Your search keyword '"El-Sharkawy, Islam"' showing total 34 results

1. Diversity in blueberry genotypes and developmental stages enables discrepancy in the bioactive compounds, metabolites, and cytotoxicity

Author

Das, Protiva Rani, Darwish, Ahmed G., Ismail, Ahmed, Haikal, Amr M., Gajjar, Pranavkumar, Balasubramani, Subramani Paranthaman, Sheikh, Mehboob B., Tsolova, Violeta, Soliman, Karam F.A., Sherif, Sherif M., and El-Sharkawy, Islam

Published

2022

2. A recessive mutation in muscadine grapes causes berry color-loss without influencing anthocyanin pathway

Author

Ismail, Ahmed, Gajjar, Pranavkumar, Park, Minkyu, Mahboob, Abdulla, Tsolova, Violeta, Subramanian, Jayasankar, Darwish, Ahmed G., and El-Sharkawy, Islam

Published

2022

3. Comparative Antioxidant Activity and Untargeted Metabolomic Analyses of Sour Cherry Cultivars Based on Ultra-Performance–Time of Flight–Mass Spectrometry.

Author

Kaur, Prabhjot, Darwish, Ahmed G., El-Sharkawy, Islam, Singh, Ashutosh, and Subramanian, Jayasankar

Subjects

SOUR cherry, PEARSON correlation (Statistics), CULTIVARS, METABOLOMICS, SWEET cherry, SPECTROMETRY, FUNCTIONAL foods

Abstract

This study was conducted for the comparative analysis of antioxidant activity and untargeted metabolomics of dark- and light-colored sour cherry cultivars grown in Canada. Based on our previous study, we selected four cultivars—'Heimann R', 'Gorsemska', V70142, and 'Montmorency'—to determine the untargeted metabolites and their role in antioxidant activities. A total of 473 metabolites were identified from four sour cherry genotypes using UPLC–ToF–MS. Untargeted metabolomics revealed the dominant chemical groups present in sour cherries. PCA showed that the diversity in sour cherry metabolites was due to the genotype differences indicating iditol, malic acid, chlorobenzene, 2-mercaptobenzothiazole, and pyroglutamic acid as the predominant contributors. The variable importance in the projection (VIP > 1.0) in partial least-squares–discriminant analysis described 20 biomarker metabolites representing the cherry metabolome profiles. A heatmap of Pearson's correlation analysis between the 20 biomarker metabolites and antioxidant activities identified seven antioxidant determinants that displayed the highest correlations with different types of antioxidant activities. TPC and TAC were evaluated using the Folin–Ciocalteu method. The total antioxidant activity was performed using three different assays (ABTS, FRAP, and DPPH). This study of correlating metabolomics and antioxidant activities elucidated that the higher nutritional value and biological functions of sour cherry genotypes can be useful for the development of nutraceutical and functional foods. [ABSTRACT FROM AUTHOR]

Published

2024

4. Transcriptome Profiling of a Salt Excluder Hybrid Grapevine Rootstock 'Ruggeri' throughout Salinity.

Author

Gajjar, Pranavkumar, Ismail, Ahmed, Islam, Tabibul, Moniruzzaman, Md, Darwish, Ahmed G., Dawood, Ahmed S., Mohamed, Ahmed G., Haikal, Amr M., El-Saady, Abdelkareem M., El-Kereamy, Ashraf, Sherif, Sherif M., Abazinge, Michael D., Kambiranda, Devaiah, and El-Sharkawy, Islam

Subjects

SALINITY, ROOTSTOCKS, TRANSCRIPTOMES, PLANT productivity, SALT, GRAPES

Abstract

Salinity is one of the substantial threats to plant productivity and could be escorted by other stresses such as heat and drought. It impairs critical biological processes, such as photosynthesis, energy, and water/nutrient acquisition, ultimately leading to cell death when stress intensity becomes uncured. Therefore, plants deploy several proper processes to overcome such hostile circumstances. Grapevine is one of the most important crops worldwide that is relatively salt-tolerant and preferentially cultivated in hot and semi-arid areas. One of the most applicable strategies for sustainable viticulture is using salt-tolerant rootstock such as Ruggeri (RUG). The rootstock showed efficient capacity of photosynthesis, ROS detoxification, and carbohydrate accumulation under salinity. The current study utilized the transcriptome profiling approach to identify the molecular events of RUG throughout a regime of salt stress followed by a recovery procedure. The data showed progressive changes in the transcriptome profiling throughout salinity, underpinning the involvement of a large number of genes in transcriptional reprogramming during stress. Our results established a considerable enrichment of the biological process GO-terms related to salinity adaptation, such as signaling, hormones, photosynthesis, carbohydrates, and ROS homeostasis. Among the battery of molecular/cellular responses launched upon salinity, ROS homeostasis plays the central role of salt adaptation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Unraveling the occasional occurrence of berry astringency in table grape cv. Scarlet Royal: a physiological and transcriptomic analysis.

Author

Ismail, Ahmed, Pervaiz, Tariq, Comstock, Stacey, Bodaghi, Sohrab, Rezk, Alaaeldin, Vidalakis, Georgios, El-Sharkawy, Islam, Obenland, David, and El-kereamy, Ashraf

Subjects

TABLE grapes, BERRIES, TRANSCRIPTOMES, GRAPE ripening, FLAVONOIDS, GRAPES

Abstract

Scarlet Royal, a mid-season ripening table grape, is one of the popular red grape varieties in California. However, its berries develop an undesirable astringent taste under certain conditions. Among the various factors contributing to the degradation of berry attributes, the levels and compositions of polyphenols play a fundamental role in defining berry quality and sensory characteristics. To comprehend the underlying mechanism of astringency development, Scarlet Royal berries with non-astringent attributes at the V7 vineyard were compared to astringent ones at the V9 vineyard. Biochemical analysis revealed that the divergence in berry astringency stemmed from alterations in its polyphenol composition, particularly tannins, during the late ripening stage at the V9 vineyard. Furthermore, transcriptomic profiling of berries positively associated nineteen flavonoid/proanthocyanidins (PAs) structural genes with the accumulation of PAs in V9 berries. The identification of these genes holds significance for table grape genetic improvement programs. At a practical level, the correlation between the taste panel and tannin content revealed a threshold level of tannins causing an astringent taste at approximately 400 mg/L. Additionally, berry astringency at the V9 vineyard was linked to a lower number of clusters and yield during the two study seasons, 2016 and 2017. Furthermore, petiole nutrient analysis at bloom showed differences in nutrient levels between the two vineyards, including higher levels of nitrogen and potassium in V9 vines compared to V7. It's worth noting that V9 berries at harvest displayed a lower level of total soluble solids and higher titratable acidity compared to V7 berries. In conclusion, our results indicate that the accumulation of tannins in berries during the ripening process results in a reduction in their red color intensity but significantly increases the astringency taste, thereby degrading the berry quality attributes. This study also highlights the association of high nitrogen nutrient levels and a lower crop load with berry astringency in table grapes, paving the way for further research in this area [ABSTRACT FROM AUTHOR]

Published

2023

6. Physiological Comparison of Two Salt-Excluder Hybrid Grapevine Rootstocks under Salinity Reveals Different Adaptation Qualities.

