Your search keyword '"Asmaa M. Abushady"' showing total 19 results

1. Country-wide, multi-location trials of Green Super Rice lines for yield performance and stability analysis using genetic and stability parameters

Author

Muhammad Shahzad Ahmed, Abid Majeed, Kotb A. Attia, Rana Arsalan Javaid, Faiza Siddique, Muhammad Shahbaz Farooq, Muhammad Uzair, Seung Hwan Yang, and Asmaa M. Abushady

Subjects

Rice, Stability, G × E interaction, GGE biplot, Paddy yield, Medicine, Science

Abstract

Abstract Rice (Oryza sativa L.) is an important member of the family Poaceae and more than half of world population depend for their dietary nutrition on rice. Rice cultivars with higher yield, resilience to stress and wider adaptability are essential to ensure production stability and food security. The fundamental objective of this study was to identify higher-yielding rice genotypes with stable performance and wider adaptability in a rice growing areas of Pakistan. A triplicate RCBD design experiment with 20 Green Super Rice (GSR) advanced lines was conducted at 12 rice growing ecologies in four Provinces of Pakistan. Grain yield stability performance was assessed by using different univariate and multivariate statistics. Analysis of variance revealed significant differences among genotypes, locations, and G x E interaction for mean squares (p

Published

2024

2. Morphogenetic characterization of Stenotrophomonas maltophilia infecting white stripe disease of rice (Oryza sativa L.)

Author

Saira AZMAT, Kashif RIAZ, Ansa DILFEROZE, Akhtar HAMEED, Sajid FIAZ, Kotb A. ATTIA, Muhammad N. SUKHERA, Asmaa M. ABUSHADY, Muhammad W. ALAM, and Subhan ALI

Subjects

bacterial leaf blight, disease resistant, epidemiology, pathogen, plant health, phylogenetic, Forestry, SD1-669.5, Agriculture (General), S1-972

Abstract

Rice is a major cereal crop which ensure food security to more than half of the global population. Several biotic factors impact rice grain quality and its final production. White stripe disease, caused by pathogen Stenotrophomonas maltophilia is considered among the major limiting factor for reducing rice yields and quality. Present study was performed to understand the white stripe disease, which has been frequently misdiagnosed as bacterial leaf blight (BLB) due to similar symptoms. A survey was carried out based on accessibility and farmer participation to monitor incidence and sample collection. The survey was conducted in districts Faisalabad, Gujranwala, Sialkot, Sheikhupura, and Hafizabad, these districts were selected for their importance for rice cultivation in Pakistan. The total sample size was around 500 leaves distributed evenly throughout each study area. The results of study indicated presence of new pathogen of rice. These isolates were biochemically identified and confirmed by gram staining negative, 3% KOH positive, 5% salt tolerance positive, oxidase test negative, catalase test positive, starch hydrolysis test negative, nitrate reductase test positive, indole test negative, lactose test positive, maltose test positive, methyl red test negative, Voges-prokauer test negative and urea hydrolysis test negative. The pathogenicity test was confirmed that pathogen and the Sialkot isolate were the most aggressive isolate among the five isolates collected form the studied areas. The molecular characterization was accomplished by PCR and sequencing. The results of the phylogenetic study indicate that this pathogen belongs to a distinct group, as it is distantly related to Xanthomonas oryzae pv. oryzae (Xoo). This study provides important findings into a novel clade of pathogen causing white stripe disease in rice.

Published

2024

3. CRISPR/Cas9 mediated TaRPK1 root architecture gene mutagenesis confers enhanced wheat yield

Author

Amna Abdul Rahim, Muhammad Uzair, Nazia Rehman, Sajid Fiaz, Kotb A. Attia, Asmaa M. Abushady, Seung Hwan Yang, and Muhammad Ramzan Khan

Subjects

RPK1 editing, Agrobacterium-mediated transformation, Root architecture, Grain weight, Wheat, Science (General), Q1-390

