2017
Kigel, J. ; Galili, G. .
Seed Development And Germination; 2017; pp. 1-853.
Publisher's VersionAbstractThis text is intended for plant physiologists, molecular biologists, biochemists, biotechnologists, geneticists, horticulturalists, agromnomists and botanists, and upper-level undergraduate and graduate students in these disciplines. It integrates advances in the diverse and rapidly-expanding field of seed science, from ecological and demographic aspects of seed production, dispersal and germination, to the molecular biology of seed development. The book offers a broad, multidisciplinary approach that covers both theoretical and applied knowledge. © 1995 by Marcel Dekker. All rights reserved.
Kigel, J. .
Seed Germination In Arid And Semiarid Regions; 2017; pp. 645-699.
Publisher's VersionAbstractArid and semiarid regions (i.e., deserts) cover about 30% of the world’s continents (except Europe) (Meigs, 1953). Deserts are frequently considered similar ecosystems, with water being the main limiting factor for their biota. This apparent similarity is, however, deceptive. In fact, deserts are extremely varied environments and differ in their climatic and edaphic conditions as well as in their biotic characteristics. Deserts vary in the amount of incident radiation and temperature [e.g., hot (Sahel) vs. cold (Patagonia) deserts], in the amount, frequency, and seasonal distribution of rainfall (e.g., deserts with winter, summer, biseasonal rains, or without seasonal rains), in the composition and geographic origin of their fauna and flora, and so forth. Despite their physical and biological diversification, all deserts are essentially regions of low and irregular rainfall in which évapotranspiration exceeds precipitation. Conditions favorable for plant growth usually occur in specific and rather scattered sites, during relatively short periods of time and sometimes even once in several years. Under such stringent selection, different adaptive strategies have evolved in desert plants, improving their fitness (i.e., individual survival and offspring production) under extreme conditions. These adaptive strategies are combinations of traits from different levels of biological organization and function (e.g., biochemical, physiological, developmental, genetic, demographic). Each of these traits contributes in a balanced and coordinated way to the fitness of the organism (Solbrig, 1993). On the other hand, plants from diverse taxa vary in their adapative potential to xeric conditions due to differences in morphological and physiological characteristics. Moreover, desert species may differ in their life cycle (annuals vs. perennials), life form (shrubs vs. herbaceous forms), timing of flowering, reproductive effort, seed dispersal, germination behavior, and so forth. It is not surprising, therefore, that diverse adaptive strategies are found in different taxa inhabiting deserts with contrasting environments. © 1995 by Marcel Dekker. All rights reserved.
Schoenbaum, I. ; Kigel, J. ; Ungar, E. D. ; Dolev, A. ; Henkin, Z. .
Spatial And Temporal Activity Of Cattle Grazing In Mediterranean Oak Woodland.
Applied Animal Behaviour Science 2017,
187, 45-53.
Publisher's VersionAbstractWe examined the temporal and spatial variation patterns of the grazing activity of free-ranging cattle in Mediterranean oak woodland in the Western Galilee, Israel, as affected by seasonal and management factors. The vegetation is dominated by scrub-oak woodland (Quercus calliprinos Webb.), interspersed with patches of semi-dwarf shrubs and herbaceous vegetation. High and moderate animal population densities of 0.55 and 0.33 cow ha−1, respectively, were replicated twice. Cattle behavior was monitored with activity sensors on GPS collars, and pedometers, and spatial data were processed with Geographic Information System (GIS) tools. Overall, cattle devoted 9.7 ± 0.7 h/day to grazing, mostly in woodland areas, although they are natural herbaceous grazers. Behavior was associated with seasonal changes in biotic and abiotic factors. Preference for the woody vegetation types was detectable over the annual time scale but large seasonal differences in preference canceled out to a large extent when viewed at that time scale. Cattle under high density spent more time grazing and made more use of woody vegetation and steeper slopes. Thus, relatively high population densities may be required for landscape-oriented management. The present findings should contribute to rational management of cattle grazing in Mediterranean woodlands. © 2016 Elsevier B.V.
Frenkel, E. ; Matzrafi, M. ; Rubin, B. ; Peleg, Z. .
Effects Of Environmental Conditions On The Fitness Penalty In Herbicide Resistant Brachypodium Hybridum.