Author

Gajjar, Pranavkumar, Ismail, Ahmed, Islam, Tabibul, Darwish, Ahmed G., Moniruzzaman, Md, Abuslima, Eman, Dawood, Ahmed S., El-Saady, Abdelkareem M., Tsolova, Violeta, El-Kereamy, Ashraf, Nick, Peter, Sherif, Sherif M., Abazinge, Michael D., and El-Sharkawy, Islam

Subjects

ROOTSTOCKS, SALINITY, PHOTOSYNTHETIC pigments, REACTIVE oxygen species, AGRICULTURE, ARID regions

Abstract

Like other plant stresses, salinity is a central agricultural problem, mainly in arid or semi-arid regions. Therefore, salt-adapted plants have evolved several adaptation strategies to counteract salt-related events, such as photosynthesis inhibition, metabolic toxicity, and reactive oxygen species (ROS) formation. European grapes are usually grafted onto salt-tolerant rootstocks as a cultivation practice to alleviate salinity-dependent damage. In the current study, two grape rootstocks, 140 Ruggeri (RUG) and Millardet et de Grasset 420A (MGT), were utilized to evaluate the diversity of their salinity adaptation strategies. The results showed that RUG is able to maintain higher levels of the photosynthetic pigments (Chl-T, Chl-a, and Chl-b) under salt stress, and hence accumulates higher levels of total soluble sugars (TSS), monosaccharides, and disaccharides compared with the MGT rootstock. Moreover, it was revealed that the RUG rootstock maintains and/or increases the enzymatic activities of catalase, GPX, and SOD under salinity, giving it a more efficient ROS detoxification machinery under stress. [ABSTRACT FROM AUTHOR]

Published

2023

7. Investigation of Antioxidant and Cytotoxicity Activities of Chocolate Fortified with Muscadine Grape Pomace.

Author

Darwish, Ahmed G., El-Sharkawy, Islam, Tang, Chunya, Rao, Qinchun, and Tan, Juzhong

Subjects

CHOCOLATE, FLAVONOIDS, HUMAN skin color, OXIDANT status, ANTINEOPLASTIC agents, GRAPES, BERRIES

Abstract

Muscadine grape pomace and mixed products with chocolate extracts from three muscadine genotypes exhibiting different berry skin colors (black and bronze) were investigated for total phenolic content (TPC), total flavonoid content (TFC), DPPH, FRAP antioxidant activity, and anticancer activity using MDA-MB-468 (MM-468; African American) breast cancer cells. Muscadine berry extracts and mixed products showed cytotoxicity activities of up to 70% against MM-468 breast cancer cells. Cell growth inhibition was higher in 'macerated Floriana' with an IC50 value of 20.70 ± 2.43 followed by 'Alachua' with an IC50 value of 22.25 ± 2.47. TPC and TFC in macerated MGP powder were (1.4 ± 0.14 and 0.45 ± 0.01 GAE/g FW, respectively), which was significantly higher than those in cocoa powder. Data analysis showed a high association between DPPH, FRAP antioxidant activities, and TPC content and a positive high correlation between anticancer activity and antioxidant capacity and between TPC and anticancer activity. The anticancer and antioxidant effects of muscadine grape pomace and chocolate extracts are attributed to the TPC of extracts, which showed a stronger positive correlation with growth inhibition of African American breast cancer cells. This study would be of great value for food industries as well as other manufacturers who are interested in new food blends. [ABSTRACT FROM AUTHOR]

Published

2023

8. Transcriptome analysis of an apple ( Malus × domestica ) yellow fruit somatic mutation identifies a gene network module highly associated with anthocyanin and epigenetic regulation

Author

El-Sharkawy, Islam, Liang, Dong, and Xu, Kenong

Published

2015

9. TIR1-like auxin-receptors are involved in the regulation of plum fruit development

Author

El-Sharkawy, Islam, Sherif, Sherif M., Jones, Brian, Mila, Isabelle, Kumar, Prakash P., Bouzayen, Mondher, and Jayasankar, Subramanian

Published

2014

10. 'Blanc Du Soleil': A Wine Grape for the Southeast United States.

Author

Scheiner, Justin, El-Sharkawy, Islam, Humphries, Allen Frank, Ren, Zhnongbo, Pontasch, Fran, Labay, Andrew, Kamas, Jim, and Tsolova, Violeta

Subjects

*HORTICULTURE, *PATENT offices, *ANTHRACNOSE, *HARVESTING time, *VITICULTURE, *POWDERY mildew diseases, *WINE flavor & odor, *GRAPES, *WHITE wines

Abstract

The article focuses on the development and characteristics of a new white wine grape cultivar called 'Blanc Du Soleil' developed by the Florida A&M University Grape Genetics and Breeding Program in collaboration with Texas A&M University. It is discussed that it is notable for its resistance to Pierce's disease and its successful adaptation to the climate of the Texas Gulf Coast and Florida Panhandle, resulting in the production of high-quality wine.

Published

2023

11. Seedlessness Trait and Genome Editing—A Review.

Author

Moniruzzaman, Md, Darwish, Ahmed G., Ismail, Ahmed, El-kereamy, Ashraf, Tsolova, Violeta, and El-Sharkawy, Islam

Subjects

GENOME editing, SEED development, CRISPRS, GENETIC engineering, TRANSCRIPTION factors, PLOIDY, CROSSBREEDING

Abstract

Parthenocarpy and stenospermocarpy are the two mechanisms underlying the seedless fruit set program. Seedless fruit occurs naturally and can be produced using hormone application, crossbreeding, or ploidy breeding. However, the two types of breeding are time-consuming and sometimes ineffective due to interspecies hybridization barriers or the absence of appropriate parental genotypes to use in the breeding process. The genetic engineering approach provides a better prospect, which can be explored based on an understanding of the genetic causes underlying the seedlessness trait. For instance, CRISPR/Cas is a comprehensive and precise technology. The prerequisite for using the strategy to induce seedlessness is identifying the crucial master gene or transcription factor liable for seed formation/development. In this review, we primarily explored the seedlessness mechanisms and identified the potential candidate genes underlying seed development. We also discussed the CRISPR/Cas-mediated genome editing approaches and their improvements. [ABSTRACT FROM AUTHOR]

Published

2023

12. Integrating Metabolomics and Gene Expression Underlying Potential Biomarkers Compounds Associated with Antioxidant Activity in Southern Grape Seeds.