Abstract

CRISPR/Cas9 system has emerged as an efficient tool for sustainable crop improvement. Roots are the “principal hidden organ” that has a crucial function in vascular plants. Receptor-like protein kinase 1 (RPK1) has been reported to regulate root architecture system (RAS), abiotic stress, and yield both in Arabidopsis and rice. We employed a CRISPR/Cas9-based system, namely LR-1 and LR-2 constructs having double guided RNAs transformed via agrobacterium for targeted mutagenesis of TaRPK1 genes to alter the root architecture and hence yield in Triticum aestivum. Sequencing confirmed seven CRISPR/Cas9-based mutated T0 lines of LR-1 constructs and six T0 lines of LR-2 constructs, with an overall mutation efficiency of 41.93%. The T0 plants displayed higher monoallelic mutation compared to the diallelic mutation. 37.5% monoallelic mutation at target site 1 within the D genome by gRNA1 was observed by the LR-1 construct. The LR-2 constructs showed a higher monoallelic mutation frequency of 26.67% at target sites 1 and 2 within A, B, and D genomes. The deletions were mainly short, however longer deletions such as 12d, 17d, 19d, and 20d were detected by gRNA2 of LR-1 construct. Transgenic lines revealed significant alteration in morphology and RSA with a significant increase in number of effective tillers, grain weight, root length, root depth, root volume, and root surface area while reduced root diameter, root angle, and spike length, compared to the wild plants. Tillers and total grain weight increased significantly, suggesting edited lines increased grain production by decreasing spike length. The study validates that CRISPR/Cas9 mediated targeted editing of TaRPK1 is a practical approach for modifying RAS and hence yield enhancement in wheat.

Published

2024

4. Host plant-mediated effects on Buchnera symbiont: implications for biological characteristics and nutritional metabolism of pea aphids (Acyrthosiphon pisum)

Author

Hui-ping Liu, Qiao-yan Yang, Jing-xing Liu, Inzamam Ul Haq, Yan Li, Qiang-yan Zhang, Kotb A. Attia, Asmaa M. Abushady, Chang-zhong Liu, and Ning Lv

Subjects

host plant, Acyrthosiphon pisum, primary symbiont, development and growth, nutrients, Plant culture, SB1-1110

Abstract

IntroductionThe pea aphid, Acyrthosiphon pisum, is a typical sap-feeding insect and an important worldwide pest. There is a primary symbiont-Buchnera aphidicola, which can synthesize and provide some essential nutrients for its host. At the same time, the hosts also can actively adjust the density of bacterial symbiosis to cope with the changes in environmental and physiological factors. However, it is still unclear how symbionts mediate the interaction between herbivorous insects’ nutrient metabolism and host plants.MethodsThe current study has studied the effects of different host plants on the biological characteristics, Buchnera titer, and nutritional metabolism of pea aphids. This study investigated the influence of different host plants on biological characteristics, Buchnera titer, and nutritional metabolism of pea aphids.Results and discussionThe titer of Buchnera was significantly higher on T. Pretense and M. officinalis, and the relative expression levels were 1.966±0.104 and 1.621±0.167, respectively. The content of soluble sugar (53.46±1.97µg/mg), glycogen (1.12±0.07µg/mg) and total energy (1341.51±39.37µg/mg) of the pea aphid on V. faba were significantly higher and showed high fecundity (143.86±11.31) and weight (10.46±0.77µg/mg). The content of total lipids was higher on P. sativum and T. pretense, which were 2.82±0.03µg/mg and 2.92±0.07µg/mg, respectively. Correlation analysis found that the difference in Buchnera titer was positively correlated with the protein content in M. officinalis and the content of total energy in T. pratense (P < 0.05). This study confirmed that host plants not only affected the biological characteristics and nutritional metabolism of pea aphids but also regulated the symbiotic density, thus interfering with the nutritional function of Buchnera. The results can provide a theoretical basis for further studies on the influence of different host plants on the development of pea aphids and other insects.

