Your search keyword '"Hijaz F"' showing total 43 results

1. Frozen beef contamination after exposure to low levels of ammonia gas

Author

Karim, F., Hijaz, F., Kastner, C.L., and Smith, J.S.

Subjects

Ammonia -- Environmental aspects, Beef -- Contamination, Beef -- Storage, Phenols -- Chemical properties, Phenols -- Usage, Cold storage -- Evaluation, Business, Food/cooking/nutrition

Published

2010

2. Entity-Relationship analysis for development of Malaysian University Research Assessment Instrument (MyRA) information system

Author

Yassin, I. M., primary, Zabidi, A., additional, Johari, M. A., additional, Hijaz, F., additional, Yussuf Izzudin, A. H., additional, Tahir, N. M., additional, Hamzah, M. K., additional, and Abdul Majeed, A. B., additional

Published

2011

3. Ammonia ion selective electrode and indophenol methods can be used successfully to evaluate meat contaminated by ammonia

Author

Hijaz, F., primary, Smith, J. Scott, additional, and Kastner, Curtis L., additional

Published

2007

4. ARCc: A case for an architecturally redundant cache-coherence architecture for large multicores.

Author

Khan, O., Hoffmann, H., Lis, M., Hijaz, F., Agarwal, A., and Devadas, S.

Published

2011

5. Survey of fall detection and daily activity monitoring techniques.

Author

Hijaz, F., Afzal, N., Ahmad, T., and Hasan, O.

Published

2010

6. Systemic Uptake of Oxytetracycline and Streptomycin in Huanglongbing-Affected Citrus Groves after Foliar Application and Trunk Injection.

Author

Vincent CI, Hijaz F, Pierre M, and Killiny N

Abstract

Huanglongbing (HLB), which is caused by the phloem-limited bacterium ' Candidatus Liberibacter asiaticus,' is an economically important disease of citrus in many regions of the world. Due to the significant damage caused by the HLB disease in recent years, the use of antibiotics was recommended for the therapy of this destructive disease. Products with active ingredients oxytetracycline and streptomycin have been approved for the control of the HLB via foliar application. However, previous work raised questions about the efficacy of foliar delivery of antibiotics in the field. In this study, we examined the effects of a variety of adjuvants on the uptake of oxytetracycline and streptomycin using the foliar application. We also compared the efficiency of foliar application of oxytetracycline and streptomycin with trunk injection. The ' Ca . L. asiaticus' titers in citrus plants were measured using quantitative PCR, and the levels of antibiotics were determined using the ELISA assay. Our results include extremely low levels of oxytetracycline and streptomycin in leaves that were covered during foliar application, indicating that neither streptomycin nor oxytetracycline was successfully systemically delivered by foliar application even after being mixed with adjuvants. Likewise, the ' Ca . L. asiaticus' titer0 was not affected by any of the foliar applications. High levels of streptomycin were detected in leaves that were exposed to direct foliar application, indicating that streptomycin was adsorbed or bound to citrus leaves. On the other hand, the trunk injection of oxytetracycline resulted in high levels of this antibiotic in leaves and significantly reduced the level of ' Ca. L. asiaticus' titer in citrus trees. Unfortunately, the trunk injection of streptomycin resulted in low levels of streptomycin in citrus leaves and did not affect the ' Ca. L. asiaticus' titer, indicating that streptomycin was either bound in the xylem of citrus trees or it was not applied in sufficient quantity required for the inhibition of 'Ca. L. asiaticus.' Taken together, our current results demonstrated that foliar application of oxytetracycline and streptomycin did not effectively deliver antibiotics in citrus despite using adjuvants. Our results also suggested that oxytetracycline could be more effective against the HLB pathogen than streptomycin, which is possibly due to differences between the two in systemic movement in citrus trees.

Published

2022

7. Detection of Oxytetracycline in Citrus Phloem and Xylem Saps Using Europium-Based Method.

Author

Hijaz F, Nehela Y, Batuman O, and Killiny N

Abstract

Oxytetracycline (OTC) has been used for the control of several plant diseases and was recently approved for the control of Huanglongbing, the citrus greening disease. Huanglongbing is caused by the phloem limited ' Candidatus Liberibacter asiaticus'. Determination of OTC in the xylem and phloem of citrus plants is of great interest as they are the main routes of translocation in citrus. In addition, the determination of the level of OTC in the phloem sap is necessary for the control of the ' Ca. L. asiaticus' pathogen, which resides in the phloem. Herein, we demonstrated that the level of OTC in the citrus phloem and xylem saps obtained using the centrifugation method can be successfully measured using the europium (Eu) method directly or with cleanup by solid-phase extraction (SPE). Recovery of OTC from spiked sap samples purified by solid-phase extraction (SPE) was higher than 90%, while recovery from saps without SPE cleanup were nearly 100%. The ' Ca. L. asiaticus'-infected leaf and phloem sap samples showed higher inhibition of the fluorescence intensity of the OTC standard compared to non-infected control leaf and phloem samples. In agreement with this finding, the levels of phenols and flavonoids in ' Ca. L. asiaticus'-infected leaves were higher than those controls and were shown to interfere with the Eu method. Therefore, the SPE cleanup step only improved OTC recovery from leaf samples containing the interfering compounds. The Eu method was then used to determine OTC levels in the phloem and xylem sap of OTC-treated plants, and the results were similar whether measured directly or after SPE. Visualization under ultraviolet light (400 nm) showed the presence of OTC in citrus xylem and phloem saps with and without the use of SPE.

Published

2021

8. Citrate Mediated Europium-Based Detection of Oxytetracycline in Citrus Tissues.

Author

Hijaz F, Nehela Y, Batuman O, and Killiny N

Abstract

Oxytetracycline (OTC) and streptomycin have been used for the control of several plant diseases and were recently permitted for the control of citrus greening disease, Huanglongbing. Consequently, sensitive and reliable methods are highly needed for the detection of OTC in citrus tissues. Herein, we studied the replacement of cetyltrimethylammonium chloride (CTAC) by citrate (Cit) as a sensitizing agent for the analysis of OTC in citrus tissues using the recently established europium (Eu) method. In addition, we determined the optimal conditions for the formation of the Eu-OTC-Cit ternary complex in tris buffer. Our results showed that the plant matrix significantly decreased the fluorescence intensity of the Eu-OTC-Cit complex even after the replacement of CTAC. Our investigations showed that phenols such as gallic acid degrade slowly at high pH and their degradation was enhanced in the presence of the (Eu +3 ) cation. To reduce the plant matrix interference, the sample extract was cleaned using solid-phase extraction (SPE). The OTC recoveries from spiked healthy and Candidatus Liberibacter asiaticus ( C Las)-infected trees were 91.4 ± 7.8% and 82.4 ± 3.9%, respectively. We also used the citrate method to determine the level of OTC in trunk-injected trees. The level of OTC as measured using the Eu-OTC-Cit complex (117.5 ± 20.3 µg g -1 fresh weight "FWT") was similar to that measured using Eu-OTC-CTAC complex (97.5 ± 14 µg g -1 FWT). In addition, we were able to visualize the OTC in citrus leaf extract, under ultraviolet light (400 nm), after it was cleaned with the SPE. Our study showed that the citrate can be successfully used to replace the harmful CTAC surfactant, which could also react with phenols.

Published

2021

9. Development of Europium-Sensitized Fluorescence-Based Method for Sensitive Detection of Oxytetracycline in Citrus Tissues.

Author

Hijaz F, Nehela Y, Gonzalez-Blanco P, and Killiny N

Abstract

Antimicrobial compounds have been successfully used to control many plant and animal diseases. Recently, oxytetracycline (OTC) and streptomycin have been approved for the treatment of Huanglongbing in citrus. Since the application of OTC is under strict regulations, several methods have been developed to determine and monitor its levels in the environment including high-performance liquid chromatography, ELISA, colorimetric, and fluorometric assays. In this study, we developed a fluorometric method for the determination of OTC in plant tissues based on its complexation with europium. Our preliminary trials showed that phenols and flavonoids interfere with the europium assay by reacting with the sensitizing reagent, cetyltrimethylammonium chloride. Consequently, we used the 60 mg hydrophilic-lipophilic balanced (HLB) cartridges to purify the OTC from the plant matrix. The recovery of OTC from spiked leaf samples was 75 ± 7.6%. Using the 500 mg HLB, we were able to detect 0.3 ppm OTC in the final sample extract, which corresponds to 3 µg g -1 fresh weight (FWT). The developed method was successfully used to measure the level of OTC in leaves obtained from trunk-injected trees. The results obtained by the europium method were similar to those obtained using the ELISA assay. We also tested the cross-reactivity of OTC metabolites with the europium method. The 4- epi -OTC showed a high cross-reactivity (50.0 ± 3.6%) with europium assay, whereas α- apo -OTC and β- apo -OTC showed small cross-reactivity. We showed that the europium-sensitized fluorescence-based method can be successfully used to assess OTC in citrus plant tissues after a cleanup step. Our results showed that this method was sensitive, reproducible, and can be used to analyze many samples simultaneously.

Published

2021

10. Metabolic Profiling of Hybrids Generated from Pummelo and Citrus latipes in Relation to Their Attraction to Diaphorina citri , the Vector of Huanglongbing.