Frontiers in Plant Science 2017,
8.
Publisher's VersionAbstractHerbicide-resistance mutations may impose a fitness penalty in herbicide-free environments. Moreover, the fitness penalty associated with herbicide resistance is not a stable parameter and can be influenced by ecological factors. Here, we used two Brachypodium hybridum accessions collected from the same planted forest, sensitive (S) and target-site resistance (TSR) to photosystem II (PSII) inhibitors, to study the effect of agro-ecological parameters on fitness penalty. Both accessions were collected in the same habitat, thus, we can assume that the genetic variance between them is relatively low. This allow us to focus on the effect of PSII TSR on plant fitness. S plants grains were significantly larger than those of the TSR plants and this was associated with a higher rate of germination. Under low radiation, the TSR plants showed a significant fitness penalty relative to S plants. S plants exhibiting dominance when both types of plants were grown together in a low-light environment. In contrast to previous documented studies, under high-light environment our TSR accession didn’t show any significant difference in fitness compared to the S accession. Nitrogen deficiency had significant effect on the R compared to the S accession and was demonstrated in significant yield reduction. TSR plants also expressed a high fitness penalty, relative to the S plants, when grown in competition with wheat plants. Two evolutionary scenarios can be suggested to explain the coexistence of both TSR and S plants in the same habitat. The application of PSII inhibitors may have created selective pressure toward TSR dominancy; termination of herbicide application gave an ecological advantage to S plants, creating changes in the composition of the seed bank. Alternatively, the high radiation intensities found in the Mediterranean-like climate may reduce the fitness penalty associated with TSR. Our results may suggest that by integrating non-herbicidal approaches into weed-management programs, we can reduce the agricultural costs associated with herbicide resistance. © 2017 Frenkel, Matzrafi, Rubin and Peleg.
Yair, Y. ; Sibony, M. ; Rubin, B. .
Four Ambrosia Species In Israel: Invasive, Naturalized And Casual Alien Plants.
Israel Journal of Plant Sciences 2017,
64, 93-98.
Publisher's VersionAbstractFour Ambrosia species are currently identified in Israel: The invasive perennial species Ambrosia confertiflora DC., the naturalized perennial species Ambrosia tenuifolia Spreng. and Ambrosia psilostachya DC., and the casual annual species Ambrosia artemisiifolia L. In this study, we performed a comparative analysis of three species: A. confertiflora, A. tenuifolia, and A. artemisiifolia. We found differences in morphology, growth and flowering phenology and physiology that may explain, besides climatic constraints, the factors involved in the differing invasion status of these species in Israel. A. artemisiifolia and A. confertiflora use strategies typical of invasive species: Rapid growth and regeneration, phenotypic plasticity and reproductive ability. These characteristics have enabled the spread of A. confertiflora in Israel. However, A. artemisiifolia has not become established in Israel due to the country's dry summers. The naturalized populations have survived in ecological niches in Israel for many years, but due to their slow growth and low numbers of viable achenes, they have not spread. © 2017 by Koninklijke Brill NV, Leiden, The Netherlands.
Chaimovitsh, D. ; Shachter, A. ; Abu-Abied, M. ; Rubin, B. ; Sadot, E. ; Dudai, N. .
Herbicidal Activity Of Monoterpenes Is Associated With Disruption Of Microtubule Functionality And Membrane Integrity.
Weed Science 2017,
65, 19-30.