Author

Darwish, Ahmed G., Moniruzzaman, Md, Tsolova, Violeta, and El-Sharkawy, Islam

Subjects

GRAPE seeds, GENE expression, GRAPES, METABOLOMICS, ORGANIC acids, BIOMARKERS, BERRIES, PLEUROTUS ostreatus

Abstract

Different southern grape (Muscadine) genotypes (Muscadinia rotundifolia Michx.) were evaluated for their contents of metabolites in ripe berries. The metabolome study identified 331 metabolites in ripening skin and seed tissues. The major chemical groups were organic acids, fatty acyls, polyketides, and organic heterocycle compounds. The metabolic pathways of the identified metabolite were mainly arginine biosynthesis, D-glutamine, D-glutamate metabolism, alanine, aspartate metabolism, aminoacyl-tRNA biosynthesis, and citrate cycle. Principal component analysis indicated that catechin, gallic acid, and epicatechin-3-gallate were the main metabolites existing in muscadine seed extracts. However, citramalic and malic acids were the main metabolites contributing to muscadine skin extracts. Partial least-squares discriminant analysis (VIP > 1) described 25 key compounds indicating the metabolome in muscadine tissues (skin and seed). Correlation analysis among the 25 compounds and oxidation inhibition activities identified five biomarker compounds that were associated with antioxidant activity. Catechin, gallic acid, epicatechin-3-gallate, fertaric acid, and procyanidin B1 were highly associated with DPPH, FRAP, CUPRAC, and ABTS. The five biomarker compounds were significantly accumulated in the seed relative to the skin tissues. An evaluation of 15 antioxidant-related genes represented by the 3-dehydroquinate dehydratase (DHD), shikimate kinase (SK), chalcone synthase (CHS), anthocyanidin reductase (ANR), laccase (LAC), phenylalanine ammonia-lyase (PAL), dihydroflavonol 4-reductase (DFR), 3-dehydroquinate synthase (DHQS), chorismate mutase (CM), flavanone-3-hydroxylase (F3H), cinnamoyl-CoA reductase (CCR), cinnamyl alcohol dehydrogenase (CAD), leucoanthocyanidin reductase (LAR), gallate 1-β-glucosyltransferase (UGT), and anthocyanidin 3-O-glucosyltransferase (UFGT) encode critical enzymes related to polyphenolics pathway throughout four developmental stages (fruit-set FS, véraison V, ripe-skin R, and ripe-seed; S) in the C5 genotype demonstrated the dramatic accumulation of all transcripts in seed tissue or a developmental stage-dependent manner. Our findings suggested that muscadine grape seeds contain essential metabolites that could attract the attention of those interested in the pharmaceutical sector and the plant breeders to develop new varieties with high nutraceutical value. [ABSTRACT FROM AUTHOR]

Published

2023

13. Characterization of gibberellin-signalling elements during plum fruit ontogeny defines the essentiality of gibberellin in fruit development

Author

El-Sharkawy, Islam, Sherif, Sherif, El Kayal, Walid, Mahboob, Abdullah, Abubaker, Kamal, Ravindran, Pratibha, Jyothi-Prakash, Pavithra A., Kumar, Prakash P., and Jayasankar, Subramanian

Published

2014

14. Isolation and characterization of four ethylene perception elements and their expression during ripening in pears (Pyrus communis L.) with/without cold requirement

Author

El-Sharkawy, Islam, Jones, B., Li, Z. G., Lelièvre, J. M., Pech, J. C., and Latché, A.

Published

2003

15. An apple somatic mutation of delayed fruit maturation date is primarily caused by a retrotransposon insertion‐associated large deletion.

Author

Ban, Seunghyun, El‐Sharkawy, Islam, Zhao, Jiantao, Fei, Zhangjun, and Xu, Kenong

Subjects

*DATES (Fruit), *SOMATIC embryogenesis, *GENE regulatory networks, *STUNTED growth, *PLANT development, *CHROMOSOMES, *SOMATIC mutation

Abstract

SUMMARY: Somatic mutations may alter important traits in tree fruits, such as fruit color, size and maturation date. Autumn Gala (AGala), a somatic mutation from apple cultivar Gala, matures 4 weeks later than Gala. To understand the mechanisms underlying the delayed maturation, RNA‐seq analyses were conducted with fruit sampled at 13 (Gala) and 16 (AGala) time‐points during their growth and development. Weighted gene co‐expression network analysis (WGCNA) of 23 372 differentially expressed genes resulted in 25 WGCNA modules. Of these, modules 1 (r = −0.98, P = 2E‐21) and 2 (r = −0.52, P = 0.004), which were suppressed in AGala, were correlated with fruit maturation date. Surprisingly, 77 of the 152 member genes in module 1 were harbored in a 2.8‐Mb genomic region on chromosome 6 that was deleted and replaced by a 10.7‐kb gypsy‐like retrotransposon (Gy‐36) from chromosome 7 in AGala. Among the 77 member genes, MdACT7 was the most suppressed (by 10.5‐fold) in AGala due to a disruptive 2.5‐kb insertion in coding sequence. Moreover, MdACT7 is the exclusive apple counterpart of ArabidopsisACT7 known of essential roles in plant development, and the functional allele MdACT7, which was lost to the deletion in AGala, was associated with early fruit maturation in 268 apple accessions. Overexpressing alleles MdACT7 and Mdact7 in an Arabidopsis act7 line showed that MdACT7 largely rescued its stunted growth and delayed initial flowering while Mdact7 did not. Therefore, the 2.8‐Mb hemizygous deletion is largely genetically causal for fruit maturation delay in AGala, and the total loss of MdACT7 might have contributed to the phenotype. Significance Statement: Fruit maturation date is a developmental trait of great horticultural importance. However, the trait remains poorly understood in apple. By sequencing the fruit mRNA of Gala and its somatic mutant, Autumn Gala (AGala), we revealed that a large deletion that occurred concurrently with a retrotransposon insertion is the primary genetic cause for fruit maturation delay in AGala. We also provide evidence that MdACT7, an actin encoding gene, is likely an important factor. [ABSTRACT FROM AUTHOR]