Author

Killiny N, Jones SE, Hijaz F, Kishk A, Santos-Ortega Y, Nehela Y, Omar AA, Yu Q, Gmitter FG Jr, Grosser JW, and Dutt M

Abstract

The citrus industry at present is severely affected by huanglongbing disease (HLB). HLB is caused by the supposed bacterial pathogen " Candidatus Liberibacter asiaticus" and is transmitted by the insect vector, the Asian citrus psyllid, Diaphorina citri Kuwayama. Developing new citrus hybrids to improve HLB management is much needed. In this study, we investigated the metabolomic profiles of three new hybrids produced from the cross of C2-5-12 Pummelo ( Citrus maxima (L.) Osbeck) × pollen from Citrus latipes . The hybrids were selected based on leaf morphology and seedling vigor. The selected hybrids exhibited compact and upright tree architecture as seen in C. latipes . Hybrids were verified by simple sequence repeat markers, and were subjected to metabolomic analysis using gas chromatography-mass spectrometry. The volatile organic compounds (VOCs) and polar metabolites profiling also showed that the new hybrids were different from their parents. Interestingly, the levels of stored VOCs in hybrid II were higher than those observed in its parents and other hybrids. The level of most VOCs released by hybrid II was also higher than that released from its parents. Additionally, the preference assay showed that hybrid II was more attractive to D. citri than its parents and other hybrids. The leaf morphology, compact and upright architecture of hybrid II, and its attraction to D. citri suggest that it could be used as a windbreak and trap tree for D. citri (double duty), once its tolerance to HLB disease is confirmed. Our results showed that metabolomic analysis could be successfully used to understand the biochemical mechanisms controlling the interaction of D. citri with its host plants.

Published

2020

11. The Role of the Xylem in Oxytetracycline Translocation within Citrus Trees.

Author

Hijaz F, Nehela Y, Al-Rimawi F, Vincent CI, and Killiny N

Abstract

Antibiotics have been successfully used to control plant diseases for more than fifty years. Recently, oxytetracycline and streptomycin have been approved for the treatment of Huanglongbing, which is threatening the citrus industry in many regions. Because the efficiency of antibiotics in planta is highly affected by their movement and distribution, understanding the mechanism of antibiotics' uptake and distribution could lead to a better control of plant pathogens. Herein, we investigated the movement of oxytetracycline within citrus plants. Oxytetracycline was applied by root drenching to both girdled and non-girdled citrus seedlings. In addition, oxytetracycline was applied by trunk injection to girdled and non-girdled citrus trees. After the exposure time (24 h), citrus seedlings were dissected and the levels of oxytetracycline in the different tissues were measured using an oxytetracycline ELISA kit. Upon root application (laboratory experiment), oxytetracycline was detected in the inner part of the stem (xylem-associated tissue), cortex (phloem-associated tissue), and leaves above and below the girdled area. Likewise, oxytetracycline was also detected in leaves of trunk-injected field trees (girdled and non-girdled) three days post treatment. Interestingly, cortex girdling did not affect the distribution and translocation of oxytetracycline, indicating that the xylem is the main path for oxytetracycline translocation. Taken together, our results indicate that oxytetracycline translocation mainly occurs via xylem vessels, and that movement into the phloem occurs subsequent to xylem translocation. Our findings also clearly demonstrated that upon trunk injection, only trace levels of oxytetracycline reached the roots, minimizing its therapeutic value there. Thus, our recommendation is to time tree injections to coincide with the flushing periods when the bacteria are moving into new shoots to maximize the efficiency of oxytetracycline.

Published

2020

12. Effect of Adjuvants on Oxytetracycline Uptake upon Foliar Application in Citrus.

Author

Killiny N, Hijaz F, Gonzalez-Blanco P, Jones SE, Pierre MO, and Vincent CI

Abstract

Recently in Florida, foliar treatments using products with the antibiotics oxytetracyclineand streptomycin have been approved for the treatment of citrus Huanglongbing (HLB), which iscaused by the putative bacterial pathogen ' Candidatus Liberibacter asiaticus'. Herein, we assessedthe levels of oxytetracycline and ' Ca . L. asiaticus' titers in citrus trees upon foliar applications withand without a variety of commercial penetrant adjuvants and upon trunk injection. The level ofoxytetracycline in citrus leaves was measured using an oxytetracycline ELISA kit and ' Ca . L.asiaticus' titer was measured using quantitative PCR. Low levels of oxytetracycline were taken upby citrus leaves after foliar sprays of oxytetracycline in water. Addition of various adjuvants to theoxytetracycline solution showed minimal effects on its uptake by citrus leaves. The level ofoxytetracycline in leaves from trunk-injected trees was higher than those treated with all foliarapplications. The titer of ' Ca . L. asiaticus' in the midrib of leaves from trees receiving oxytetracyclineby foliar application was not affected after four days and thirty days of application, whereas thetiter was significantly reduced in oxytetracycline-injected trees thirty days after treatment.Investigation of citrus leaves using microscopy showed that they are covered by a thick lipidizedcuticle. Perforation of citrus leaf cuticle with a laser significantly increased the uptake ofoxytetracycline, decreasing the titer of ' Ca . L. asiaticus' in citrus leaves upon foliar application.Taken together, our findings indicate that trunk injection is more efficient than foliar spray evenafter the use of adjuvants. Our conclusion could help in setting useful recommendations for theapplication of oxytetracycline in citrus to improve tree health, minimize the amount of appliedantibiotic, reduce environmental exposure, and limit off-target effects.

Published

2020

13. Knock-down of δ-aminolevulinic acid dehydratase via virus-induced gene silencing alters the microRNA biogenesis and causes stress-related reactions in citrus plants.

Author

Killiny N, Nehela Y, Hijaz F, Gonzalez-Blanco P, Hajeri S, and Gowda S

Subjects

Citrus enzymology, Genes, Plant, Hydrogen Peroxide metabolism, Metabolic Networks and Pathways, MicroRNAs metabolism, Phenols metabolism, Porphobilinogen Synthase metabolism, RNA, Plant metabolism, Reactive Oxygen Species metabolism, Stress, Physiological genetics, Citrus genetics, Gene Silencing, MicroRNAs genetics, Porphobilinogen Synthase genetics, RNA, Plant genetics

Abstract

The δ-aminolevulinic acid (δ-ALA) is an intermediate in the biosynthetic pathway of tetrapyrroles. Tetrapyrroles play vital roles in many biological processes such as photosynthesis, respiration, and light-sensing. ALA-dehydratase (ALAD) combines two molecules of δ-ALA to form porphobilinogen. In citrus, the silencing of ALAD caused discrete yellow spots and necrosis in leaves and stems. Additionally, it caused rapid death in developing new shoots. Herein, we hypothesize that the accumulation of δ-ALA results in severe stress and reduced meristem development. For that reason, we investigated the dynamic changes in the expression profiles of 23 microRNA (miRNA) identified through small RNA sequencing, from CTV-tALAD plants in comparison with healthy C. macrophylla and C. macrophylla infiltrated with CTV-wt. Furthermore, we reported the effect of ALAD silencing on the total phenolics, H 2 O 2, and reactive oxygen species (ROS) levels, to examine the possibilities of miRNAs involving the regulation of these pathways. Our results showed that the total phenolics content, H 2 O 2 , and O 2 - levels were increased in CTV-tALAD plants. Moreover, 63 conserved miRNA members belonging to 23 different miRNA families were differentially expressed in CTV-tALAD plants compared to controls. The identified miRNAs are implicated in auxin biosynthesis and signaling, axillary shoot meristem formation and leaf morphology, starch metabolism, and oxidative stress. Collectively, our findings suggested that ALAD silencing initiates stress on citrus plants. As a result, CTV-tALAD plants exhibit reduced metabolic rate, growth, and development in order to cope with the stress that resulted from the accumulation of δ-ALA. This cascade of events led to leaf, stem, and meristem necrosis and failure of new shoot development., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

14. Phenolics, flavonoids and antioxidant capacities in Citrus species with different degree of tolerance to Huanglongbing.

Author

Hijaz F, Al-Rimawi F, Manthey JA, and Killiny N

Subjects

Biphenyl Compounds metabolism, Chromatography, High Pressure Liquid, Picrates metabolism, Plant Diseases microbiology, Plant Leaves metabolism, Antioxidants metabolism, Citrus metabolism, Flavonoids metabolism, Phenol metabolism

Abstract

Huanglongbing (HLB) is a highly destructive disease to the citrus industry in Florida caused by the bacterium, Candidatus Liberibacter asiaticus( C Las) and is transmitted by Diaphorina citri . It is hypothesized that plants with high phenolic contents show higher tolerance to certain plant pathogens. In this regard, different citrus varieties and plants of genera related to Citrus were analyzed for their total phenolic and flavonoids contents, and their antioxidant capacities. In addition, the secondary metabolites in the leaves of seven citrus species were analyzed using high performance liquid chromatography-mass spectrometry (HPLC-MS). Colorimetric assays showed that curry leaf contained the highest total phenolic content and free radical scavenging activity (DPPH). Curry leaf also contained high concentrations of an unusual class of carbazole alkaloids. Tolerant Citrus species contained high levels of phenolics and flavonoids and showed high antioxidant capacities. Our results suggest that high phenolic and flavonoid leaf contents correlate with increased citrus tolerance to C Las bacterium. The results also suggest that the high level of carbazole alkaloids, known for their strong antimicrobial properties in curry leaf, could make it immune to the C Las bacteria. Understanding the mechanisms underpinning citrus tolerance to HLB will contribute to the development of commercially tolerant citrus cultivars.