Publisher's VersionAbstractAromatic plants and their volatile compounds affect seed germination and plant growth, and therefore hold potential for agriculture uses as plant growth regulators and bioherbicides. In the present study 17 major monoterpenes were selected, and their mechanisms of plant toxicity were elucidated using transgenic Arabidopsis thaliana at various growth stages. Microtubulin and the plant cell membrane were identified as the focal targets through which phytotoxicity and herbicidal activity acted. Variability in monoterpene mechanisms was observed. Limonene and (+)-citronellal had strong antimicrotubule efficacy, whereas citral, geraniol, (-)-menthone, (+)-carvone, and (-)-citronellal demonstrated moderate antimicrotubule efficacy. Pulegone, (-)-carvone, carvacrol, nerol, geranic acid, (+)/(-)-citronellol, and citronellic acid lacked antimicrotubule capacity. An enantioselective disruption of microtubule assembly was recorded for (+)/(-)-citronellal and (+)/(-)-carvone. The (+) enatiomers were more potent than their (-) counterparts. Citral, limonene, carvacrol, and pulegone were also tested for phytotoxicity and herbicidal activity. Pulegone had no detectable effect on microtubules or membranes. Citral disrupted microtubules but did not cause membrane damage. Carvacrol lacked a detectable effect on microtubules but incited membrane leakage, and limonene disrupted microtubules and membrane leakage. Therefore, only limonene was herbicidal at the tested concentrations. In planta quantification of residues revealed that citral was biotransformed into nerol and geraniol, and limonene was converted into carvacrol, which could explain its dual capacity with respect to microtubules and membrane functionality. The results obtained are an important added value to commercial efforts in selecting appropriate aromatic plants to be sources of bioherbicidal compounds for sustainable weed management with a limited potential for herbicide resistance evolution in weed populations. Nomenclature: Arabidopsis thaliana, citral, limonene, pulegone, carvacrol. © Weed Science Society of America, 2016.
Paporisch, A. ; Rubin, B. .
Isoxadifen Safening Mechanism In Sweet Corn Genotypes With Differential Response To P450-Metabolized Herbicides.
Pesticide Biochemistry and Physiology 2017,
138, 22-28.
Publisher's VersionAbstractThree sweet corn genotypes, two inbred lines (IBER001 and IBER002) and their hybrid (ER00X), differ in their phenotypic responses to several P450-metabolized herbicides, used in sweet corn, namely, foramsulfuron, iodosulfuron, rimsulfuron and tembotrione. Foramsulfuron is a sulfonylurea herbicide commonly formulated with the safener isoxadifen that is used for selective post-emergence weed control in corn. Our goal was to elucidate the mechanism of these genotypes’ responses to foramsulfuron and safener isoxadifen and examine the heritability of those responses. IBER001 was sensitive to foramsulfuron + isoxadifen, with an ED50 of 3.6 g ai ha− 1, while IBER002 and ER00X were tolerant with ED50 values of 808 and 700 g ai ha− 1, respectively. ALS enzyme extracted from each of the different genotypes was equally sensitive to foramsulfuron. Pre-treatment with malathion, a known cytochrome P450 inhibitor, increased foramsulfuron injury in IBER002 and ER00X, but had no effect on those lines when isoxadifen was applied with the herbicide. Foramsulfuron-treated IBER001 was severely injured regardless of the presence of malathion and/or isoxadifen. Pre-treatment with malathion similarly increased the phytotoxicity of iodosulfuron + safener (mefenpyr) and rimsulfuron to the tolerant genotypes, but did not increase the level of injury caused by the tembotrione + isoxadifen treatment. Segregation of F2 and backcross progenies according to their responses to foramsulfuron + isoxadifen revealed a pattern of inheritance typical of a trait controlled by a single gene inheritance, with a recessive allele conferring sensitivity. Our results support the hypothesis that foramsulfuron selectivity is associated with P450 metabolism and that isoxadifen positively affects P450 activity. The sensitive genotype that does not respond to isoxadifen is presumably homozygous for a deficient or non-functioning P450 gene. © 2017 Elsevier Inc.
Kleinman, Z. ; Rubin, B. .
Non-Target-Site Glyphosate Resistance In Conyza Bonariensis Is Based On Modified Subcellular Distribution Of The Herbicide.
Pest Management Science 2017,
73, 246-253.
Publisher's VersionAbstractBACKGROUND: Conyza spp. were the first broadleaf weeds reported to have evolved glyphosate resistance. Several mechanisms have been proposed for glyphosate resistance. In an effort to elucidate the mechanism of this resistance in Conyza bonariensis, possible target-site and non-target-site mechanisms were investigated in glyphosate-resistant (GR) C. bonariensis biotypes. RESULTS: Using differential glyphosate applications and analyses of shikimate accumulation, we followed the herbicide effect in different plant organs and monitored the herbicide's apparent mobility. We found high shikimate levels in the roots and young leaves of glyphosate-sensitive (GS) plants, regardless of the site of application, whereas in GR plants, shikimate accumulated mainly in treated young leaves. 14C-glyphosate studies, however, revealed the expected source-to-sink translocation pattern in both GS and GR plants. Sequencing of the appropriate EPSPS DNA fragments of GR and GS plants revealed no alteration at the Pro106 position. CONCLUSION: These data support the hypothesis that the glyphosate resistance of our C. bonariensis GR biotypes is associated with altered subcellular distribution of glyphosate, which keeps the herbicide sequestered away from the EPSPS target site in the chloroplast. © 2016 Society of Chemical Industry. © 2016 Society of Chemical Industry
Sacks, M. ; Kafkafi, U. ; Ziv, O. ; Salim, S. ; Meir, S. ; Philosoph-Hadas, S. ; Kenig, E. ; Tamari, Y. ; Natan, R. ; Shlomo, E. ; et al. Effects Of Nutrient Supply On Production And Quality Of Cut Flowering Branches Of Grevillea &Quot;Spiderman&Quot;.