Published

2022

16. A multi-locus genome-wide association study reveals the genetics underlying muscadine antioxidant in berry skin.

Author

Minkyu Park, Darwish, Ahmed G., Elhag, Rashid I., Tsolova, Violeta, Soliman, Karam F. A., and El-Sharkawy, Islam

Subjects

GENOME-wide association studies, BERRIES, GENETICS, GERMPLASM, FLAVONOIDS, ANTIOXIDANTS

Abstract

Muscadine berries display enhanced nutraceutical value due to the accumulation of distinctive phytochemical constituents with great potential antioxidant activity. Such nutritional and health merits are not only restricted to muscadine, but muscadine berries accumulate higher amounts of bioactive polyphenolics compared with other grape species. For the genetic study of the antioxidant trait in muscadine, a multi-locus genome-wide association study (GWAS) with 350 muscadine genotypes and 1,283 RNase H2 enzymedependent amplicon sequencing (rhAmpSeq) markers was performed. Phenotyping was conducted with several antioxidant-related traits, including total phenolic content (TPC), total flavonoid content (TFC), 1,1-diphenyl-2-picrylhydrazyl (DPPH) free radical scavenging activity, and FRAP antioxidant assay in muscadine berry skin. The correlation coefficient analysis revealed that the TPC, and DPPH/FRAP activities were significantly correlated. Through the GWAS analysis, 12 QTNs were identified from the four traits, of which six were pleiotropic QTNs. Two pleiotropic QTNs, chr2_14464718 and chr4_16491374, were commonly identified from the TPC and DPPH/FRAP activities. Co-located genes with the two pleiotropic QTNs were isolated, and two candidate genes were identified with transcriptome analysis. UDPglycosyltransferase and 4-hydroxy-4-methyl-2-oxoglutarate aldolase were the candidate genes that are positively and negatively correlated to the quantitative property of traits, respectively. These results are the first genetic evidence of the quantitative property of antioxidants in muscadine and provide genetic resources for breeding antioxidant-rich cultivars for both Muscadinia and Euvitis species. [ABSTRACT FROM AUTHOR]

Published

2022

17. Two highly divergent alcohol dehydrogenases of melon exhibit fruit ripening-specific expression and distinct biochemical characteristics

Author

Manríquez, Daniel, El-Sharkawy, Islam, Flores, Francisco B., El-Yahyaoui, Fikri, Regad, Farid, Bouzayen, Mondher, Latché, Alain, and Pech, Jean-Claude

Published

2006

18. Functional Characterization of a Melon Alcohol Acyl-transferase Gene Family Involved in the Biosynthesis of Ester Volatiles. Identification of the Crucial Role of a Threonine Residue for Enzyme Activity*

Author

El-Sharkawy, Islam, Manríquez, Daniel, Flores, Francisco B., Regad, Farid, Bouzayen, Mondher, Latché, Alain, and Pech, Jean-Claude

Published

2005

19. Transcriptome Profiling During Muscadine Berry Development Reveals the Dynamic of Polyphenols Metabolism.

Author

Ismail, Ahmed, Darwish, Ahmed G., Park, Minkyu, Gajjar, Pranavkumar, Tsolova, Violeta, Soliman, Karam F. A., and El-Sharkawy, Islam

Subjects

BERRIES, TRANSCRIPTOMES, POLYPHENOLS, SECONDARY metabolism, GENE expression, GRAPES

Abstract

Muscadine grapes accumulate higher amounts of bioactive phenolics compared with other grape species. To identify the molecular events associated with polyphenolic accumulation that influence antioxidant capacity, two contrasting muscadine genotypes (C5 and C6) with varied phenolic/flavonoid content and antioxidant activity were investigated via RNA-sequencing during berry development. The results showed that berry development is concomitant with transcriptome profile changes, which was more pronounced at the véraison (V) stage. Despite that the downregulation pattern of gene expression dominated the upregulation through berry development, the C5 genotype maintained higher expression levels. Comparative transcript profiling allowed the identification of 94 differentially expressed genes with potential relevance in regulating fruit secondary metabolism, including 18 transcription factors and 76 structural genes. The genes underlying the critical enzymes in the modification reactions of polyphenolics biosynthetic pathway, including hydroxylation, methylation, and glycosylation were more pronounced during the immature stages of prevéraison (PrV), V, and postvéraison (PoV) in the C5 genotype, resulting in more accumulation of biologically active phenolic/flavonoid derivatives. The results suggested that muscadine grapes, as in bunch grapes (Vitis sp.); possess a similar mechanism that organizes polyphenolics accumulation; however, the set of total flavonoids (TFs) and structural genes coordinating the pathway varies between the two species. [ABSTRACT FROM AUTHOR]

Published

2022

20. Variation in Cadmium Accumulation among Potato Cultivars Grown on Different Agricultural Sites: A Potential Tool for Reducing Cadmium in Tubers.

Author

Brengi, Sary H., El-Gindy, Abdel-Ghany M., El-Sharkawy, Islam, and Abouelsaad, Ibrahim A.

Subjects

EFFECT of cadmium on plants, POTATOES, AGRICULTURAL chemicals, PLANT genetics

Abstract

Potato (Solanum tuberosum L.) is an important crop in Egypt with great trade value for the export market. The addition of agrochemicals with possibly containing heavy metals, such as cadmium (Cd), decreases the quality of the final product. Generally, little is known about the factors that influence Cd content in this crop. The current study estimated the Cd levels in different organs of three potato cultivars grown in four commercial regions across Egypt. Further, we investigated the soil properties that affected Cd uptake during two growing seasons. With the exception of the Cd content of the soils, no relationships were detected between the tested soil properties (i.e., pH, conductivity, organic matter, and clay content) and Cd content in potato organs, because the soil from different regions showed comparable levels for these parameters. The average Cd content in the peeled tubers among different cultivars (0.145 mg Kg−1 DW) was below the maximum limit (0.5 mg Kg−1 DW). The patterns of Cd accumulation in potato organs were constant among cultivars, with the highest levels detected in leaves (~82%), followed by stems (~16.5%), and the lowest content observed in tubers (~1.5%). The study showed that the tested potato cultivars exhibited diversity in the accumulation levels of Cd in the tubers (~2.6-fold). The cultivar Suntana displayed the lowest Cd levels among different field sites for the two growing seasons, suggesting the potential involvement of genetic factors. [ABSTRACT FROM AUTHOR]