Published

2020

15. Effect of fruit maturity on volatiles and sensory descriptors of four mandarin hybrids.

Author

Hijaz F, Gmitter FG Jr, Bai J, Baldwin E, Biotteau A, Leclair C, McCollum TG, and Plotto A

Subjects

Aldehydes chemistry, Aldehydes isolation & purification, Breeding, Citrus chemistry, Citrus classification, Citrus growth & development, Consumer Behavior, Esters chemistry, Esters isolation & purification, Flavoring Agents isolation & purification, Fruit chemistry, Fruit classification, Fruit genetics, Gas Chromatography-Mass Spectrometry, Humans, Monoterpenes chemistry, Monoterpenes isolation & purification, Solid Phase Microextraction, Taste, Volatile Organic Compounds analysis, Volatile Organic Compounds isolation & purification, Citrus genetics, Flavoring Agents chemistry, Fruit growth & development

Abstract

Mandarins (or tangerines) are mainly consumed as fresh fruits due to the ease of peeling and desirable flavor. Sweetness, acidity, and flavor of mandarin are the most important criteria for consumer preference. The objective of this study was to evaluate the effects of harvest date on sensory and chemical components of four mandarin cultivars (Murcott, 411, Temple, and 'LB8-9' Sugar Belle®). Volatiles were extracted from the headspace of juice samples with solid phase microextraction (SPME) and analyzed using gas chromatography-mass spectrometry (GC-MS). The optimum harvest window for eating quality of 411 was late January to mid-February (soluble solids content [SSC]/titratable acidity [TA]: 11.3 to 14.0), Sugar Belle® fruits were best tasted when harvested from mid- to end of January (SSC/TA: 14.1 to 16.1), and February was the best month for harvesting Murcott (SSC/TA: 13.10 to 18.0) and Temple (SSC/TA:10.3 to 12.50). Sensory perception of sweetness, ripeness, and juiciness increased as SSC/TA increased while sourness and bitterness decreased. Pumpkin flavor, an indicator of overripe fruit, was mainly noticed late in the season. Tangerine flavor tended to decrease, whereas fruity-noncitrus flavor tended to increase with fruit maturity. Monoterpenes were the most abundant volatiles and tended to decrease with fruit maturity, whereas alcohols, esters, and aldehydes increase. Aldehydes, esters, and alcohols were positively correlated with sweetness, ripeness, juiciness, and fruity characteristics, and negatively with sourness and bitterness. On the other hand, monoterpenes were positively correlated with bitterness and tangerine flavor, and negatively correlated with sweetness and fruity-noncitrus flavor. The highest number of esters was found in Temple, whereas Murcott and 411 were high in aldehydes., (© 2020 Institute of Food Technologists®.)

Published

2020

16. Evaluation of Oxytetracycline Metabolites Cross-Reactivity with Oxytetracycline Enzyme-Linked Immunosorbent Assay (ELISA).

Author

Hijaz F and Killiny N

Abstract

Antibiotics have been successfully used for the control of several plant diseases for many years. Recently, streptomycin and oxytetracycline have been approved for the treatment of Huanglongbing (HLB) in Florida. The enzyme-linked immunosorbent assay (ELISA) is the most commonly used assay for the detection of these antibiotics because it is quick, simple, and can be used to analyze many samples at the same time. However, ELISA can react with the metabolites of the parent compound and its structurally related compounds. In this study, we investigated the cross-reactivity of the oxytetracycline ACCEL ELISA kit TM with three of oxytetracycline metabolites (4-epi-oxytetracycline, α-apo-oxytetracycline, and β-apo-oxytetracycline). The α-apo-oxytetracycline and β-apo-oxytetracycline metabolite did not show any cross-reactivity in the linear range (1.5-50 ng mL -1 ) of the assay. Whereas 4-epi-oxytetracycline showed high cross-reactivity, and its response was similar to oxytetracycline. Our results indicated that the oxytetracycline ELISA kits estimate the level of oxytetracycline as well as its main metabolite, 4-epi-oxytetracycline.

Published

2020

17. The use of deuterium-labeled gamma -aminobutyric (D 6 -GABA) to study uptake, translocation, and metabolism of exogenous GABA in plants.

Author

Hijaz F and Killiny N

Abstract

Background: Exogenous application of gamma -aminobutyric acid (GABA) could relieve stress symptoms caused by abiotic stresses including anoxia, heat and cold shock, drought, and salt. However, studying translocation and metabolism of exogenous GABA is challenged by the presence of endogenous GABA., Results: Herein, we used D 6 -GABA in order to investigate the uptake, translocation, and the metabolism of exogenous GABA in Mexican lime ( Citrus aurantifolia ) seedlings using gas chromatography-mass spectrometry (GC-MS). The GC-MS analysis showed that D 6 -GABA could be easily distinguished from the non-labeled GABA after methyl chloroformate (MCF) derivatization. The D 6 -GABA was detected in the cortex (phloem), inner stem (xylem), and leaves after root drench. Girdling did not affect the translocation of D 6 -GABA, indicating that it is mainly translocated via the xylem. In addition, D 4 -labled succinic acid was detected in D 6 -GABA-treated plants, indicating that exogenous GABA was metabolized to succinic acid. The half-life of D 6 -GABA in citrus was about 1.3 h, indicating a quick conversion to succinic acid., Conclusion: The use of D 6 -GABA offers a valuable tool to study the translocation and metabolism of GABA in plants. D 6 -GABA and its metabolite (D 4 -succinic acid) can be easily distinguished from the endogenous GABA and succinic acid using GC-MS., Competing Interests: Competing interestsThe authors declare that they have no competing interests., (© The Author(s) 2020.)

Published

2020

18. Tracing Penicillin Movement in Citrus Plants Using Fluorescence-Labeled Penicillin.

Author

Killiny N, Gonzalez-Blanco P, Santos-Ortega Y, Al-Rimawi F, Levy A, Hijaz F, Albrecht U, and Batuman O

Abstract

Huánglóngbìng (HLB), citrus greening, is one of the most destructive diseases of citrus plants worldwide. In North America, HLB is caused by the phloem-limited bacterium Candidatus Liberibacter asiaticus and is transmitted by the Asian citrus psyllid, Diaphorina citri. No cure exists at present, and the use of antibiotics for the control of HLB has gained interest due to the significant losses to the citrus industry. Because of unsatisfactory results when using foliar applications of antibiotics, concerns were raised regarding the uptake and translocation of these materials within trees. We, therefore, investigated a method that allows us to study the movement of antibiotic materials in citrus plants. Herein, we utilized a fluorescence-labeled penicillin, BOCILLIN TM FL-Penicillin (FL-penicillin), to study the uptake and translocation of penicillin in citrus plants. FL-penicillin was applied by puncture to the stem of young citrus seedlings and was traced by using fluorescence microscopy. After application, we detected FL-penicillin in the leaves and in the stem xylem and phloem tissues above and below the application site in both intact and partially bark-girdled citrus seedlings, indicating that it is easily taken up and transported through the plant vascular system. In addition, we detected FL-penicillin in the gut of D. citri, which were allowed to feed on the treated plants, suggesting translocation of this molecule into the vascular tissue. We propose that the use of fluorescent-labeled molecules could be an effective tool for understanding the uptake and translocation of antibiotics and other macromolecules in plants and insects., Competing Interests: The authors declare no conflicts of interest.

Published

2019

19. Uptake, Translocation, and Stability of Oxytetracycline and Streptomycin in Citrus Plants.

Author

Al-Rimawi F, Hijaz F, Nehela Y, Batuman O, and Killiny N

Abstract

Huanglongbing (HLB), or citrus greening, is the most destructive disease to the citrus industry. In Florida, it is caused by the bacterium, Candidatus Liberibacter asiaticus ( C Las) and is transmitted by the Asian citrus psyllid, Diaphorina citri . Recent studies suggested that antibiotics could inhibit the growth of the C Las pathogen in planta . In the current study, we investigated the uptake and translocation of oxytetracycline and streptomycin in citrus seedlings. Oxytetracycline and streptomycin were delivered via root and stem and their level in various tissues was monitored using enzyme-linked immunosorbent assay (ELISA). Oxytetracycline and streptomycin were detected in the leaves, xylem, phloem, and root after root drench and stem delivery. High levels of antibiotics were detected in the roots after root drench, whereas high levels of antibiotics were detected in the canopy after stem delivery. The level of oxytetracycline detected in the phloem, xylem, and leaves after root drench was higher than that of streptomycin. Whereas the level of streptomycin in root was higher than that of oxytetracycline, indicating that streptomycin was bound to the xylem tissues. Oxytetracycline and streptomycin were detected in the phloem, xylem, leaves, and root tissues thirty-five days after the root incubation in 200 µg·mL -1 solution. These results demonstrated that oxytetracycline and streptomycin were relatively stable and could inhibit C Las growth for a couple of months in citrus trees. Observations reported in this study regarding the distribution and stability of oxytetracycline and streptomycin in citrus plants could be useful for designing an effective program for the control of HLB disease using antibiotics.