Israel Journal of Plant Sciences 2017,
64, 114-123.
Publisher's VersionAbstractThe irrigation and fertilization regime of different varieties of Grevillea in Israel are based on existing knowledge for growing various varieties of the Proteaceae family for production of cut flowering branches. However, growers face problems in cultivating Grevillea "Spiderman," such as leaf chlorosis, prolonged growth until flowering, and reduced quality of cut flowering branches. The present study aimed to examine whether these problems stem from deficiency or excess of Fe, Mn, Zn, P, and Mg, focusing on the effect of these nutrients on growth, flowering, and appearance of visual leaf symptoms and on yield, quality, and vase life longevity of cut flowering branches. The nutrient treatments significantly affected plant development and flowering. Increasing the Fe concentration from 1 to 2 or 3 mg l-1 resulted in improved leaf color, from slightly yellow to dark green. The combination of 2 mg l-1 Fe + 1.8 mg l-1 Mn resulted in early flowering, highest yield, and development of long lateral branches. Low levels of P caused in the first year of treatment leaf chlorosis, which was intensified during the third year, resulting in severe yellowing of the flowering branches. Leaf necrosis and tip burn appeared in treatments with high concentrations of Zn, Mn, and Mg. Deficiency of Fe and Mn and high concentration of P and Mg led to the development of a large number of branches without flowers. The optimal fertilization treatment that yielded the highest quality of flowering branches after harvest was 2 mg l-1 Fe. Branches of this treatment had green foliage at harvest and the longest vase life (10 days) following the recommended postharvest treatment and air transport simulation. Based on the findings of the present research, it can be concluded that the problems in the cultivation of G. "Spiderman," such as leaf chlorosis, delayed flowering, and reduced quality of flowering branches, result from improper fertilization. © 2017 by Koninklijke Brill NV, Leiden, The Netherlands.
Goldschmidt, E. E. ; Koch, K. E. .
Citrus; 2017; pp. 797-824.
Publisher's VersionAbstractThe group of evergreen fruit trees includes numerous horticulturally and economically important crops, the best known of which are probably date palm, olive, Citrus spp., mango, coconut and avocado. Citrus is the only member of the group discussed in detail in the present volume. It seems appropriate, therefore, to give some thought to general attributes of this group and consider their relevance to source-sink relationships. © 1996 by Marcel Dekker, Inc. All Rights Reserved.
Gorovits, R. ; Czosnek, H. .
The Involvement Of Heat Shock Proteins In The Establishment Of Tomato Yellow Leaf Curl Virus Infection.
Frontiers in Plant Science 2017,
8.
Publisher's VersionAbstractTomato yellow leaf curl virus (TYLCV), a begomovirus, induces protein aggregation in infected tomatoes and in its whitefly vector Bemisia tabaci. The interactions between TYLCV and HSP70 and HSP90 in plants and vectors are necessity for virus infection to proceed. In infected host cells, HSP70 and HSP90 are redistributed from a soluble to an aggregated state. These aggregates contain, together with viral DNA/proteins and virions, HSPs and components of the protein quality control system such as ubiquitin, 26S proteasome subunits, and the autophagy protein ATG8. TYLCV CP can form complexes with HSPs in tomato and whitefly. Nonetheless, HSP70 and HSP90 play different roles in the viral cell cycle in the plant host. In the infected host cell, HSP70, but not HSP90, participates in the translocation of CP from the cytoplasm into the nucleus. Viral amounts decrease when HSP70 is inhibited, but increase when HSP90 is downregulated. In the whitefly vector, HSP70 impairs the circulative transmission of TYLCV; its inhibition increases transmission. Hence, the efficiency of virus acquisition by whiteflies depends on the functionality of both plant chaperones and their cross-talk with other protein mechanisms controlling virus-induced aggregation. © 2017 Gorovits and Czosnek.