Published

2021

21. Functional characterization of a gibberellin F-box protein, PslSLY1, during plum fruit development.

Author

El-Sharkawy, Islam, Ismail, Ahmed, Darwish, Ahmed, Kayal, Walid El, Subramanian, Jayasankar, and Sherif, Sherif M

Subjects

*FRUIT development, *PLUM, *PROTEIN-protein interactions, *GENE families, *PLANT growth, *UBIQUITINATION, *ARABIDOPSIS

Abstract

Fruit development is orchestrated by a complex network of interactions between hormone signaling pathways. The phytohormone gibberellin (GA) is known to regulate a diverse range of developmental processes; however, the mechanisms of GA action in perennial fruit species are yet to be elucidated. In the current study, a GA signaling gene PslSLY1 , encoding a putative F-box protein that belongs to the SLY1 (SLEEPY1)/ GID2 (gibberellin-insensitive dwarf2) gene family, was isolated from Japanese plum (Prunus salicina). PslSLY1 transcript abundance declined as fruit development progressed, along with potential negative feedback regulation of PslSLY1 by GA. Subcellular localization and protein–protein interaction assays suggested that PslSLY1 functions as an active GA signaling component that interacts with the ASK1 (Arabidopsis SKP1) subunit of an SCF–ubiquitin ligase complex and with PslDELLA repressors, in a GA-independent manner. By using a domain omission strategy, we illustrated that the F-box and C-terminal domains of PslSLY1 are essential for its interactions with the downstream GA signaling components. PslSLY1 overexpression in wild-type and Arabidopsis sly1.10 mutant backgrounds resulted in a dramatic enhancement in overall plant growth, presumably due to triggered GA signaling. This includes germination characteristics, stem elongation, flower structure, and fertility. Overall, our findings shed new light on the GA strategy and signaling network in commercially important perennial crops. [ABSTRACT FROM AUTHOR]

Published

2021

22. Apple ALMT9 Requires a Conserved C-Terminal Domain for Malate Transport Underlying Fruit Acidity.

Author

Chunlong, Li, Dougherty, Laura, Coluccio, Alison E., Meng, Dong, El-Sharkawy, Islam, Borejsza-Wysocka, Ewa, Dong Liang, Piñeros, Miguel A., Kenong Xu, and Lailiang Cheng

Published

2020

23. Plum Fruit Development Occurs via Gibberellin–Sensitive and –Insensitive DELLA Repressors.

Author

El-Sharkawy, Islam, Sherif, Sherif, Abdulla, Mahboob, and Jayasankar, Subramanian

Subjects

*GIBBERELLINS, *FRUIT development, *FLORAL morphology, *PLUM, *PLANT hormones

Abstract

Fruit growth depends on highly coordinated hormonal activities. The phytohormone gibberellin (GA) promotes growth by triggering degradation of the growth-repressing DELLA proteins; however, the extent to which such proteins contribute to GA-mediated fruit development remains to be clarified. Three new plum genes encoding DELLA proteins, PslGAI, PslRGL and PslRGA were isolated and functionally characterized. Analysis of expression profile during fruit development suggested that PslDELLA are transcriptionally regulated during flower and fruit ontogeny with potential positive regulation by GA and ethylene, depending on organ and developmental stage. PslGAI and PslRGL deduced proteins contain all domains present in typical DELLA proteins. However, PslRGA exhibited a degenerated DELLA domain and subsequently lacks in GID1–DELLA interaction property. PslDELLA–overexpression in WT Arabidopsis caused dramatic disruption in overall growth including root length, stem elongation, plant architecture, flower structure, fertility, and considerable retardation in development due to dramatic distortion in GA-metabolic pathway. GA treatment enhanced PslGAI/PslRGL interaction with PslGID1 receptors, causing protein destabilization and relief of growth-restraining effect. By contrast, PslRGA protein was not degraded by GA due to its inability to interact with PslGID1. Relative to other PslDELLA–mutants, PslRGA–plants displayed stronger constitutive repressive growth that was irreversible by GA application. The present results describe additional complexities in GA-signalling during plum fruit development, which may be particularly important to optimize successful reproductive growth. [ABSTRACT FROM AUTHOR]

Published

2017

24. Stimulated auxin levels enhance plum fruit ripening, but limit shelf-life characteristics.

Author

El-Sharkawy, Islam, Sherif, Sherif, Qubbaj, Tawfiq, Sullivan, Alan J, and Jayasankar, Subramanian

Subjects

*AUXIN, *FRUIT ripening, *ETHYLENE content of fruit, *FRUIT development, *FRUIT quality, *GENETIC transcription in plants, PLUM varieties

Abstract

Ripening is a highly coordinated, irreversible event involving a series of physiological and biochemical changes, leading to the development of a soft fruit. One of the limiting factors that influence the economic value of fruit is the relatively short ripening period and limited shelf-life. In climacteric fruit, ethylene is a key regulator of ripening; however, recent research has shown that auxin also plays an important role during the event. To understand the contributions of ethylene, auxin and their interaction in ripening, two plum cultivars with widely varying fruit ripening behaviors were compared. The early cultivar, EG, exhibited a brief ripening process in association with rapid decline in firmness. The late cultivar, V9, displayed slow ripening behavior accompanying by notable extension in fruit firmness, resulting in prolonged shelf-life along with preserved fruit quality traits. Auxin has been suggested to play an indirect role in promoting fruit ripening via stimulating the transcription of several ethylene components, resulting in ethylene-induced fruit ripening and softening. This study shows further that there is a direct involvement of auxin in advancing ripening events independent of ethylene action through stimulating the transcription of several genes that encode cell-wall metabolism-related proteins critical for determining the fruit softening rate and potential shelf-life. These results support the hypothesis that the autonomous role played by auxin is as important as that of ethylene in determining not only fruit ripening behavior, but also in mediating other fruit quality traits including shelf-life. [ABSTRACT FROM AUTHOR]

Published

2016

25. Transcriptome analysis of an apple (Malus x domestica) yellow fruit somatic mutation identifies a gene network module highly associated with anthocyanin and epigenetic regulation.

