathogens

Author

Ziva Amsellem, Jonathan Gressel, Amir Sharon, Rudy Maor, and Barry A. Cohen

Subjects

chemistry.chemical_classification, biology, fungi, Wild type, food and beverages, Orobanche aegyptiaca, Virulence, Plant Science, biology.organism_classification, Microbiology, Transformation (genetics), Orobanche, chemistry.chemical_compound, chemistry, Auxin, Fusarium oxysporum, Indole-3-acetic acid, Agronomy and Crop Science

Abstract

Fusarium oxysporum and F. arthrosporioides, pathogenic on Orobanche aegyptiaca, were transformed with two genes of the indole-3-acetamide (IAM) pathway leading to indole-3-acetic acid (IAA) to attempt to enhance virulence. Transgenic F. oxysporum lines containing both the tryptophan-2-monooxyngenase (iaaM) and indole-3-acetamide hydrolase (iaaH) genes produced significantly more IAA than the wild type. IAM accumulated in culture extracts of F. oxysporum containing iaaM alone. F. arthrosporioides containing only iaaM accumulated IAM and an unidentified indole. Some transformants of F. oxysporum expressing only the iaaM gene also produced more IAA than the wild type. Sub-threshold levels (that barely infect Orobanche) of transgenic F. oxysporum expressing both genes and of F. arthrosporioides expressing iaaM were more effective in suppressing the number and size of Orobanche shoots than the wild type on tomato plants grown in soil mixed with Orobanche seed. Stimulating an auxin imbalance enhanced pathogen virulence by affecting the host in a manner similar to low doses of auxin herbicides such as 2,4-dichlorophenoxy acetic acid.

Published

2008

24. Abstracts of Papers Presented at the 11th Conference of the Weed Science Society of Israel

Author

S. Gepstein, A. A. Schaffer, R. Reuveni, A. Zehavi, T. Blumenfeld, G. Herzlinger, A. Damn, S. Gross, A. Sharon, U. LEvanon, S. Graph, A. Ovadia, A. Grinstein, A. Danin, Batia Pazy, R. Epstein, M. A. K. Jansen, G. Herzlenger, Ziva Amsellem, M. Schonfeld, S. Brosh, Y. Boshvitz, Vered Kutner, Yigal Cohen, Y. Ohali, Y. Kleieeld, D. Kazzes, S. Funk, C. L. Elmore, U. Baruch, D. Mayshar, Y. Shaalhel, Y. Gotlieb, A. Bargutti, Y. Gati, A. Lisai, Elana Avidov, P. C. Quimby, Baruch Rubin, E. M. Smith, M. Horowitz, E. Nevo, T. Sachs, G. Krttzman, J. Toledano, John C. Steffens, A. Raz, Y. Weiss, Shifra Yadid, Naomi Ish-Shalom Gordon, J. Gressel, M. Negbi, U. Plitmann, R. Gadish, R. Jacobsohn, Y. Kleifeld, L. Margulies, S. F. Gorski, Noa Cohen, A. Back, M. Davis, D. Levi, Y. Benyamini, H. Bucsbaum, M. Cohen, T. Stern, N. Aharonson, J. Barkai, Elinoar Nttzani, Barbara Jean Mazur, Amos Rubin, Tamar Peled, Kela Marton, E. Eliyasi, M. Gokkes, Y. Shaaltiel, Daliah Losner, S. Golan, Y. Goldwasser, Jaacov Katan, Y. Kedar, B. Cohen, A. Bahat, M. Kovacs, A. Washawsky, and R. G. Kenneth

Subjects

Agriculture, business.industry, Insect Science, Ecology (disciplines), Weed science, Plant Science, Biology, Social science, business

Published

1990

25. TRANSGENIC BIOCONTROL AGENTS TO OVERCOME EVOLUTIONARY BARRIERS

Author

Sagit Meir, Hani Al-Ahmad, Jonathan Gressel, Yoav Herschkovitz, Ziva Amsellem, and Olubukola Oluranti Babalola

Subjects

Biology

Published

2007

26. APPROACHES TO AND SUCCESSES IN DEVELOPING TRANSGENICALLY ENHANCED MYCOHERBICIDES

Author

Olubukola Oluranti Babalola, Yoav Herschkovitz, Jonathan Gressel, Hani Al-Ahmad, Ziva Amsellem, Sagit Meir, and Inbar Greenspoon

Subjects

Genetics, biology, Host (biology), business.industry, fungi, food and beverages, Virulence, Cellulase, Phytoalexin biosynthesis, Biotechnology, Lytic cycle, biology.protein, Pectinase, Weed, business, Gene

Abstract

Inundative mycoherbicides have not been successful in weed con- trol in row crops, probably due to evolutionary barriers, and adding virulence factors was considered essential. Exogenous addition of the products of vari- ous genes was used to ascertain synergy as a prelude to adding them transgeni- cally. Transgenically over-expressing single "soft" genes (host lytic enzymes such as pectinase, cellulase and expansins, or natural hormones such as IAA), or "hard" genes encoding toxins such as NEP1 and CP1, has enhanced viru- lence, but not enough. Gene stacking to obtain synergies among the various genes is considered a top priority, both to achieve sufficient virulence and to delay the evolution of weed resistance to the fungal pathogens.