Published

2023

5. Functional characterization of the IGT gene family in wheat reveals conservation and variation in root architecture under drought condition

Author

Fatima Rasool, Muhammad Uzair, Kotb A. Attia, Asmaa M. Abushady, Obaid ur Rehman, Muhammad Shahbaz Farooq, Sajid Fiaz, Umer Farooq, Bilal Saleem, Zoqia Tariq, Safeena Inam, Nazia Rehman, Itoh Kimiko, and Muhammad Ramzan Khan

Subjects

Wheat, IGT genes, Root architecture, Gene evolution, Molecular docking, Plant ecology, QK900-989

Abstract

Plant architecture traits are a pivotal component in crop improvement and one of the key aspects of breeding programs for centuries. Among architecture traits, leaves and roots angle are most important whereas roots angle is considered to play a vital role in plant response to drought avoidance. Several genes regulating drought response reported in plants, such as LAZY1, Deeper Rooting 1 (DRO1), and Tiller angle control 1 (TAC1), belong to the IGT family. The wheat (Triticum aestivum L.) genome is complex because it consists of three subgenomes A, B, and D. A genome-wide (A, B, and D) identification and characterization of IGT family genes in wheat was reported in this study. A total of 12 IGT genes were identified and categorized based on phylogenetic reconstruction and gene structure analysis. These genes were distributed on chromosomes 2, 5, and 6 corresponding to the A, B, and D genomes of wheat. Most of the genes showed similar structures. Cis-regulatory elements in the promoter regions interpreted the presence of light, stress, development, and hormone-related elements. Five miRNAs (tae-miR9773, tae-miR531, tae-miR9678–3p, tae-miR9781, and tae-miR5049–3p) were predicted which target these TaIGT. Both the RNA-seq-based transcriptomic and real-time gene expression analysis suggested that all the genes are strongly expressed in roots, thus showing function conservation. 3D models and molecular docking of TaIGT were also carried out systematically, and binding patterns and the orientation of ligands in the active site of proteins were predicted. This study delves further into TaIGT genes and their expression patterns. The findings of this work are important for understanding the molecular control of root development and for future functional characterization of wheat root architecture genes. Key message: IGT gene family has not been identified and characterized and we identified 12 genes strongly expressing in roots. Furthermore, five miRNAs were predicted and could have a role in root conservation.

Published

2023

6. Genome wide analysis for the identification and characterization of Superoxide-dismutase gene family in Rosa chinensis ascertains the role of salinity-responsive RcMSD1 protein and its interaction with peroxyl radical

Author

Muhammad Umar Rafique, Nazia Nahid, Farrukh Azeem, Sajid Fiaz, Kotb A. Attia, Roshan Zameer, Muhammad Waqas, Muhammad Tahir ul Qamar, and Asmaa M. Abushady

Subjects

China rose, Salt stress, ROS, Metallo-enzyme, RNA-seq, Peroxyl radical, Plant ecology, QK900-989

Abstract

Abiotic stresses e.g., cold, heat, and salinity affect the quality and yield of Rosa chinensis, a well-known ornamental and medicinal plant. Previously, several attempts have been made to identify the genes that confer resistance to oxidative stressors. Superoxide-dismutase (SOD) is a crucial member of the class metalloenzyme that responds to abiotic stresses and protects plants by countering the reactive-oxygen species (ROS). In this genome-wide association study, the SOD gene family has been investigated in R. chinensis. Seven SOD genes, including three Cu/ZnSODs, two MnSODs, and two FeSODs were identified. Phylogenetic analysis revealed that RcSODs are divided into three clades; (i) CSDs (Cu/ZnSODs) (ii) FSDs (FeSODs) and MSDs (MnSODs). Most of the RcSODs exhibited different exons/introns distribution patterns. Motifs 3 and 5 are conserved in all RcSODs genes. The RNA-seq data analysis and qRT-PCR-based expression profiling indicated that RcSODs exhibit diverse responses under salt stress conditions. The RcCSD1, RcCSD3, and RcFSD3 are significantly up-regulated under salt stress conditions in roots and down-regulated in leaves. This data provides valuable information for further application and function of SODs in R. chinensis under abiotic stresses.