Published

2019

20. Exogenous GABA is quickly metabolized to succinic acid and fed into the plant TCA cycle.

Author

Hijaz F and Killiny N

Subjects

Citric Acid Cycle physiology, Droughts, Gene Expression Regulation, Plant physiology, Hot Temperature, Plant Leaves metabolism, Succinic Acid metabolism, gamma-Aminobutyric Acid metabolism

Abstract

Exogenous application of γ-aminobutyric acid (GABA) could improve plant tolerance to environmental stresses such as hypoxia, heat, cold, drought, and salt stress. However, the mechanism by which GABA relieves stress is poorly understood. Here, we studied the uptake and metabolism of exogenous GABA in citrus leaves. Leaves were incubated in GABA solutions and the levels of endogenous GABA, succinic acid, and fumaric acid were investigated. Interestingly, the levels of endogenous GABA, succinic acid, and fumaric acid were quickly increased in GABA-treated leaves. This result indicated that GABA was taken up by the leaf, metabolized to succinic acid, and fed into the tricarboxylic acid cycle (TCA). This finding suggested that exogenous GABA could enhance plant resistance to biotic and abiotic stresses by generating more energy through the activation of the GABA shunt pathway and TCA cycle.

Published

2019

21. Application of gamma-aminobutyric acid increased the level of phytohormones in Citrus sinensis.

Author

Hijaz F, Nehela Y, and Killiny N

Subjects

Abscisic Acid metabolism, Citrus sinensis physiology, Cyclopentanes, Indoleacetic Acids metabolism, Oxylipins, Salicylic Acid metabolism, Succinate-Semialdehyde Dehydrogenase metabolism, Amino Acids metabolism, Citrus sinensis drug effects, Plant Growth Regulators metabolism, gamma-Aminobutyric Acid pharmacology

Abstract

Main Conclusion: In the current study, we showed that exogenous GABA supplementation increases the endogenous GABA level, several amino acids, and phytohormones in citrus plants, suggesting that GABA works in harmony with phytohormones. Gamma-aminobutyric acid (GABA) plays a key role in cytosolic regulation of pH, controlling of carbon and nitrogen metabolism, and protection against biotic and abiotic stresses. Although it is well-known that GABA is implicated in plant defense and it could act as a signaling molecule, its effect on phytohormones is not completely understood. In this study, we investigated the effect of exogenous GABA on citrus phytohormones using gas chromatography-mass spectrometry. A significant increase in endogenous GABA was observed in GABA-treated plants. The highest increase in GABA was recorded in plants treated with 10 mM 7 days post-treatment. In addition, we observed a moderate increase in several amino acids including glycine, L-alanine, L-proline, L-asparagine, and L-glutamine. The levels of benzoic acid, cinnamic acid, salicylic acid, trans-jasmonic acid, indole acetic acid, indole propionic acid, and abscisic acid were significantly increased in GABA-treated plants compared to the control. The gene expression showed that GABA transaminase (GABA-T) and succinic semialdehyde dehydrogenase (SSADH) were induced in GABA-treated plants, indicating a conversion of GABA to succinate. In addition, the gene expression of the regulatory enzymes of the TCA cycle (malate dehydrogenase and succinic dehydrogenase) was upregulated in GABA-treated plants, indicating an induction of respiration. In agreement with the chemical analysis, the gene expression results showed that most of the genes implicated in the biosynthesis of phytohormones were also upregulated in GABA-treated plants. Our results indicated that GABA works in harmony with phytohormones and suggested that regulation of phytohormones by exogenous GABA could play a key role in reducing plant stress.

Published

2018

22. All roads lead to Rome: Towards understanding different avenues of tolerance to huanglongbing in citrus cultivars.

Author

Killiny N, Jones SE, Nehela Y, Hijaz F, Dutt M, Gmitter FG, and Grosser JW

Subjects

Biomarkers metabolism, Citrus metabolism, Citrus physiology, Gas Chromatography-Mass Spectrometry, Plant Immunity, Plant Leaves metabolism, Volatile Organic Compounds metabolism, Citrus microbiology, Plant Diseases microbiology

Abstract

Citrus tolerance to huanglongbing could result from tolerance to the pathogen Candidatus Liberibacter asiaticus (CLas) and/or to its vector Diaphorina citri. Field observations and greenhouse-controlled studies showed that some citrus cultivars were more tolerant than others. However, the mechanism(s) behind the tolerance has not been determined yet. Using GC-MS, we investigated the volatile organic compounds (VOCs) and the non-volatile metabolite profiles of two tolerant citrus cultivars- Australian finger lime, 'LB8-9' Sugar Belle ® mandarin hybrid, and a recently released mandarin hybrid 'Bingo'. The three were grafted onto the rootstock, Carrizo citrange. Our findings showed that the metabolomic profiles of Australian finger lime were different from that of 'LB8-9'. Finger lime was high in many amino acids and tricarboxylic acid intermediates, whereas 'LB8-9' was high in several amino acids, sugars, and sugar alcohols. 'LB8-9' was high in thymol, which is known for its strong antimicrobial activity against a panel of pathogenic bacteria. The metabolomic profiles of 'Bingo' were intensely different from the other mandarin hybrid, 'LB8-9', including a reduced thymol biosynthetic pathway and low amounts of most of the amino acids and sugar alcohols. Remarkably, 1,8-cineole (eucalyptol) was only detected in 'Bingo', indicating that eucalyptol could have feeding and ovipositional repellency against D. citri. The metabolite profiles generated for HLB-tolerant citrus species will improve the ability of citrus breeders and will allow them to take more informed decisions. Metabolomic profiling of HLB-tolerant citrus species could identify tolerance specific markers that can be introduced to other commercial citrus cultivars to improve their tolerance to HLB disease., (Copyright © 2018 Elsevier Masson SAS. All rights reserved.)

Published

2018

23. Effects of δ -aminolevulinic acid dehydratase silencing on the primary and secondary metabolisms of citrus.

Author

Killiny N, Hijaz F, Nehela Y, Hajeri S, and Gowda S

Abstract

δ -aminolevulinic acid dehydratase (ALAD) is an important enzyme in tetrapyrrole synthesis. ALAD combines two δ -aminolevulinic acid ( δ -ALA) molecules to form the pyrrole molecule, porphobilinogen, an important precursor for plant pigments involved in photosynthesis, respiration, and nutrient uptake. In this study, we investigated the effects of silencing of ALAD gene on citrus leaf pigments and metabolites. The ALAD enzyme was inhibited using virus-induced gene silencing (VIGS) technology using citrus tristeza virus (CTV). δ -ALA accumulated in citrus plants inoculated with the recombinant virus (CTV-tALAD) to silence ALAD and resulted in discrete yellow spots (yellow islands) and necrosis in leaves and stems. The levels of chlorophylls, starch, sucrose, trans - and cis -violaxanthin, and α - and β -cryptoxanthin were reduced in CTV-tALAD plants, whereas zeaxanthin was increased. The increase in zeaxanthin and the decrease in its precursors indicated that the reduction in chlorophylls resulted in light damage. Salicylic acid and jasmonic acid levels, as well as emission of ( E )- α -bergamotene and ( E )- β -farnesene, increased in CTV-tALAD plants indicating these plants were under stress. Our results showed that silencing of ALAD induces stress in plants and that VIGS using mild CTV strains is a promising technique to study biological function of citrus genes.

Published

2018

24. Effect of different rootstocks on the leaf metabolite profile of 'Sugar Belle' mandarin hybrid.

Author

Killiny N, Valim MF, Jones SE, and Hijaz F

Subjects

Citrus microbiology, Plant Diseases microbiology, Citrus metabolism, Hybridization, Genetic, Metabolome, Plant Leaves metabolism, Plant Roots metabolism

Abstract

Currently, citrus greening is threatening the citrus industry worldwide. So far, there is no effective cure for this destructive disease and management mainly depends on the control of Diaphorina citri vector using insecticides. Although the use of different rootstocks could increase citrus scions' tolerance to biotic and abiotic stresses, little work has been conducted to investigate the effect of rootstocks on citrus tolerance to citrus greening pathogen. In this study, we investigated the effect of rootstock on the metabolite profile of 'Sugar Belle' mandarin hybrid using gas-chromatography mass spectrometry (GC-MS). The principle component analysis showed that the metabolite profiles of the 'Sugar Belle' mandarin hybrid on the three selected rootstocks were different from each other. These results indicated that rootstocks could affect the primary and secondary metabolites of citrus scions, and consequently could affect scion tolerance to pathogens.