Published

2007

27. The tomato FT ortholog triggers systemic signals that regulate growth and flowering and substitute for diverse environmental stimuli

Author

Eliezer Lifschitz, Ziva Amsellem, Akiva Shalit, Alexander Goldshmidt, John Paul Alvarez, Yuval Eshed, Tamar Eviatar, and Alexander Rozman

Subjects

Transcription, Genetic, Mutant, Meristem, Flowers, Environment, Genes, Plant, chemistry.chemical_compound, Solanum lycopersicum, Transcription (biology), Gene Expression Regulation, Plant, Arabidopsis, Botany, Gene, Plant Proteins, Cell Nucleus, Multidisciplinary, biology, fungi, Plant physiology, food and beverages, Gene Expression Regulation, Developmental, Biological Sciences, biology.organism_classification, Cell biology, Plant Leaves, chemistry, Shoot, Mutation, Florigen

Abstract

The systemic model for floral induction, dubbed florigen, was conceived in photoperiod-sensitive plants but implies, in its ultimate form, a graft-transmissible signal that, although activated by different stimuli in different flowering systems, is common to all plants. We show that SFT ( SINGLE-FLOWER TRUSS ), the tomato ortholog of FLOWERING LOCUS T ( FT ), induces flowering in day-neutral tomato and tobacco plants and is encoded by SFT . sft tomato mutant plants are late-flowering, with altered architecture and flower morphology. SFT -dependent graft-transmissible signals complement all developmental defects in sft plants and substitute for long-day stimuli in Arabidopsis , short-day stimuli in Maryland Mammoth tobacco, and light-dose requirements in tomato uniflora mutant plants. The absence of donor SFT RNA from flowering receptor shoots and the localization of the protein in leaf nuclei implicate florigen-like messages in tomato as a downstream pathway triggered by cell-autonomous SFT RNA transcripts. Flowering in tomato is synonymous with termination of the shoot apical meristems, and systemic SFT messages attenuate the growth of apical meristems before and independent of floral production. Floral enhancement by systemic SFT signals is therefore one pleiotropic effect of FT orthologs.

Published

2006

28. Transformation of carrots with mutant acetolactate synthase for Orobanche (broomrape) control

Author

Jonathan Gressel, Ziva Amsellem, and Dvora Aviv

Subjects

Pesticide resistance, Parasitic plant, Drug Resistance, Orobanche aegyptiaca, Germination, Niacin, chemistry.chemical_compound, Culture Techniques, Botany, Acetolactate synthase, biology, Herbicides, Orobanche, Imidazoles, food and beverages, General Medicine, Imazapyr, biology.organism_classification, Plants, Genetically Modified, Daucus carota, Transformation (genetics), Acetolactate Synthase, Orobanchaceae, chemistry, Insect Science, Mutation, Seeds, biology.protein, Agronomy and Crop Science

Abstract

Parasitic Orobanche spp are major constraints to vegetable crop production in the Mediterranean basin (to eastern Europe) and in localized places in India, China and the USA. Transgenic target-site herbicide resistance (eg, to acetolactate synthase inhibitors) allows for movement of unmetabolized herbicide through the crop to the photosynthate sink in the parasite, as well as through the soil. We report the successful engineering of a mutant acetolactate synthase (ALS) gene into carrot, allowing control of broomrape already in heterozygotes of the first back-crossed generation, by imazapyr, an imidazolinone ALS inhibitor. It is expected that homozygotes will have higher levels of resistance.

Published

2002

29. Infection of Tubercles of the Parasitic Weed Orobanche aegyptiaca by Mycoherbicidal Fusarium Species

Author

Ziva Amsellem, Barry A. Cohen, Jonathan Gressel, and Simcha Lev-Yadun

Subjects

Fusarium, Time Factors, Hypha, Green Fluorescent Proteins, Fusarium arthrosporioides, Orobanche aegyptiaca, Plant Science, Lignin, Plant Roots, Microbiology, chemistry.chemical_compound, Membrane Lipids, Solanum lycopersicum, Botany, Fusarium oxysporum, Plant Diseases, biology, Orobanche, Callose, food and beverages, Original Articles, biology.organism_classification, Luminescent Proteins, chemistry, Mycoses, Fusaric acid

Abstract

Progression of the infection by host-specific strains of Fusarium oxysporum and Fusarium arthrosporioides of Orobanche aegyptiaca (Egyptian broomrape) tubercles attached to tomato roots was tracked using light, confocal and electron microscopy. Mycelia transformed with the gene for green fluorescent protein were viewed using a confocal microscope. Fungal penetration was preceded by a rapid loss of starch, with approx. 10 % remaining at 9 h and no measurable starch at 24 h. Penetration into the Orobanche tubercles began by 12 h after inoculation. Hyphae penetrated the outer six cell layers by 24 h, reaching the centre of the tubercles by 48 h and infecting nearly all cells by 72 h. Most of the infected tubercles were dead by 96 h. Breakdown of cell walls and the disintegration of cytoplasm in and around the infected cells occurred between 48 and 96 h. Lignin-like material increased in tubercle cells of infected tissues over time, but did not appear to be effective in limiting fungal penetration or spread. Callose, suberin, constitutive toxins and phytoalexins were not detected in infected tubercles, suggesting that there are no obvious defence mechanisms to overcome. Both Fusarium spp. pathogenic on Orobanche produced fumonisin-like ceramide synthase inhibitors, while fusaric acid was produced only by F. oxysporum in liquid culture. The organisms do not have sufficient virulence for field use (based on glasshouse testing), suggesting that virulence should be transgenically enhanced or additional isolates sought.