Published

2023

7. The Effect of Probiotic Supplementation on the Gut–Brain Axis in Psychiatric Patients

Author

Hussein Sabit, Areej Kassab, Donia Alaa, Shaza Mohamed, Shaimaa Abdel-Ghany, Mohamed Mansy, Osama A. Said, Mona A. Khalifa, Halah Hafiz, and Asmaa M. Abushady

Subjects

psychiatric disorders, gut microbiota, gut–brain axis, mouth–gut axis, probiotics, Biology (General), QH301-705.5

Abstract

The pathophysiology of several psychiatric diseases may entail disturbances in the hypothalamic–pituitary–adrenal (HPA) axis and metabolic pathways. Variations in how these effects present themselves may be connected to individual variances in clinical symptoms and treatment responses, such as the observation that a significant fraction of participants do not respond to current antipsychotic drugs. A bidirectional signaling pathway between the central nervous system and the gastrointestinal tract is known as the microbiota–gut–brain axis. The large and small intestines contain more than 100 trillion microbial cells, contributing to the intestinal ecosystem’s incredible complexity. Interactions between the microbiota and intestinal epithelium can alter brain physiology and affect mood and behavior. There has recently been a focus on how these relationships impact mental health. According to evidence, intestinal microbiota may play a role in neurological and mental illnesses. Intestinal metabolites of microbial origin, such as short-chain fatty acids, tryptophan metabolites, and bacterial components that might stimulate the host’s immune system, are mentioned in this review. We aim to shed some on the growing role of gut microbiota in inducing/manipulating several psychiatric disorders, which may pave the way for novel microbiota-based therapies.

Published

2023

8. Biochemical and genotyping analyses of camels (Camelus dromedaries) trypanosomiasis in North Africa

Author

Ahmed M. Darwish, Abdoallah Sharaf, Semir Bechir Suheil Gaouar, Neama I. Ali, Tamer H. Abd El-Aziz, Asmaa M. Abushady, Zoubeyda Kaouadji, Othman E. Othman, and Miroslav Obornik

Subjects

Medicine, Science

Abstract

Abstract Camels are considered an important food source in North Africa. Trypanosomiasis in camels is a life-threatening disease that causes severe economic losses in milk and meat production. Therefore, the objective of this study was to determine the trypanosome genotypes in the North African region. Trypanosome infection rates were determined by microscopic examination of blood smears and polymerase chain reaction (PCR). In addition, total antioxidant capacity (TAC), lipid peroxides (MDA), reduced glutathione (GSH), superoxide dismutase (SOD) and catalase (CAT) were determined in erythrocyte lysate. Furthermore, 18S amplicon sequencing was used to barcode and characterizes the genetic diversity of trypanosome genotypes in camel blood. In addition to Trypanosoma, Babesia and Thelieria were also detected in the blood samples. PCR showed that the trypanosome infection rate was higher in Algerian samples (25.7%) than in Egyptian samples (7.2%). Parameters such as MDA, GSH, SOD and CAT had significantly increased in camels infected with trypanosomes compared to uninfected control animals, while TAC level was not significantly changed. The results of relative amplicon abundance showed that the range of trypanosome infection was higher in Egypt than in Algeria. Moreover, phylogenetic analysis showed that the Trypanosoma sequences of Egyptian and Algerian camels are related to Trypanosoma evansi. Unexpectedly, diversity within T. evansi was higher in Egyptian camels than in Algerian camels. We present here the first molecular report providing a picture of trypanosomiasis in camels, covering wide geographical areas in Egypt and Algeria.

Published

2023

9. Bacopa monnieri: A promising herbal approach for neurodegenerative disease treatment supported by in silico and in vitro research

Author

Shehla Shoukat, Muhammad Amir Zia, Muhammad Uzair, Kotb A. Attia, Asmaa M. Abushady, Sajid Fiaz, Shaukat Ali, Seung Hwan Yang, and Ghulam Muhammad Ali

Subjects

Bacopa monnieri, Bacopaside X, Neurodegeneration, Acetylcholinesterase inhibitors, Memory loss and anxiety, Inhibition activity, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Neurodegenerative disorders, caused by progressive neuron loss, are a global health issue. Among the various factors implicated in their pathogenesis, dysregulation of acetylcholinesterase activity has been recognized as a key contributor. Acetylcholinesterase breaks down the neurotransmitter acetylcholine, important for neural transmission. Evaluating phyto-compounds from Bacopa monnieri Linn. through in vitro and in silico analysis may expand their role as alternative therapeutic agents by modulating the function of acetylcholinesterase and complementing existing treatments. To accomplish this objective, chemical structures of phyto-compounds were retrieved from PubChem database and subjected to in silico and in vitro approaches. Virtual screening was performed through molecular docking and molecular dynamic simulation resulting in four top hit compounds including quercetin, apigenin, wogonin, and bacopaside X (novel lead compound for acetylcholinesterase inhibitor) with least binding score. Further, dose dependent acetylcholinesterase inhibition biochemical assay depicted that bacopaside X, apigenin, quercetin, and wogonin exhibited strong potential against acetylcholinesterase with IC50 values of 12.78 μM, 13.83 μM, 12.73 μM and 15.48 μM respectively, in comparison with the donepezil (IC50: 0.0204 μM). The in silico and in vitro research suggests that B. monnieri phyto-compounds have the potential to modulate molecular targets associated with neurodegenerative diseases and have a role in neuroprotection.