Published

2018

25. A plant pathogenic bacterium exploits the tricarboxylic acid cycle metabolic pathway of its insect vector.

Author

Killiny N, Nehela Y, Hijaz F, and Vincent CI

Subjects

Animals, Citric Acid Cycle genetics, Gas Chromatography-Mass Spectrometry, Gene Expression Regulation, Plant, Hemiptera microbiology, Insect Vectors microbiology, Metabolomics, Rhizobiaceae physiology, Citric Acid Cycle physiology, Citrus, Hemiptera metabolism, Insect Vectors metabolism, Plant Diseases microbiology, Plant Diseases parasitology, Rhizobiaceae pathogenicity

Abstract

Huanglongbing in citrus is caused by a phloem-limited, uncultivable, gram-negative α-proteobacterium, Candidatus Liberibacter asiaticus (CLas). CLas is transmitted by the phloem-sucking insect, Diaphorina citri (Hemiptera: Liviidae), in a persistent, circulative, and propagative manner. In this study, we investigated the metabolomic and respiration rates changes in D. citri upon infection with CLas using gas chromatography-mass spectrometry (GC-MS) and gas exchange analysis. The level of glycine, L -serine, L -threonine, and gamma-amino butyric acid were higher in CLas-infected D. citri, while L -proline, L -aspartic acid, and L -pyroglutamic acid were lower in CLas-infected D. citri compared with the control. Citric acid was increased in CLas-infected D. citri, whereas malic and succinic acids were reduced. Interestingly, most of the reduced metabolites such as malate, succinate, aspartate, and L -proline are required for the growth of CLas. The increase in citric acid, serine, and glycine indicated that CLas induced glycolysis and the tricarboxylic acid cycle (TCA) in its vector. In agreement with the GC-MS results, the gene expression results also indicated that glycolysis and TCA were induced in CLas-infected D. citri and this was accompanied with an increases in respiration rate. Phosphoric acid and most of the sugar alcohols were higher in CLas-infected D. citri, indicating a response to the biotic stress or cell damage. Only slight increases in the levels of few sugars were observed in CLas-infected D. citri, which indicated that sugars are tightly regulated by D. citri. Our results indicated that CLas induces nutrient and energetic stress in its host insect. This study may provide some insights into the mechanism of colonization of CLas in its vector.

Published

2018

26. RNA interference of acetylcholinesterase in the Asian citrus psyllid, Diaphorina citri, increases its susceptibility to carbamate and organophosphate insecticides.

Author

Kishk A, Hijaz F, Anber HAI, AbdEl-Raof TK, El-Sherbeni AD, Hamed S, and Killiny N

Subjects

Animals, Carbaryl toxicity, Chlorpyrifos toxicity, Gene Expression drug effects, Hemiptera genetics, Neonicotinoids toxicity, Nitro Compounds toxicity, Pyrethrins toxicity, Cholinesterases genetics, Hemiptera drug effects, Insect Proteins genetics, Insecticide Resistance genetics, Insecticides toxicity, RNA Interference

Abstract

The Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera: Lividae) transmits the Candidatus Liberibacter asiaticus, which causes citrus greening disease or Huanglongbing, (HLB). To date, there is no efficient cure for HLB disease and the control of D. citri using insecticides became the most important tools for the management of HLB. However, the extensive use of insecticides could increase D. citri resistance to these insecticides. The objective of this study was to investigate the effect of RNA interference of acetylcholinesterase (AChE) on the mortality and susceptibility of D. citri to the four major insecticides used in Florida. In this study, we used a consensus sequence derived from the two AChE genes and cholinesterase 2-like (ChE-2-like) gene to target all of the three genes. Treatment with dsRNA-AChE increased the mortality percentages of both nymphs and adults of D. citri. The mortality percentage increased with the increase in the concentration of applied dsRNA-AChE, and the highest mortality (> 60%) was observed at the highest applied concentration (125ng/μl). Treatments of nymphs or adults with dsRNA-AChE down-regulated the expression of the three targeted genes of D. citri. Silencing of AChE and ChE in D. citri nymphs increased the susceptibility of emerged adults to chlorpyrifos and carbaryl, which act as AChE inhibitors. However, treatment with dsRNA-AChE did not increase the susceptibility of emerged adults to imidacloprid, which acts as an agonist of nicotinic acetylcholine receptors. In the same manner, treatment of adults with dsRNA-AChE increased their susceptibility to chlorpyrifos and carbaryl, but did not affect their susceptibility to imidacloprid. The ANOVA did not show any significant increase in susceptibility of D. citri adults to fenpropathrin after treatment with dsRNA-AChE, either as nymphs or as adults. However, simple linear regression showed that treatment with dsRNA-AChE increased D. citri susceptibility to fenpropathrin, which indicated that AChE could be involved in the metabolism of fenpropathrin. Our results indicated that silencing of AChE and ChE genes in D. citri to increase its susceptibility to insecticides could be a promising tool for the control of this important vector., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

27. Metabolically speaking: Possible reasons behind the tolerance of 'Sugar Belle' mandarin hybrid to huanglongbing.

Author

Killiny N, Valim MF, Jones SE, Omar AA, Hijaz F, Gmitter FG Jr, and Grosser JW

Subjects

Bicyclic Monoterpenes, Gas Chromatography-Mass Spectrometry, Inositol metabolism, Monoterpenes metabolism, Plant Diseases immunology, Plant Diseases microbiology, Polycyclic Sesquiterpenes, Sesquiterpenes metabolism, Sugar Acids metabolism, Citrus metabolism, Plant Leaves metabolism, Sugars metabolism

Abstract

Huanglongbing (HLB) is currently considered the most destructive disease of citrus. Since its spread to the Americas, HLB has killed millions of trees and caused a sharp decline in production in many citrus growing regions. With the continuous spread of HLB disease in Florida and worldwide, there is an urgent need for the development of commercial citrus cultivars with a strong tolerance to HLB. Interestingly, field observations showed that some of the recently released mandarin hybrids such as 'Sugar Belle' were tolerant to HLB. In this study, we investigated the volatile and non-volatile metabolites of greenhouse-grown 'Sugar Belle' mandarin and four of its ancestors in order to understand why 'Sugar Belle' mandarin is relatively tolerant to HLB. Leaf volatiles were directly extracted with hexane and analyzed using gas chromatography-mass spectrometry (GC-MS). Leaf polar metabolites were extracted with a mixture of methanol:water (1:1, v/v), derivatized to their trimethylsilyl ethers, and analyzed using GC-MS. Forty-seven volatile compounds and forty-two polar metabolites were detected in 'Sugar Belle' mandarin leaves and its ancestors. 'Sugar Belle' was high in several volatiles such as α-thujene, para-cymene, γ-terpinene, thymol, β-elemene, and (E)-β-caryophyllene. Some of these volatiles, especially thymol, β-elemene, and (E)-β-caryophyllene are known for their anti-microbial activity. In addition, 'Sugar Belle' mandarin was the highest in synephrine, benzoic acid, ferulic acid, caffeic acid, chiro-inositol, fructose, glucose, threonic acid, saccharic acid, and galactaric acid, and the second in threonine, malic acid, and myo-inositol compared to the ancestors. Phenolic compounds such as benzoic, ferulic, and caffeic acids may act as antibacterial agents, whereas others like sugar alcohols may protect 'Sugar Belle' mandarin from stress during pathogen attack. The tolerance of 'Sugar Belle' and other newly released mandarin hybrids should be further evaluated using greenhouse controlled studies. If tolerance of these hybrids is confirmed, they could be used to replace the traditionally susceptible cultivars., (Copyright © 2017 Elsevier Masson SAS. All rights reserved.)

Published

2017

28. Erratum for Killiny et al., "A Plant Bacterial Pathogen Manipulates Its Insect Vector's Energy Metabolism".

Author

Killiny N, Hijaz F, Ebert TA, and Rogers ME

Published

2017

29. A Plant Bacterial Pathogen Manipulates Its Insect Vector's Energy Metabolism.

Author

Killiny N, Hijaz F, Ebert TA, and Rogers ME

Subjects

Adenosine Triphosphatases metabolism, Adenosine Triphosphate metabolism, Animals, Citrus microbiology, Enzyme Assays, GTP Phosphohydrolases metabolism, Gene Expression Regulation, Hemiptera genetics, Hemolymph metabolism, Hemolymph microbiology, Nucleotides metabolism, Plant Diseases microbiology, Rhizobiaceae growth & development, Rhizobiaceae pathogenicity, Survival, Energy Metabolism, Hemiptera metabolism, Hemiptera microbiology, Host-Pathogen Interactions physiology, Insect Vectors microbiology, Insect Vectors physiology, Rhizobiaceae metabolism