Author

El-Sharkawy, Islam, Dong Liang, and Kenong Xu

Subjects

*GENETIC transcription in plants, *GENE regulatory networks, *PLANT epigenetics, *ANTHOCYANINS, *METHYLATION, APPLE genetics

Abstract

Using RNA-seq, this study analysed an apple (Malusxdomestica) anthocyanin-deficient yellow-skin somatic mutant 'Blondee' (BLO) and its red-skin parent 'Kidd's D-8' (KID), the original name of 'Gala', to understand the molecular mechanisms underlying the mutation. A total of 3299 differentially expressed genes (DEGs) were identified between BLO and KID at four developmental stages and/or between two adjacent stages within BLO and/or KID. A weighted gene co-expression network analysis (WGCNA) of the DEGs uncovered a network module of 34 genes highly correlated (r=0.95, P=9.0 x 10-13) with anthocyanin contents. Although 12 of the 34 genes in the WGCNA module were characterized and known of roles in anthocyanin, the remainder 22 appear to be novel. Examining the expression of ten representative genes in the module in 14 diverse apples revealed that at least eight were significantly correlated with anthocyanin variation. MdMYB10 (MDP0000259614) and MdGST (MDP0000252292) were among the most suppressed module member genes in BLO despite being undistinguishable in their corresponding sequences between BLO and KID. Methylation assay of MdMYB10 and MdGST in fruit skin revealed that two regions (MR3 and MR7) in the MdMYB10 promoter exhibited remarkable differences between BLO and KID. In particular, methylation was high and progressively increased alongside fruit development in BLO while was correspondingly low and constant in KID. The methylation levels in both MR3 and MR7 were negatively correlated with anthocyanin content as well as the expression of MdMYB10 and MdGST. Clearly, the collective repression of the 34 genes explains the loss-of-colour in BLO while the methylation in MdMYB10 promoter is likely causal for the mutation. [ABSTRACT FROM AUTHOR]

Published

2015

26. A stable JAZ protein from peach mediates the transition from outcrossing to self-pollination.

Author

Sherif, Sherif, El-Sharkawy, Islam, Mathur, Jaideep, Ravindran, Pratibha, Kumar, Prakash, Paliyath, Gopinadhan, and Jayasankar, Subramanian

Subjects

*PEACH, *PROTEINS, *PRUNUS, *BIOMOLECULES, *SELF-pollination

Abstract

Background: Variations in floral display represent one of the core features associated with the transition from allogamy to autogamy in angiosperms. The promotion of autogamy under stress conditions suggests the potential involvement of a signaling pathway with a dual role in both flower development and stress response. The jasmonic acid (JA) pathway is a plausible candidate to play such a role because of its involvement in many plant responses to environmental and developmental cues. In the present study, we used peach (Prunus persica L.) varieties with showy and non-showy flowers to investigate the role of JA (and JA signaling suppressors) in floral display. Results: Our results show that PpJAZ1, a component of the JA signaling pathway in peach, regulates petal expansion during anthesis and promotes self-pollination. PpJAZ1 transcript levels were higher in petals of the non-showy flowers than those of showy flowers at anthesis. Moreover, the ectopic expression of PpJAZ1 in tobacco (Nicotiana tabacum L.) converted the showy, chasmogamous tobacco flowers into non-showy, cleistogamous flowers. Stability of PpJAZ1 was confirmed in vivo using PpJAZ1-GFP chimeric protein. PpJAZ1 inhibited JA-dependent processes in roots and leaves of transgenic plants, including induction of JA-response genes to mechanical wounding. However, the inhibitory effect of PpJAZ1 on JA-dependent fertility functions was weaker, indicating that PpJAZ1 regulates the spatial localization of JA signaling in different plant organs. Indeed, JA-related genes showed differential expression patterns in leaves and flowers of transgenic plants. Conclusions: Our results reveal that under stress conditions - for example, herbivore attacks - stable JAZ proteins such as PpJAZ1 may alter JA signaling in different plant organs, resulting in autogamy as a reproductive assurance mechanism. This represents an additional mechanism by which plant hormone signaling can modulate a vital developmental process in response to stress. [ABSTRACT FROM AUTHOR]

Published

2015

27. Prunus domestica Pathogenesis-Related Protein-5 Activates the Defense Response Pathway and Enhances the Resistance to Fungal Infection.

Author

El-kereamy, Ashraf, El-sharkawy, Islam, Ramamoorthy, Rengasamy, Taheri, Ali, Errampalli, Deena, Kumar, Prakash, and Jayasankar, Subramanian

Subjects

*PHYTOALEXINS, *BRASSICACEAE, *SCLEROTINIACEAE, *MONILINIA fructicola, *MYCOSES, *DEMATIACEAE, *AMINO acids

Abstract

Pathogenesis-related protein-5 (PR-5) has been implicated in plant disease resistance and its antifungal activity has been demonstrated in some fruit species. However, their roles, especially their interactions with the other defense responses in plant cells, are still not fully understood. In this study, we have cloned and characterized a new PR-5 cDNA named PdPR5-1 from the European plum (Prunus domestica). Expression of PdPR5-1 was studied in different cultivars varying in resistance to the brown rot disease caused by the necrotrophic fungus Monilinia fructicola. In addition transgenic Arabidopsis, ectopically expressing PdPR5-1 was used to study its role in other plant defense responses after fungal infection. We show that the resistant cultivars exhibited much higher levels of transcripts than the susceptible cultivars during fruit ripening. However, significant rise in the transcript levels after infection with M. fructicola was observed in the susceptible cultivars too. Transgenic Arabidopsis plants exhibited more resistance to Alternaria brassicicola. Further, there was a significant increase in the transcripts of genes involved in the phenylpropanoid biosynthesis pathway such as phenylalanine ammonia-lyase (PAL) and phytoalexin (camalexin) pathway leading to an increase in camalexin content after fungal infection. Our results show that PdPR5-1 gene, in addition to its anti-fungal properties, has a possible role in activating other defense pathways, including phytoalexin production. [ABSTRACT FROM AUTHOR]

Published

2011

28. Horizontal Transfer of LTR Retrotransposons Contributes to the Genome Diversity of Vitis.

Author

Park, Minkyu, Sarkhosh, Ali, Tsolova, Violeta, and El-Sharkawy, Islam

Subjects

GRAPES, RETROTRANSPOSONS, PLANT genomes, GENOMES, PLANT species, PLANT evolution

Abstract

While horizontally transferred transposable elements (TEs) have been reported in several groups of plants, their importance for genome evolution remains poorly understood. To understand how horizontally transferred TEs contribute to plant genome evolution, we investigated the composition and activity of horizontally transferred TEs in the genomes of four Vitis species. A total of 35 horizontal transfer (HT) events were identified between the four Vitis species and 21 other plant species belonging to 14 different families. We determined the donor and recipient species for 28 of these HTs, with the Vitis species being recipients of 15 of them. As a result of HTs, 8–10 LTR retrotransposon clusters were newly formed in the genomes of the four Vitis species. The activities of the horizontally acquired LTR retrotransposons differed among Vitis species, showing that the consequences of HTs vary during the diversification of the recipient lineage. Our study provides the first evidence that the HT of TEs contributes to the diversification of plant genomes by generating additional TE subfamilies and causing their differential proliferation in host genomes. [ABSTRACT FROM AUTHOR]