Published

2023

10. Genome-wide comparison and identification of myosin gene family in Arabidopsis thaliana and Helianthus annuus

Author

Hafiz Muhammad Ahmad, Hayat Ali Alafari, Sajid Fiaz, Dalal S. Alshaya, Sidra Toor, Munazza Ijaz, Nouman Rasool, Kotb A. Attia, Madiha Zaynab, Saira Azmat, Asmaa M. Abushady, and Yinglong Chen

Subjects

Plant motility, Molecular motors, Actin binding, Fluidic movement, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Myosins are essential components of organelle trafficking in all the eukaryotic cells. Myosin driven movement plays a vital role in the development of pollen tubes, root hairs and root tips of flowering plants. The present research characterized the myosin genes in Arabidopsis thaliana and Helianthus annuus by using different computational tools. We discovered a total of 50 myosin genes and their splice variants in both pant species. Phylogenetic analysis indicated that myosin genes were divided into four subclasses. Chromosomal location revealed that myosin genes were located on all five chromosomes in A. thaliana, whereas they were present on nine chromosomes in H. annuus. Conserved motifs showed that conserved regions were closely similar within subgroups. Gene structure analysis showed that Atmyosin2.2 and Atmyosin2.3 had the highest number of introns/exons. Gene ontology analysis indicated that myosin genes were involved in vesicle transport along actin filament and cytoskeleton trafficking. Expression analysis showed that expression of myosin genes was higher during the flowering stage as compared to the seedling and budding stages. Tissue specific expression indicated that HanMYOSIN11.2, HanMYOSIN16.2 were highly expressed in stamen, whereas HanMYOSIN 2.2, HanMYOSIN 12.1 and HanMYOSIN 17.1 showed higher expression in nectary. This study enhance our understanding the function of myosins in plant development, and forms the basis for future research about the comparative genomics of plant myosin in other crop plants.

Published

2022

11. Citric acid assisted phytoextraction of nickle from soil helps to tolerate oxidative stress and expression profile of NRAMP genes in sunflower at different growth stages

Author

Munazza Ijaz, Mahmood-ur-Rahman Ansari, Hayat Ali Alafari, Muhammad Iqbal, Dalal S. Alshaya, Sajid Fiaz, Hafiz Muhammad Ahmad, Muhammad Zubair, Pia Muhammad Adnan Ramzani, Javed Iqbal, Asmaa M. Abushady, and Kotb Attia

Subjects

soil pollution, toxicity, gene expression, proline, citric acid, nickel, Plant culture, SB1-1110

Abstract

IntroductionSoil polluted with Nickel (Ni) adversely affects sunflower growth resulting in reduced yield. Counterbalancing Ni toxicity requires complex molecular, biochemical, and physiological mechanisms at the cellular, tissue, and whole plant levels, which might improve crop productivity. One of the primary adaptations to tolerate Ni toxicity is the enhanced production of antioxidant enzymes and the elevated expression of Ni responsive genes.MethodsIn this study, biochemical parameters, production of ROS, antioxidants regulation, and expression of NRAMP metal transporter genes were studied under Ni stress in sunflower. There were four soil Ni treatments (0, 50, 100, and 200 mg kg-1 soil), while citric acid (CA, 5 mM kg-1 soil) was applied on the 28th and 58th days of plant growth. The samples for all analyses were obtained on the 30th and 60th day of plant growth, respectively.Results and discussionThe results indicated that the concentrations of Ni in roots and shoots were increased with increasing concentrations of Ni at both time intervals. Proline contents, ascorbic acid, protein, and total phenolics were reduced under Ni-stress, but with the application of CA, improvement was witnessed in their contents. The levels of malondialdehyde and hydrogen peroxide were enhanced with the increasing concentration of Ni, and after applying CA, they were reduced. The contents of antioxidants, i.e., catalase, peroxidase, superoxide dismutase, ascorbate peroxidase, dehydroascorbate reductase, and glutathione reductase, were increased at 50 ppm Ni concentration and decreased at higher concentrations of Ni. The application of CA significantly improved antioxidants at all concentrations of Ni. The enhanced expression of NRAMP1 (4, 51 and 81 folds) and NRAMP3 (1.05, 4 and 6 folds) was found at 50, 100 and 200ppm Ni-stress, respectively in 30 days old plants and the same pattern of expression was recorded in 60 days old plants. CA further enhanced the expression at both developmental stages.ConclusionIn conclusion, CA enhances Ni phytoextraction efficiency as well as protect plant against oxidative stress caused by Ni in sunflower.