Abstract

Insect-transmitted plant-pathogenic bacteria may alter their vectors' fitness, survival, behavior, and metabolism. Because these pathogens interact with their vectors on the cellular and organismal levels, potential changes at the biochemical level might occur. " Candidatus Liberibacter asiaticus" ( C Las) is transmitted in a persistent, circulative, and propagative manner. The genome of C Las revealed the presence of an ATP translocase that mediates the uptake of ATP and other nucleotides from medium to achieve its biological processes, such as growth and multiplication. Here, we showed that the levels of ATP and many other nucleotides were significantly higher in C Las-infected than healthy psyllids. Gene expression analysis showed upregulation for ATP synthase subunits, while ATPase enzyme activity showed a decrease in ATPase activity. These results indicated that C Las stimulated Diaphorina citri to produce more ATP and many other energetic nucleotides, while it may inhibit their consumption by the insect. As a result of ATP accumulation, the adenylated energy charge (AEC) increased and the AMP/ATP and ADP/ATP ratios decreased in C Las-infected D. citri psyllids. Survival analysis confirmed a shorter life span for C Las-infected D. citri psyllids. In addition, electropenetrography showed a significant reduction in total nonprobing time, salivation time, and time from the last E2 (phloem ingestion) to the end of recording, indicating that C Las-infected psyllids were at a higher hunger level and they tended to forage more often. This increased feeding activity reflects the C Las-induced energetic stress. In conclusion, C Las alters the energy metabolism of its psyllid vector, D. citri , in order to secure its need for energetic nucleotides. IMPORTANCE Insect transmission of plant-pathogenic bacteria involves propagation and circulation of the bacteria within their vectors. The transmission process is complex and requires specific interactions at the molecular and biochemical levels. The growth of the plant-pathogenic bacteria in the hemolymph of their vectors indicated that the hemolymph contains all the necessary nutrients for their growth. In addition to nutrients, " Candidatus Liberibacter asiaticus" ( C Las) can take up energetic nucleotides, such as ATP, from its vector, Diaphorina citri , using ATP translocase. In this study, we found that the C Las pathogen manipulates the energy metabolism of its insect vector. The accumulation of ATP in C Las-infected D. citri psyllids indicated that C Las induces ATP production to fulfill its need for this energetic compound. As a result of ATP accumulation, a shorter life span and altered feeding behavior were observed. These findings increase our knowledge of insect transmission of the persistent-circulative-propagative type of plant pathogens vectored by insects., (Copyright © 2017 American Society for Microbiology.)

Published

2017

30. Phytohormone profiling of the sweet orange (Citrus sinensis (L.) Osbeck) leaves and roots using GC-MS-based method.

Author

Nehela Y, Hijaz F, Elzaawely AA, El-Zahaby HM, and Killiny N

Subjects

Acetamides chemistry, Fluoroacetates chemistry, Limit of Detection, Meristem metabolism, Reproducibility of Results, Trimethylsilyl Compounds chemistry, Citrus sinensis metabolism, Gas Chromatography-Mass Spectrometry methods, Plant Growth Regulators metabolism, Plant Leaves metabolism, Plant Roots metabolism

Abstract

Phytohormones mainly affect plant development and trigger varied responses to biotic and abiotic stresses. The sensitivity of methods used to profile phytohormones is a vital factor that affects the results. We used an improved GC-MS-based method in the selective ion-monitoring (SIM) mode to study the phytohormone profiling in citrus tissues. One extraction solvent mixture and two derivatization reagents were used, methyl chloroformate (MCF) and N-Methyl-N-(trimethylsilyl) trifluoroacetamide (MSTFA). The method showed a low limit of detection and low limit of quantification with high extraction recovery percentage and reproducibility. Overall, we detected 13 phytohormones belonging to six different groups. Auxins, SAs, tJA, and ABA were detected after derivatization with MCF while cytokinins and GAs were detected after derivatization with MSTFA. Cytokinins, SAs, and gibberellins were found in all tissues while auxins and tJA were observed only in the leaves. ABA was found in leaves and roots, but not in root tips. The method we used is efficient, precise, and appropriate to study citrus phytohormonal profiles to understand their crosstalk and responses to environmental and biological stresses., (Copyright © 2016 Elsevier GmbH. All rights reserved.)

Published

2016

31. Nucleotides, micro- and macro-nutrients, limonoids, flavonoids, and hydroxycinnamates composition in the phloem sap of sweet orange.

Author

Hijaz F, Manthey JA, Van der Merwe D, and Killiny N

Subjects

Adenosine Triphosphate metabolism, Amino Acids analysis, Animals, Chromatography, High Pressure Liquid, Citrus sinensis microbiology, Citrus sinensis parasitology, Coenzymes analysis, Hemiptera, Nucleosides analysis, Reference Standards, Rhizobiaceae growth & development, Riboflavin analysis, Secondary Metabolism, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Atomic, Citrus sinensis chemistry, Coumaric Acids analysis, Elements, Flavonoids analysis, Limonins analysis, Nucleotides analysis, Phloem chemistry

Abstract

Currently, the global citrus production is declining due to the spread of Huanglongbing (HLB). HLB, otherwise known as citrus greening, is caused by Candidatus Liberibacter asiaticus (CLas) and is transmitted by the Asian citrus psyllids (ACP), Diaphorina citri Kuwayama. ACP transmits CLas bacterium while feeding on the citrus phloem sap. Multiplication of CLas in the phloem of citrus indicates that the sap contains all the essential nutrients needed for CLas. In this study, we investigated the micro- and macro-nutrients, nucleotides, and others secondary metabolites of phloem sap from pineapple sweet orange. The micro- and macro-nutrients were analyzed using inductively coupled plasma-mass spectroscopy (ICP-MS) and inductively coupled plasma-optical emission spectroscopy (ICP-OES). Nucleotides and other secondary metabolites analysis was accomplished by reversed phase HPLC coupled with UV, fluorescence detection, or negative mode electrospray ionization mass spectrometry (ESI-MS). Calcium (89 mM) was the highest element followed by potassium (38.8 mM) and phosphorous (24 mM). Magnesium and sulfur were also abundant and their concentrations were 15 and 9 mM, respectively. The rest of the elements were found in low amounts (< 2mM). The concentrations of ATP, ADP, and AMP were 16, 31, and 3 µ mole/Kg fwt, respectively. GTP, GMP. NAD, FMN, FAD, and riboflavin were found at concentrations below (3 µ mole/Kg fwt). The phloem was rich in nomilin 124 mM and limonin 176 µ mole/Kg fwt. Hesperidin, vicenin-2, sinensetin, and nobiletin were the most predominant flavonoids. In addition, several hydroxycinnamates were detected. The results of this study will increase our knowledge about the nature and the chemical composition of citrus phloem sap.

Published

2016

32. A gas chromatography-mass spectrometry method for the determination of delta-aminolevulinic acid in plant leaves.

Author

Hijaz F and Killiny N

Subjects

Colorimetry, Gas Chromatography-Mass Spectrometry methods, Levulinic Acids analysis, Solvents, Aminolevulinic Acid analysis, Citrus chemistry, Plant Leaves chemistry

Abstract

Delta-aminolevulinic (δ-ALA) acid is an important intermediate for tetrapyrroles biosynthesis and it has recently received great attention in plant physiology and human toxicology. However, the colorimetric method which is the most common method for determination of δ-ALA is time consuming and is not specific. In this study, a method for determination of δ-ALA in plant tissues was developed based on the trimethylsilyl (TMS) derivative of the pyrrole formed from the reaction of δ-ALA with ethyl acetoacetate via Knorr condensation. The δ-ALA in the HCl extract was reacted with ethyl acetoacetate to form a pyrrole. Then, the pyrrole compound was extracted using ethyl acetate and the solvent was evaporated to dryness. The dried sample was derivatized to its TMS ester and analyzed using GC-MS. The concentration of δ-ALA in citrus leaves incubated with levulinic acid was also determined by the conventional colorimetric method. The linear range was 10-200ppm in the full scan mode and 0.1-20ppm in the selected ion monitoring (SIM). The limit of detection was 6ppm in the full scan and 0.05ppm in SIM mode, representing a four-fold increase in sensitivity compared to the colorimetric method. The GC-MS method developed in this study is simple, accurate, sensitive, and could also be used to measure δ-ALA in other biological samples., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

33. Impact of different temperatures on survival and energy metabolism in the Asian citrus psyllid, Diaphorina citri Kuwayama.

Author

El-Shesheny I, Hijaz F, El-Hawary I, Mesbah I, and Killiny N

Subjects

Adenosine Diphosphate metabolism, Adenosine Triphosphate metabolism, Animals, Citrus parasitology, Cold-Shock Response, Heat-Shock Response, Survival Analysis, Acclimatization physiology, Energy Metabolism physiology, Hemiptera metabolism, Hemiptera physiology, Temperature

Abstract

Temperature influences the life history and metabolic parameters of insects. Asian citrus psyllid (ACP), Diaphorina citri is a tropical and subtropical pest. ACP invaded new regions around the world and threatened the citrus industry as a vector for Huanglongbing (HLB) disease. ACP is widely distributed and can survive high (up to 45 °C) and low temperatures (as low as -6 °C). The precise mechanism of temperature tolerance in ACP is poorly understood. We investigated adult survival, cellular energy balance, gene expression, and nucleotide and sugar-nucleotide changes under the effect of different temperature regimes (0 °C to 45 °C with 5 °C intervals). The optimum temperatures for survival were 20 and 25 °C. Low temperatures of 0 °C and 5 °C caused 50% mortality after 2 and 4 days respectively, while one day at high temperature (40 °C and 45 °C) caused more than 95% mortality. The lowest quantity of ATP (3.69 ± 1.6 ng/insect) and the maximum ATPase enzyme activities (57.43 ± 7.6 μU/insect) were observed at 25 °C. Correlation between ATP quantities and ATPase activity was negative. Gene expression of hsp 70, V-type proton ATPase catalytic subunit A and ATP synthase α subunit matched these results. Twenty-four nucleotides and sugar-nucleotides were quantified using HPLC in ACP adults maintained at low, high, and optimum temperatures. The nucleotide profiles were different among treatments. The ratios between AMP:ATP and ADP:ATP were significantly decreased and positively correlated to adults survival, whereas the adenylate energy charge was increased in response to low and high temperatures. Exploring energy metabolic regulation in relation with adult survival might help in understanding the physiological basis of how ACP tolerates newly invaded regions., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