Published

2021

29. Determination of Fertility-Related Traits in Muscadine Grape Population.

Author

Campbell, Jiovan, Gajjar, Pranavkumar, Ismail, Ahmed, Habibi, Fariborz, Darwish, Ahmed G., Tsolova, Violeta, Sarkhosh, Ali, and El-Sharkawy, Islam

Subjects

GENOTYPES, MAXIMA & minima

Abstract

In this study, fertility-related traits of 90 muscadine grape genotypes were evaluated. Selected genotypes included 21 standard cultivars, 60 breeding lines, and nine Vitis × Muscadinia hybrids (VM hybrids). The first fruiting bud (FFB), bud fertility (BF), bud fertility coefficient (BFC), number of flowers/flower cluster (N.F/FC), fruit-set efficiency (FSE), number of clusters/vine (N.C/V), and yield/vine (Y/V) traits were evaluated. The FFB trait did not show significant differences among genotypes. The muscadine genotype O28-4-2-2 (1.6 ± 0.2) displayed the FFB closest to the base; however, O17-16-2-1, O18-2-1, and VM A12-10-2 genotypes had the most distant FFB (3.6 ± 0.3). All the other fertility-related traits varied widely among the population. The BF, BFC, N.F/FC, FSE, N.C/V, and Y/V exhibited a range estimated at 35.1%, 81.5%, 259.7, 63.3%, 177 C/V, and 22.3 kg/V, respectively. The muscadine genotypes O42-3-1 (36.7% ± 1.3) and Majesty (34% ± 1.2) exhibited the highest BF; however, the VM A12-10-2 (1.6% ± 0.1) recorded the lowest BF. The VM genotype O15-16-1 (82.8% ± 4.1) displayed the highest BFC; however, the VM A12-10-2 (1.3% ± 0.1) showed the lowest BFC. The muscadine genotypes D7-1-1 (280.3 F/FC ± 21.7) and O17-17-1 (20.7 F/FC ± 5.5) showed the highest and lowest N.F/FC, respectively. The maximum and minimum FSE was observed for the Rosa cultivar (65.7% ± 2.4) and muscadine genotype D7-1-1 (2.4% ± 0.2), respectively. The minimum N.C/V was recorded for VM genotype A12-10-2 (6 C/V ± 0.2) and maximum noted for muscadine genotypes B20-18-2 (183 C/V ± 7.5) and O44-14-1 (176 C/V ± 7.3). Muscadine genotype O23-11-2 (22.6 kg ± 1.1) produced the highest Y/V; however, the lowest yield was recorded for O15-17-1, Fry Seedless, Sugargate, and the VM genotypes and A12-10-2, with an average yield among them estimated at 0.4 kg ± 0.2. [ABSTRACT FROM AUTHOR]

Published

2021

30. Biometrics Assessment of Cluster- and Berry-Related Traits of Muscadine Grape Population.

Author

Campbell, Jiovan, Sarkhosh, Ali, Habibi, Fariborz, Ismail, Ahmed, Gajjar, Pranavkumar, Zhongbo, Ren, Tsolova, Violeta, and El-Sharkawy, Islam

Subjects

GRAPES, BERRIES, BIOMETRY, GAUSSIAN distribution, SEEDS

Abstract

In this study, biometrics assessment of flower structure, cluster-, and berry-related traits were evaluated in a population of 90 muscadine grape genotypes for three consecutive years. This population consisted of 21 standard cultivars, 60 breeding lines, and 9 Vitis x Muscadinia hybrids (VM hybrids). Cluster length (CL) and width (CWI) characteristics exhibited slight differences among the population, with a range estimated at 7.1 and 4.6 cm, respectively. However, cluster weight (CWE), number of berries/cluster (N.B/C), and cluster compactness (CC) traits showed more diversity between individuals with a calculated range of 205.6 g, 32.6 B/C, and 24.1, respectively. Interestingly, all berry-related traits greatly varied between individuals, excluding the number of seeds/berry (N.S/B) character. The N.S/B trait displayed a narrow range of 5.6 seeds within the population. However, characters of berry length (BL), width (BWI), weight (BWE), the weight of seeds/berry (W.S/B), firmness (FF), and dry scar pattern (SP) demonstrated a wide estimated range of 21.2 mm, 21.7 mm, 25.4 g, 0.71 g, 0.21 N, and 82%, respectively. Normal distribution analysis for each trait suggested different distribution patterns extended between unimodal to multimodal behavior. Hierarchical mapping analysis was able to classify the population into several clades based on physical cluster- and berry-related attributes. The PCA suggested that hermaphroditic (perfect) flower structure is associated with compact clusters exhibiting small berries in size and weight (i.e., muscadine genotypes suitable for wine production). However, female flower structure is associated with clusters displaying large berries in size and weight (i.e., muscadine genotypes appropriate for fresh consumption). These patterns occurred independently of cluster size and weight characters. This research is the first study evaluating muscadine biometrics characters at a population level, providing valuable information for market demand and muscadine breeding programs. [ABSTRACT FROM AUTHOR]

Published

2021

31. Untargeted Metabolomics and Antioxidant Capacities of Muscadine Grape Genotypes during Berry Development.

Author

Darwish, Ahmed G., Das, Protiva Rani, Ismail, Ahmed, Gajjar, Pranavkumar, Balasubramani, Subramani Paranthaman, Sheikh, Mehboob B., Tsolova, Violeta, Sherif, Sherif M., and El-Sharkawy, Islam