Simon, Y. ; Levavi-Sivan, B. ; Cahaner, A. ; Hulata, G. ; Antler, A. ; Rozenfeld, L. ; Halachmi, I. .
A Behavioural Sensor For Fish Stress.
Aquacultural Engineering 2017,
77, 107-111.
Publisher's VersionAbstractDue to water turbidity, fish stress might be difficult to observe. Evaluation of fish stress by blood sampling requires removing a fish from the water, which is in itself a stressful event. Therefore, we designed and built a sensor to detect fish behaviour that reflects stress. The electronic sensor detected early signs of fish stress by scoring the fish's inactivity. LEDs and detectors are embedded on a steel wand that is held underwater by an operator. In this preliminary (feasibility) study, the new sensor was validated for Tilapia (Cichlidae) and Hybrid Striped Bass (Morone). We induced stressful situations in the fish tanks by manipulating oxygen and temperature levels. Results Lowering the temperature and oxygen levels both significantly increased the average number of signals identified by the sensor, which indicate stress. The effect of reducing water temperature from 24 °C to 15 °C was three times stronger than was the effect of lowering the oxygen saturation level from 85% to 50%. The difference in the number of signals between the good and stressful conditions was statistically significant, amounting to approximately eight sensor signals, 10.57 compared to 2.49 respectively. Lowering the temperature increased the mean number of signals by 5.85 and 6.06 at 85% and 50% oxygen saturation respectively, whereas lowering oxygen levels increased the mean number of signals by 2.02 and 2.23 at 24 °C and 15 °C, respectively. The results indicate that the stress status of cultured fish can be evaluated using the proposed behavioural sensor. The new sensor may provide an earlier indication of a problem in a fish tank or pond than was heretofore possible. This early warning can enable the fish farmer to take action before many fish are harmed. © 2017
Yair, R. ; Cahaner, A. ; Uni, Z. ; Shahar, R. .
Maternal And Genetic Effects On Broiler Bone Properties During Incubation Period.
Poultry science 2017,
96, 2301-2311.
Publisher's VersionAbstractIn order to examine the differences in bone properties between fast-growing and slow-growing broiler embryos and to understand the effects of genotype and egg size on these differences, fast- and slow-growing hens and males were reciprocally crossed to create 4 egg groups: FST (laid by fast-growing hens, inseminated by fast-growing males), H-FST (fast-growing hens and slow-growing males), H-SLW (slow-growing hens and fast-growing males), and SLW (slow-growing hens and slow-growing males). Embryos (n = 8) from these 4 groups were sacrificed and weighed, and both tibiae were harvested on embryonic d (E) 17, 19, and 21. Left tibiae were tested for their whole-bone mechanical properties using a micromechanical device. Cortical bone structure and bone mineral density (BMD) were examined by micro-computed tomography of the left tibiae. Bone mineralization was evaluated by measuring BMD and ash content, while the rate and location of mineralization were evaluated by fluorochrome labeling. Osteoclastic activity and osteocyte density were evaluated by histological stains [TRAP (Tartrate resistant acid phosphatase) and H&E (Hematoxylin and Eosin), respectively]. Groups with larger eggs (FST and H-FST) had higher BW and tibia weight than groups with smaller eggs (SLW and H-SLW); however, they had a lower ratio of tibia weight to BW. Between groups with similar egg weight, stiffness, maximal load, and yield load of the bones were higher in the SLW than the H-SLW, while no differences were found between the FST and H-FST. Additionally, the tibiae of the SLW were stiffer and their osteocyte density higher than in the FST on E21 and their periosteal mineralization rate was higher between E19 and E21. No differences were found between the groups in cortical bone structure. This study demonstrates that faster growing hatchlings, especially those that hatch from relatively small eggs, have inferior bone mechanical properties in comparison to slower growing hatchlings, and suggests that fast-growing chicks hatching from small eggs are at a higher risk for developing bone pathologies. Accordingly, selection for increased egg size may lead to improved mechanical performance of the skeleton of fast-growing broilers. © 2017 Poultry Science Association Inc.