34. Development of delayed bitterness and effect of harvest date in stored juice from two complex citrus hybrids.

Author

Raithore S, Dea S, McCollum G, Manthey JA, Bai J, Leclair C, Hijaz F, Narciso JA, Baldwin EA, and Plotto A

Subjects

Benzoxepins, Citrus chemistry, Limonins, Time Factors, Citrus genetics, Food Storage, Fruit and Vegetable Juices analysis, Taste

Abstract

Background: Mandarins and mandarin hybrids have excellent flavor and color attributes, making them good candidates for consumption as fresh fruit. When processed into juice, however, they are less palatable, as they develop delayed bitterness when stored for a period of time. In this study the kinetics of delayed bitterness in two citrus mandarin hybrid siblings, 'Ambersweet' and USDA 1-105-106, was explored by sensory and instrumental analyses. In addition to the bitter limonoids, other quality factors (i.e. sugars, acids, pH, soluble solids content (SSC), titratable acidity (TA) and the ratio SSC/TA) were also measured., Results: The two citrus hybrid siblings had different chemical profiles, which were perceived by taste panels. USDA 1-105-106 developed delayed bitterness when the juice was stored for more than 4 h, similar to juice from 'Navel' oranges, but 'Ambersweet' did not. Bitterness in 'Ambersweet' was more affected by harvest maturity, as juice from earlier harvest had lower SSC but higher TA and bitter limonoids., Conclusion: Since juice of USDA 1-105-106 shows delayed bitterness when stored for more than 4 h, this cultivar is not suitable for juice processing. Our finding that siblings can differ in chemical and sensory properties emphasize the importance of post-processing storage studies before releasing cultivars for juice., (Published 2015. This article is a U.S. Government work and is in the public domain in the USA.)

Published

2016

35. Amino acids implicated in plant defense are higher in Candidatus Liberibacter asiaticus-tolerant citrus varieties.

Author

Killiny N and Hijaz F

Subjects

Cluster Analysis, Linear Models, Metabolome, Phloem metabolism, Plant Exudates metabolism, Principal Component Analysis, Adaptation, Physiological, Amino Acids metabolism, Citrus immunology, Citrus microbiology, Rhizobiaceae physiology

Abstract

Citrus Huanglongbing (HLB), also known as citrus greening, has been threatening the citrus industry since the early 1900's and up to this date there are no effective cures for this disease. Field observations and greenhouse controlled studies demonstrated that some citrus genotypes are more tolerant to Candidatus Liberibacter asiaticus (CLas) pathogen than others. However, the mechanisms underpinning tolerance has not been determined yet. The phloem sap composition of CLas-tolerant and sensitive citrus varieties was studied to identify metabolites that could be responsible for their tolerance to CLas. The citrus phloem sap was collected by centrifugation and was analyzed with gas chromatography-mass spectrometry after methyl chloroformate derivatization. Thirty-three metabolites were detected in the phloem sap of the studied varieties: twenty 20 amino acids, eight 8 organic acids, and five 5 fatty acids. Interestingly, the levels of most amino acids, especially those implicated in plantdefense to pathogens such as phenylalanine, tyrosine, tryptophan, lysine, and asparagine were higher in tolerant varieties. Although the level of organic acids varied between cultivars, this variation was not correlated with citrus resistance to CLas and could be cultivar specific. The fatty acids were found in trace amounts and in most cases their levels were not significantly different among varieties. Better understanding of the mechanisms underpinning citrus tolerance to CLas will help in developing economically tolerant varieties.

Published

2016

36. Possible role of plant volatiles in tolerance against huanglongbing in citrus.

Author

Hijaz F, Nehela Y, and Killiny N

Subjects

Analysis of Variance, Citrus microbiology, Cluster Analysis, Disease Resistance, Gas Chromatography-Mass Spectrometry, Multivariate Analysis, Plant Leaves chemistry, Principal Component Analysis, Rhizobiaceae, Species Specificity, Volatile Organic Compounds isolation & purification, Volatile Organic Compounds metabolism, Citrus chemistry, Volatile Organic Compounds chemistry

Abstract

Volatile organic compounds (VOC) play an important role in protecting plants from insect and pathogen attack. In this study, we investigated the leaf volatile profiles of 14 citrus varieties. The VOC in citrus leaves were extracted with n-hexane and analyzed using gas chromatography-mass spectrometry (GC-MS). Overall, 4six volatile compounds were identified in the n-hexane extract from citrus leaves. Most of the detected compounds belonged to 3 main groups (monoterpenes, sesquiterpenes, and aliphatic aldehydes). Principle component analysis was used to examine the relative distribution of the studied varieties to each other. Interestingly, volatile profiles of varieties that are tolerant to Candidatus Liberibacter asiaticus (CLas) were different from those of the susceptible ones. Tolerant and moderately-tolerant cultivars contained relatively higher amounts of volatiles than susceptible varieties. In addition, tolerant varieties were also higher in specific compounds which are known for their antimicrobial activities. These compounds include Aldehydes (undecanal, neral, geranial, and citronellal) and some monoterpenes such as linalool, d-limonene, myrcene, α- and β- phellandrene. In addition, some sesquiterpene compounds including t-caryophellene, γ-elemene, β-elemene, germacrene D, and geranyl acetate were higher in tolerant and moderately tolerant cultivars. Severinia buxifolia which is known for its tolerance to CLas and many other pathogens contained higher levels of santalenes and coumarins. Our results indicated that citrus leaf volatiles might play a role in citrus tolerance to CLas. The results of this study may help in understanding of the mechanism of citrus tolerance against CLas.

Published

2016

37. Collection and chemical composition of phloem sap from Citrus sinensis L. Osbeck (sweet orange).

Author

Hijaz F and Killiny N

Subjects

Acetamides chemistry, Fluoroacetates chemistry, Formates chemistry, Gas Chromatography-Mass Spectrometry, Organosilicon Compounds chemistry, Citrus sinensis chemistry, Phloem chemistry

Abstract

Through utilizing the nutrient-rich phloem sap, sap feeding insects such as psyllids, leafhoppers, and aphids can transmit many phloem-restricted pathogens. On the other hand, multiplication of phloem-limited, uncultivated bacteria such as Candidatus Liberibacter asiaticus (CLas) inside the phloem of citrus indicates that the sap contains all the essential nutrients needed for the pathogen growth. The phloem sap composition of many plants has been studied; however, to our knowledge, there is no available data about citrus phloem sap. In this study, we identified and quantified the chemical components of phloem sap from pineapple sweet orange. Two approaches (EDTA enhanced exudation and centrifugation) were used to collect phloem sap. The collected sap was derivatized with methyl chloroformate (MCF), N-methyl-N- [tert-butyl dimethylsilyl]-trifluroacetamide (MTBSTFA), or trimethylsilyl (TMS) and analyzed with GC-MS revealing 20 amino acids and 8 sugars. Proline, the most abundant amino acid, composed more than 60% of the total amino acids. Tryptophan, tyrosine, leucine, isoleucine, and valine, which are considered essential for phloem sap-sucking insects, were also detected. Sucrose, glucose, fructose, and inositol were the most predominant sugars. In addition, seven organic acids including succinic, fumaric, malic, maleic, threonic, citric, and quinic were detected. All compounds detected in the EDTA-enhanced exudate were also detected in the pure phloem sap using centrifugation. The centrifugation technique allowed estimating the concentration of metabolites. This information expands our knowledge about the nutrition requirement for citrus phloem-limited bacterial pathogen and their vectors, and can help define suitable artificial media to culture them.

Published

2014

38. Herbivory by the insect diaphorina citri induces greater change in citrus plant volatile profile than does infection by the bacterium, Candidatus Liberibacter asiaticus.

Author

Hijaz F, El-Shesheny I, and Killiny N

Subjects

Animals, Citrus microbiology, Citrus parasitology, Cluster Analysis, Gas Chromatography-Mass Spectrometry, Gene Expression Regulation, Plant, Insecta physiology, Principal Component Analysis, Citrus metabolism, Herbivory physiology, Rhizobiaceae physiology, Volatile Organic Compounds metabolism

Abstract

The volatile organic compound (VOC) profile in plant leaves often changes after biotic and abiotic stresses. Monitoring changes in VOCs in plant leaves could provide valuable information about multitrophic interactions. In the current study, we investigated the effect of Asian citrus psyllid (ACP) infestation, citrus greening pathogen (Candidatus Liberibacter asiaticus [CLas]) infection, and simultaneous attack by ACP and CLas on the VOC content of citrus leaves. Leaf volatiles were extracted using hexane and analyzed with gas chromatography-mass spectrometry (GC-MS). Although ACP is a phloem-sucking insect that causes minimal damage to plant tissues, the relative amount of 21 out of the 27 VOCs increased 2- to 10-fold in ACP-infested plants. The relative amount of d-limonene, β-phelandrene, citronellal, and undecanal were increased 4- to 20- fold in CLas-infected plants. A principle component analysis (PCA) and cluster analysis (CA) showed that VOC patterns of ACP-infested and CLas-infected plants were different from each other and were also different from the controls, while the VOC pattern of double-attacked plants was more like that of the controls than that of ACP-infested or CLas-infected plants. VOC amounts from leaves were compromised when plants were attacked by ACP and CLas. The results of this study showed that a simple direct extraction of citrus leaf volatiles could be successfully used to discriminate between healthy and CLas-infected plants. Information about the effects of insect and pathogen attack on the VOC content profile of plants might contribute to a better understanding of biotic stress.