Published

2002

30. Engineering hypervirulence in a mycoherbicidal fungus for efficient weed control

Author

Jonathan Gressel, Barry A. Cohen, and Ziva Amsellem

Subjects

Crops, Agricultural, Genes, Fungal, Biomedical Engineering, Biological pest control, Virulence, Bioengineering, Colletotrichum coccodes, Applied Microbiology and Biotechnology, Crop, Species Specificity, Colletotrichum, Transgenes, Malvaceae, Ecosystem, biology, Herbicides, Mycoherbicide, fungi, Fungi, food and beverages, Agriculture, biology.organism_classification, Weed control, Plant Leaves, Agronomy, Molecular Medicine, Weed, Genetic Engineering, Biotechnology

Abstract

Agents proposed for biocontrol of major weeds in arable row-crop agriculture have not met expectations because an evolutionary balance has developed between microorganism and weed, even when the mycoherbicide is used inundatively at very high levels (>10(4)spores/cm

Published

2002

31. Synergized Mycoherbicides for Resistance Management

Author

Jonathan Gressel, Ziva Amsellem, D. Michaeli, and Amir Sharon

Subjects

Abutilon, Acetolactate synthase, geography, geography.geographical_feature_category, Resistance (ecology), biology, biology.organism_classification, Pasture, Crop, Agronomy, biology.protein, Monoculture, Weed, Bracken

Abstract

Despite the large number of excellent herbicides available, there are many cases where there are needs to control single weed species. These needs include: a) Weeds that have evolved resistance to a still favored herbicide. Typically, only a single weed (initially) evolves resistance under monoherbicide monoculture, and the herbicide still adequately controls all other weeds. b) There are weeds that are naturally resistant to the herbicide, and no selectivity is available (except by genetically engineering new resistance to the crop). This is typical when the weeds are within the same botanical family as the crops: e.g. Cassia in soybeans, Abutilon in cotton, barleys and bromes in wheat, etc. Parasitic weeds are often in this class; few selective herbicides control them. Recently, acetolactate synthase (ALS) inhibitors were shown to control parasites in legumes where there is a modicum of effective natural herbicide resistance (Gacia-Torres and Lopez-Granados, 1991), as well as where there is genetically-engineered herbicide resistance in crops (Joel et al., 1995). In such instances the parasitic weeds might join group (a), as weeds, including parasites rapidly evolve resistance to this herbicide group (Sibony et al., 1995). c) There are many cases where an especially high rate of a herbicide is needed to control one weed species and the rest of the weed spectrum can be controlled by lower rates. If this single weed spp. could be controlled by non-chemical means, then lower, more economical and less potentially polluting rates of the herbicide could be used. d) There are often problems with single weed spp., where herbicides cannot economically or easily be used. These include: (i) pasture weeds such as spurge and bracken, where herbicides can be uneconomical; (ii) urban situations with allergenic weeds, but spraying witht chemicals is unacceptable for any of a variety of reasons; (iii) narcotic weeds (that fit the definition of being deleterious to humanity), which need aerial treatment without damage to nearby crops.

Published

1997

32. SYNERGISED MYCOHERBICIDES - POTENTIAL AGENTS FOR CONTROLLING HERBICIDE-RESISTANT WEEDS

Author

Jonathan Gressel, Amir Sharon, and Ziva Amsellem

Subjects

Agronomy, Herbicide resistant, Biology

Published

1991

33. Complete Abolition of High Inoculum Threshold of Two Mycoherbicides (Alternaria cassiaeandA. crassa) When Applied in Invert Emulsion

Author

Ziva Amsellem, Amir Sharon, P. C. Quimby, and Jonathan Gressel

Subjects

Wax, Datura stramonium, Square Centimeter, fungi, Crassa, Plant Science, Biology, biology.organism_classification, Spore, Conidium, Horticulture, Cassia, visual_art, Emulsion, Botany, visual_art.visual_art_medium, Agronomy and Crop Science

Abstract

(...). The inoculum threshold of thousands of spores per square centimeter of leaf surface or tens to hundreds of spores per droplet has been expected and accepted. Evidence is presented that the high threshold concept does not hold with Alternaria cassiae and A. crassa, as one spore per 2-μl droplet was sufficient to infect plants of Cassia obtusifolia and Datura stramonium, respectively, when the droplet was an invert emulsion containig a 1μl mixture of oils and waxes on the outside and 1 μl of water, sodium alginate, and conidia on the inside. The intensity of infection always was enhanced by the emulsion (...)

Published

1990