Abbo, S. ; Gopher, A. ; Lev-Yadun, S. .
The Domestication Of Crop Plants. In
Encyclopedia of Applied Plant Sciences (Second Edition);
Thomas, B. ; Murray, B. G. ; Murphy, D. J., Eds.; Academic Press: Oxford, 2017; pp. 50 - 54.
Publisher's VersionAbstractFood production economies based on domesticated plants and livestock is a relatively recent phenomenon in the human career. Packages of nutritionally and agronomically balanced crop plants evolved independently in several world regions including sub-Saharan Africa, Meso-America, North-east America, East Asia, and the Near East. The longest research tradition on the origins of agriculture concerning the Near East on which we elaborate. Geobotanical and ecological evidence on the wild progenitors in conjunction with archaeological and archaeobotanical data of the Near Eastern crop package species enable the reconstruction of this major event in the prehistory of humankind. The accumulated evidence from the Near East suggests a geographically focused/centered, and knowledge-based domestication of a suite of cereals and grain legume crops. Genetic and agronomic considerations enable to draw a distinction between the crucial traits underlying the domestication episode and traits that were selected for by farmers during the millennia following (under) domestication. This distinction is valuable for both reconstructing prehistoric events and for future crop improvement.
Shoseyov, O. .
Nature'S Gift.
Fiber Society 2017 Fall Meeting and Technical Conference and International Symposium on Materials from Renewables, ISMR 2017: Advanced, Smart, and Sustainable Polymers, Fibers, and Textiles, 2017.
Publisher's Version Shilo, T. ; Rubin, B. ; Plakhine, D. ; Gal, S. ; Amir, R. ; Hacham, Y. ; Wolf, S. ; Eizenberg, H. .
Secondary Effects Of Glyphosate Action In Phelipanche Aegyptiaca: Inhibition Of Solute Transport From The Host Plant To The Parasite.
Frontiers in Plant Science 2017,
8, 255.
Publisher's VersionAbstractIt is currently held that glyphosate efficiently controls the obligate holoparasite Phelipanche aegyptiaca (Egyptian broomrape) by inhibiting its endogenous shikimate pathway, thereby causing a deficiency in aromatic amino acids (AAA). While there is no argument regarding the shikimate pathway being the primary site of the herbicide's action, the fact that the parasite receives a constant supply of nutrients, including proteins and amino acids, from the host does not fit with an AAA deficiency. This apparent contradiction implies that glyphosate mechanism of action in P. aegyptiaca is probably more complex and does not end with the inhibition of the AAA biosynthetic pathway alone. A possible explanation would lie in a limitation of the translocation of solutes from the host as a secondary effect. We examined the following hypotheses: (a) glyphosate does not affects P. aegyptiaca during its independent phase and (b) glyphosate has a secondary effect on the ability of P. aegyptiaca to attract nutrients, limiting the translocation to the parasite. By using a glyphosate-resistant host plant expressing the “phloem-mobile” green fluorescent protein (GFP), it was shown that glyphosate interacts specifically with P. aegyptiaca, initiating a deceleration of GFP translocation to the parasite within 24 h of treatment. Additionally, changes in the entire sugars profile (together with that of other metabolites) of P. aegyptiaca were induced by glyphosate. In addition, glyphosate did not impair germination or seedling development of P. aegyptiaca but begun to exert its action only after the parasite has established a connection to the host vascular system and became exposed to the herbicide. Our findings thus indicate that glyphosate does indeed have a secondary effect in P. aegyptiaca, probably as a consequence of its primary target inhibition—via inhibition of the translocation of phloem-mobile solutes to the parasite, as was simulated by the mobile GFP. The observed disruption in the metabolism of major sugars that are abundant in P. aegyptiaca within 48 h after glyphosate treatment provides a possible explanation for this inhibition of translocation and might reflect a critical secondary effect of the herbicide's primary action that results in loss of the parasite's superior sink for solutes.
Ravid, J. ; Spitzer-Rimon, B. ; Takebayashi, Y. ; Seo, M. ; Cna'ani, A. ; Aravena-Calvo, J. ; Masci, T. ; Farhi, M. ; Vainstein, A. .