Published

2022

12. Injected Anhydrous Ammonia Is More Effective Than Broadcast Urea as a Source of Nitrogen for Drill Seeded Rice

Author

Elsayed Naeem, Taher Abd El-Megeed, Yasmin Emadeldin, Asmaa M. Abushady, and Mohamed Abdelrahman

Subjects

grain yield, economic analysis, net income, rice, sustainable agriculture, food security, Agriculture

Abstract

Anhydrous ammonia is a cheaper source of nitrogen (N) fertiliser than granular urea for rice production, but it is not widely used in developing countries. It can only be applied pre-crop with any in-crop applications being applied in the form of urea. This 2-year study conducted in the Nile delta region of Egypt compared pre-crop anhydrous ammonia injected to a depth of 20 cm with broadcast urea as N sources for rice, along with 4 combinations of pre-crop ammonia and in-crop urea. Each treatment supplied a total of 165 kg N/ha. The rice crop was direct seeded rather than transplanted. The highest yields were achieved in the full anhydrous ammonia treatment, which yielded 53% more grain than the nil-N control, while the full urea treatment yielded 22% more than the control; most combination treatments were intermediate. The higher grain yield of the anhydrous ammonia treatment was through a higher panicle density per unit area and more filled grains per panicle. An economic analysis found that the anhydrous ammonia treatment had a net return 70–94% higher than supplying the same quantity of N as urea. Counts of bacteria, fungi and actinomycetes showed a decline by day 2 after injection of anhydrous ammonia, followed by an increase to numbers similar to or above pre-injection levels by day 5. The findings indicated that pre-crop anhydrous ammonia in rice is both economically promising and not deleterious to soil microbes.

Published

2022

13. Integrated Analysis of Bulk and Single-Cell Transcriptomics in Cervical Cancer: Insights into BPGM, EGLN3, and SUN1.

Author

Assem K. Elsherif, Mohamed Emam, Asmaa M. Abushady, Mariam Gamaleldin, Walid Al-Atabany, and Mohamed El-Hadidi

Published

2023

14. Phylogeographic and population genetic structure of hound-like native dogs of the Mediterranean Basin

Author

Francesco Perini, Irene Cardinali, Simone Ceccobelli, Anthony Gruppetta, Carlos San José, Mario Cosenza, Nicolò Musso, Amparo Martìnez, Asmaa M. Abushady, Luis V. Monteagudo, Luigi Liotta, Hovirag Lancioni, George Attard, and Emiliano Lasagna

Subjects

STRs, Canis lupus familiaris, General Veterinary, Canis lupus familiaris, STRs, mtDNA variation, Local breeds, Inbreeding, Local breeds, Inbreeding, mtDNA variation