Published

2013

39. Four times repeated isolated limb infusion with melphalan-controlled locoregional disease in the patient with melanoma of the leg.

Author

El Halabi H, Hijaz F, and Gushchin V

Subjects

Aged, Biopsy, Needle, Dose-Response Relationship, Drug, Drug Administration Schedule, Follow-Up Studies, Humans, Immunohistochemistry, Male, Melanoma pathology, Neoplasm Invasiveness pathology, Neoplasm Recurrence, Local pathology, Neoplasm Staging, Obesity, Morbid, Risk Assessment, Skin Neoplasms pathology, Time Factors, Treatment Outcome, Chemotherapy, Cancer, Regional Perfusion methods, Foot, Melanoma drug therapy, Melphalan therapeutic use, Neoplasm Recurrence, Local drug therapy, Skin Neoplasms drug therapy

Published

2012

40. Ammonia gas permeability of meat packaging materials.

Author

Karim F, Hijaz F, Kastner CL, and Smith JS

Subjects

Animals, Food Preservation, Freezing, Hydrogen-Ion Concentration, Indophenol analysis, Permeability, Polyenes chemistry, Polyethylene chemistry, Vacuum, Water, Ammonia analysis, Ammonia chemistry, Food Packaging methods, Meat

Abstract

Meat products are packaged in polymer films designed to protect the product from exterior contaminants such as light, humidity, and harmful chemicals. Unfortunately, there is almost no data on ammonia permeability of packaging films. We investigated ammonia permeability of common meat packaging films: low-density polyethylene (LDPE; 2.2 mil), multilayer polyolefin (MLP; 3 mil), and vacuum (V-PA/PE; 3 mil, 0.6 mil polyamide/2.4 mil polyethylene). The films were fabricated into 10 × 5 cm pouches and filled with 50 mL deionized water. Pouches were placed in a plexiglass enclosure in a freezer and exposed to 50, 100, 250, or 500 ppm ammonia gas for 6, 12, 24, and 48 h at -17 ± 3 °C and 21 ± 3 °C. At freezing temperatures, no ammonia residues were detected and no differences in pH were found in the water. At room temperature, ammonia levels and pH of the water increased significantly (P < 0.05) with increasing exposure times and ammonia concentrations. Average ammonia levels in the water were 7.77 ppm for MLP, 5.94 ppm for LDPE, and 0.89 ppm for V-PA/PE at 500 ppm exposure for 48 h at 21 ± 3 °C. Average pH values were 8.64 for MLP, 8.38 for LDPE, and 7.23 for V-PA/PE (unexposed ranged from 5.49 to 6.44) at 500 ppm exposure for 48 h. The results showed that temperature influenced ammonia permeability. Meat packaging materials have low ammonia permeability and protect meat products exposed to ammonia leaks during frozen storage.

Published

2011

41. A rapid direct solvent extraction method for the extraction of 2-dodecylcyclobutanone from irradiated ground beef patties using acetonitrile.

Author

Hijaz F, Kumar A, and Smith JS

Subjects

Acetonitriles, Animals, Biomarkers analysis, Biomarkers chemistry, Cattle, Cyclobutanes chemistry, Gas Chromatography-Mass Spectrometry, Reproducibility of Results, Solvents, Time Factors, Cyclobutanes analysis, Cyclobutanes isolation & purification, Food Inspection methods, Food Irradiation, Meat analysis, Meat radiation effects

Abstract

The amount of irradiated beef in the U.S. market is growing, and a reliable, rapid method is needed to detect irradiated beef and quantify the irradiation dose. The official analytical method (BS EN 1785 2003) that has been adopted by the European Union is time consuming. The objective of this study was to develop a rapid method for the analysis of 2-dodecylcyclobutanone (2-DCB) in irradiated beef. A 5 g sample of commercially irradiated ground beef patty (90/10) was extracted with n-hexane using a Soxhlet apparatus or with acetonitrile via direct solvent extraction. The Soxhlet hexane extract was evaporated to dryness, and the sample was dissolved in a mixture of ethyl acetate and acetonitrile (1:1). The defatted extract was purified with a 1 g silica cartridge. Another 5 g aliquot of the same patty was mixed with 50 mL acetonitrile and either blended for 1 min with a hand blender or crushed for 10 min with a glass rod. The extraction procedure was repeated 3 times, and the acetonitrile was collected and evaporated to dryness. Eluants from both methods were concentrated under nitrogen and injected into a gas chromatography-mass spectrometry. The 2-DCB concentration in the commercial samples was 0.031 +/- 0.0026 ppm (n = 5) for the Soxhlet method and 0.031 +/- 0.0025 ppm (n = 10) for direct solvent extraction. Recovery of 2-DCB from spiked beef samples in the direct solvent extraction method was 93.2 +/- 9.0% (n = 7). This study showed that the direct solvent extraction method is simple and as efficient and reproducible as the Soxhlet method.

Published

2010

42. In vitro and in vivo metabolism of the radiolytic compound 2-dodecylcyclobutanone.

Author

Hijaz F, Shrestha TB, Bossman SH, Hussain F, and Smith JS

Subjects

Analytic Sample Preparation Methods, Animals, Biotransformation, Cyclobutanes analysis, Cyclobutanes chemistry, Cytosol enzymology, Feces chemistry, Female, Food Irradiation adverse effects, Gas Chromatography-Mass Spectrometry, Magnetic Resonance Spectroscopy, Male, Microsomes, Liver enzymology, NADP metabolism, Rats, Rats, Sprague-Dawley, Spectrophotometry, Infrared, Urine chemistry, Cyclobutanes metabolism, Cyclobutanes pharmacokinetics

Abstract

Our knowledge about the metabolism of alkylcyclobutanones (2-ACBs) is limited, and the lack of literature on the metabolism of 2-ACBs causes consumers to doubt the safety of irradiated foods. The objectives of this study were to evaluate the metabolism of 2-dodecylcyclobutanone (2-DCB) and identify any possible metabolite. The 2-DCB was mixed with rat S9 (postmitochondrial supernatant fraction) and beta-nicotinamide adenine dinucleotide phosphate (NADPH) in phosphate buffer (pH 7.4) and incubated for 2 h at 37 degrees C. Then, the incubation mixture was mixed with sodium sulfate and extracted with n-hexane by using a Soxhlet apparatus. The hexane extract was concentrated under nitrogen and injected into the gas chromatography-mass spectrometry (GC-MS) machine running in selective ion monitoring mode (SIM) to measure 2-DCB concentration. The hexane extract from the in vitro and in vivo studies was also derivatized with a silylation reagent and injected into a GC-MS running in full scan mode. The average percentage of 2-DCB recovered from the test incubations was 23%, compared with 50% from the controls. The GC-MS chromatograms of the derivatized samples showed a unique peak in the in vitro test incubations and in the hexane extract of the rat feces that were given 2-DCB. This peak was later identified as 2-doecylcyclobutanol.

Published

2010

43. Evaluation of various ammonia assays for testing of contaminated muscle food products.

Author

Hijaz F, Smith JS, and Kastner CL

Subjects

Dose-Response Relationship, Drug, Electrodes, Indophenol analysis, Reagent Strips, Reproducibility of Results, Sensitivity and Specificity, Time Factors, Volatilization, Ammonia analysis, Food Contamination analysis, Meat analysis

Abstract

The indophenol method, ammonia ion selective electrode (ISE), Reflectoquant(R) test strips, and salicylate methods were evaluated to determine those that can be used for in-plant rapid testing of meat contaminated by ammonia refrigerant leaks. Ground eye of round beef samples were spiked with 25, 50, 100, or 200 ppm ammonia as (N) and the amounts recovered were corrected for typical background levels. The recovery of ammonia from spiked meat filtrates by ISE ranged from 98.3% to 100%+/- 2%, and the recovery of ammonia from spiked meat samples by ISE-perchloric acid method ranged from 90% to 110%+/- 8%. The measurement of ammonia in spiked meat samples by the Reflectoquant test strips ranged from 77.4% to 96.9%, but the standard deviation was higher than 14%. The recovery using the salicylate methods was less than 63% when meat samples were spiked with 25 or 50 ppm ammonia. Both indophenol and ammonia ISE are precise, give excellent recovery, and can be used for testing ammonia contamination in meat. Ammonia background levels of various commercial meat products was determined using the ammonia ISE and ranged from 87 to 166 ppm.

Published

2007