Ga As A Regulatory Link Between The Showy Floral Traits Color And Scent.
New Phytologist 2017,
215, 411-422.
Publisher's VersionAbstractSummary Emission of volatiles at advanced stages of flower development is a strategy used by plants to lure pollinators to the flower. We reveal that GA negatively regulates floral scent production in petunia. We used Agrobacterium-mediated transient expression of GA-20ox in petunia flowers and a virus-induced gene silencing approach to knock down DELLA expression, measured volatile emission, internal pool sizes and GA levels by GC-MS or LC–MS/MS, and analyzed transcript levels of scent-related phenylpropanoid-pathway genes. We show that GA has a negative effect on the concentrations of accumulated and emitted phenylpropanoid volatiles in petunia flowers; this effect is exerted through transcriptional/post-transcriptional downregulation of regulatory and biosynthetic scent-related genes. Both overexpression of GA20-ox, a GA-biosynthesis gene, and suppression of DELLA, a repressor of GA-signal transduction, corroborated GA's negative regulation of floral scent. We present a model in which GA-dependent timing of the sequential activation of different branches of the phenylpropanoid pathway during flower development may represent a link between the showy traits controlling pollinator attraction, namely color and scent.
Cna'ani, A. ; Shavit, R. ; Ravid, J. ; Aravena-Calvo, J. ; Skaliter, O. ; Masci, T. ; Vainstein, A. .
Phenylpropanoid Scent Compounds In Petunia X Hybrida Are Glycosylated And Accumulate In Vacuoles.
Frontiers in Plant Science 2017,
8, 1898.
Publisher's VersionAbstractFloral scent has been studied extensively in the model plant Petunia. However, little is known about the intracellular fate of scent compounds. Here, we characterize the glycosylation of phenylpropanoid scent compounds in Petunia x hybrida. This modification reduces scent compounds' volatility, reactivity, and autotoxicity while increasing their water-solubility. Gas chromatography–mass spectrometry (GC–MS) analyses revealed that flowers of petunia cultivars accumulate substantial amounts of glycosylated scent compounds and that their increasing level parallels flower development. In contrast to the pool of accumulated aglycones, which drops considerably at the beginning of the light period, the collective pool of glycosides starts to increase at that time and does not decrease thereafter. The glycoside pool is dynamic and is generated or catabolized during peak scent emission, as inferred from phenylalanine isotope-feeding experiments. Using several approaches, we show that phenylpropanoid scent compounds are stored as glycosides in the vacuoles of petal cells: ectopic expression of Aspergillus niger β-glucosidase-1 targeted to the vacuole resulted in decreased glycoside accumulation; GC–MS analysis of intact vacuoles isolated from petal protoplasts revealed the presence of glycosylated scent compounds. Accumulation of glycosides in the vacuoles seems to be a common mechanism for phenylpropanoid metabolites.
Abraham, E. ; Weber, D. E. ; Sharon, S. ; Lapidot, S. ; Shoseyov, O. .
Multifunctional Cellulosic Scaffolds From Modified Cellulose Nanocrystals.
ACS Applied Materials & InterfacesACS Applied Materials & Interfaces 2017,
9, 2010 - 2015.
Publisher's VersionAbstractA biobased cellulosic scaffold material was made through freeze-drying ice-templating of functionalized cellulosic nanomaterials. The resulting interconnected highly porous scaffold was primarily composed of highly esterified, strong network of ultrathin cellulosic layers. The prepared cellulosic scaffold material displayed multifunctional properties of hydrophobicity, oleophilicity and lipophilicity, which could selectively absorb milkfat, hydrophobic proteins, various organic solvents and oils. Diverse potential for the structural and medical applications, such as tissue engineering, drug delivery, and oil and fat accumulation are proposed.A biobased cellulosic scaffold material was made through freeze-drying ice-templating of functionalized cellulosic nanomaterials. The resulting interconnected highly porous scaffold was primarily composed of highly esterified, strong network of ultrathin cellulosic layers. The prepared cellulosic scaffold material displayed multifunctional properties of hydrophobicity, oleophilicity and lipophilicity, which could selectively absorb milkfat, hydrophobic proteins, various organic solvents and oils. Diverse potential for the structural and medical applications, such as tissue engineering, drug delivery, and oil and fat accumulation are proposed.