Subjects

BERRIES, GRAPES, OXIDANT status, GALLIC acid, GENOTYPES, MALONIC acid

Abstract

Three muscadine grape genotypes (Muscadinia rotundifolia (Michx.) Small) were evaluated for their metabolite profiling and antioxidant activities at different berry developmental stages. A total of 329 metabolites were identified using UPLC-TOF-MS analysis (Ultimate 3000LC combined with Q Exactive MS and screened with ESI-MS) in muscadine genotypes throughout different developmental stages. Untargeted metabolomics study revealed the dominant chemical groups as amino acids, organic acids, sugars, and phenolics. Principal component analysis indicated that developmental stages rather than genotypes could explain the variations among the metabolic profiles of muscadine berries. For instance, catechin, epicatechin-3-gallate, and gallic acid were more accumulated in ripening seeds (RIP-S). However, tartaric acid and malonic acid were more abundant during the fruit-set (FS) stage, and malic acid was more abundant in the veraison (V) stage. The variable importance in the projection (VIP > 0.5) in partial least-squares–discriminant analysis described 27 biomarker compounds, representing the muscadine berry metabolome profiles. A heatmap of Pearson's correlation analysis between the 27 biomarker compounds and antioxidant activities was able to identify nine antioxidant determinants; among them, gallic acid, 4-acetamidobutanoic acid, trehalose, catechine, and epicatechin-3-gallate displayed the highest correlations with different types of antioxidant activities. For instance, DPPH and FRAP conferred a similar antioxidant activity pattern and were highly correlated with gallic acid and 4-acetamidobutanoic acid. This comprehensive study of the metabolomics and antioxidant activities of muscadine berries at different developmental stages is of great reference value for the plant, food, pharmaceutical, and nutraceutical sectors. [ABSTRACT FROM AUTHOR]

Published

2021

32. Evaluation of Biochemical Juice Attributes and Color-Related Traits in Muscadine Grape Population.

Author

Campbell, Jiovan, Sarkhosh, Ali, Habibi, Fariborz, Gajjar, Pranavkumar, Ismail, Ahmed, Tsolova, Violeta, El-Sharkawy, Islam, Corona, Onofrio, and Casal, Susana

Subjects

BERRIES, PRINCIPAL components analysis, HIERARCHICAL clustering (Cluster analysis), TARTARIC acid, GRAPES, PHENOLS

Abstract

Biochemical juice attributes and color-related traits of muscadine grape genotypes have been investigated. For this study, 90 muscadine genotypes, including 21 standard cultivars, 60 breeding lines, and 9 Vitis x Muscadinia hybrids (VM), were evaluated. The biochemical properties of total soluble solids (TSS), titratable acidity, and TSS/Acid (T/A) ratio showed modest diversity among genotypes with a range of 10.3 °Brix, 2.1 mg tartaric acid/L, and 4.6, respectively. Nonetheless, the pH trait exhibited a tight range of 0.74 among the population with a minimum and maximum pH of 3.11 ± 0.12 and 3.85 ± 0.12. Color-related traits showed more deviation between individuals. Total anthocyanin content (TAC), luminosity index (L*), hue angle (h°), and chroma index (C*) displayed a range of 398 µg/g DW, 33.2, 352.1, and 24, respectively. The hierarchical clustering map classified the population into two large groups of colored and non-colored grapes based on L* and h°, suggesting the predominance of these two characters among the population. The colored berries genotypes clade was further divided into several sub-clades depending on C*, TAC, and TSS levels. The principal component analysis (PCA) separated the four-color characteristics into two groups with a negative correlation between them, L* and C* versus TAC and h°. Further, PCA suggested the positive influence of acidity in enhancing the different nutraceutical components. Despite the nature of anthocyanins as a member of phenolic compounds, a lack of significant correlation between TAC and nutraceutical-related traits was detected. The dissimilatory matrix analysis highlighted the muscadine individuals C11-2-2, E16-9-1, O21-13-1, and Noble as particular genotypes among the population due to enhanced color characteristics. [ABSTRACT FROM AUTHOR]

Published

2021

33. Salt Stress Signals on Demand: Cellular Events in the Right Context.

Author

Ismail, Ahmed, El-Sharkawy, Islam, and Sherif, Sherif

Subjects

*BOTANISTS, *PLANT-water relationships, *SALT, *CELLULAR signal transduction, *SALINITY

Abstract

Plant stress is a real dilemma; it puzzles plant biologists and is a global problem that negatively affects people's daily lives. Of particular interest is salinity, because it represents one of the major water-related stress types. We aimed to determine the signals that guide the cellular-related events where various adaptation mechanisms cross-talk to cope with salinity-related water stress in plants. In an attempt to unravel these mechanisms and introduce cellular events in the right context, we expansively discussed how salt-related signals are sensed, with particular emphasis on aquaporins, nonselective cation channels (NSCCs), and glycosyl inositol phosphorylceramide (GIPC). We also elaborated on the critical role Ca2+, H+, and ROS in mediating signal transduction pathways associated with the response and tolerance to salt stress. In addition, the fragmentary results from the literature were compiled to develop a harmonized, informational, and contemplative model that is intended to improve our perception of these adaptative mechanisms and set a common platform for plant biologists to identify intriguing research questions in this area. [ABSTRACT FROM AUTHOR]

Published

2020

34. Identification and functional characterization of two HOOKLESS genes in Tomato (Solanum lycopersicum).

Author

Chaabouni, Salma, Pirrello, Julien, Liu, Mingchun, El-Sharkawy, Islam, Roustan, Jean-Paul, and Bouzayen, Mondher

Subjects

*TOMATOES, *HYPOCOTYLS, *ARABIDOPSIS, *ETHYLENE, *GENETIC overexpression

Abstract

The apical hook of dark-grown dicotyledonous plants results from asymmetric growth of the inner and outer sides of the upper part of the hypocotyl. This protective structure prevents damage of the shoot apical meristem and the young leaves as the seedling pushes through the soil. HOOKLESS (HLS1) of Arabidopsis was recognised as an ethylene response gene whose product is required for hook formation. We cloned two cDNAs from tomato, Sl- HLS1 and Sl- HLS2 , and showed through the complementation of the Arabidopsis hls1 mutant that the encoded proteins are functional orthologs of At-HLS1. The genomic clones of Sl- HLS1 and Sl- HLS2 showed similar structure with two introns and three exons. While the data indicate complete functional redundancy between the two tomato HLS genes, only the expression of Sl- HLS2 is regulated by ethylene and auxin and the ethylene-induced expression of Sl- HLS2 is localised in the outer side of the hook while the auxin-responsive expression is not restricted to a specific side of the hook. 1-MCP, an inhibitor of ethylene signalling, inhibited auxin-enhanced accumulation of Sl- HLS2 mRNA in the apical hook suggesting that regulation of Sl- HLS2 by auxin is ethylene-dependent. The overexpression of tomato Sl- HLS1 and Sl- HLS2 in Arabidopsis confers hypersensitivity to ethylene. The data presented bring further insight into the complex ethylene-auxin interplay in hook formation. [ABSTRACT FROM AUTHOR]

Published

2016