Abstract

The dog was probably the first domesticated animal. Despite extensive archaeological and genetic investigations, the origin and the evolution of the extant dogs are still being debated. Dog breeds that have over time been selected for hunting share common ancestral traits. This study represents the first comprehensive attempt to survey at the genomic and mitochondrial level eight hound-like dogs breeds indigenous to the Mediterranean Basin to determine if they share common ancient origins. Results from the microsatellite analysis indicate that all the dog populations have a low inbreeding value.The Kelb tal-Fenek has a high divergence from the current Egyptian street population, however there is not enough evidence from this study to exclude completely the potential of an ancient common relationship. Overall, the mitochondrial results indicate high frequencies of haplogroups A and B and a low representation of haplogroup C, while only one Egyptian dog could be assigned to haplogroup D. Results reveal identities and shared clades, suggesting the conservation of ancient European mitotypes in the Mediterranean hound-like breeds, especially in the Egyptian population. Although none of the dog populations/breeds participating in this study indicate to be direct descendants of the Egyptian dogs, they still have a very close morphologically resemblance to those iconic Egyptian dogs often depicted in ancient art forms and share some genetic links with the current Egyptian population. Further research is required with other markers such us complete mitogenomes and SNP panels to confirm the complex history of the Mediterranean dogs involved in this study.

Published

2023

15. Salinity stress reveals three types of RNA editing sites in mitochondrial Nad7 gene of wild barley both in silico and in qRT-PCR experiments

Author

Ahmed M. Ramadan, Asmaa M. Abushady, and Osama A. M. Said

Subjects

Genetics, Real-time polymerase chain reaction, RNA editing, In silico, Plant Science, Biology, Agronomy and Crop Science, Gene, Salinity stress

Published

2021

16. VARIATION IN GENE EXPRESSION OF LEPTIN AND INSULIN LIKE GROWTH FACTOR (IGF) GENES IN RESPONSE TO SEASONAL DIFFERENCES IN CAMEL

Author

Asmaa M. Abushady, Hend A. E. Ibrahim, H. A. Elmetwaly, Alia A. El-Seoudy, A. Z. Abdelsalam, and Hussein Sabit

Subjects

medicine.medical_specialty, Leptin, medicine.medical_treatment, Methylation, Biology, Gene expression profiling, Insulin-like growth factor, Endocrinology, Internal medicine, DNA methylation, Gene expression, medicine, Epigenetics, Gene

Abstract

Epigenetic regulation of gene expression has proven to be a good biomarker for gene expression profiling. In the present study, Real-time PCR and Methylation level were performed to compare the levels of Leptin and IGF gene expression on 20 Maghrabi female camels exposed to variable temperatures (winter and summer). The results showed that hypermethylation prevailed in winter than in summer. A different profile was obtained in summer for both the two genes under study, as the hypomethylation was globally predominant. It could be concluded that the seasonal variations and conditions of the external environment in which the animal lives affect the various proteins in gene expression for each of the two genes (leptin and insulin-like growth factor). Where there is an inverse relationship between gene expression and methylation level. This means that the drop of temperature in winter leads to an increase of the methylation level (hypermethylation); resulting in a decrease in gene expression (down-regulation). On the other hand, temperature was rising during the summer, leads to the decrease of methylation level (hypomethylation) resulting in an increase in gene expression (upregulation) of the above-mentioned genes.

Published

2018

17. Association of dopamine D4 receptor gene variants with autism

Author

Mohamed Farouk Mohamed Khalil, Maha Moustafa Kamal, Asmaa M. Abushady, and Ghada H. El Nady

Subjects

Genetics, medicine.medical_specialty, Intelligence quotient, business.industry, medicine.disease, Neurodevelopmental disorder, Autism spectrum disorder, mental disorders, medicine, Childhood Autism Rating Scale, Autism, Heritability of autism, Gene polymorphism, Allele, Psychiatry, business

Abstract

Background: Autism spectrum disorder (ASD) is a heritable neurodevelopmental disorder with poorly understood and complex etiology. The central dopaminergic system is strongly implicated in ASD pathogenesis. Genes encoding various elements of this system have been linked to ASD. This study aimed to estimate the distribution frequency of dopamine D4 receptor-exon III repeat region polymorphic genotypes among Egyptian children with autism. Methods: This case-control study included 178 children with autism (mean age 4.46±1.72 years) (118 males and 60 females) and a normal control group (n=128) of matching age and gender. Assessments by DSMIV- TR criteria, Stanford-Binet intelligence scale and childhood autism rating scale (CARS) were done. Assay for DRD4 48 bp VNTR genotypes was performed on amplified DNA by RFLP-PCR. Results: The 4/4 allele had the highest frequency among both autistic (39.32%) and control children (62.5%), with no significant difference between them. The 7/7 allele had also a high frequency (33.7%) among autistic patients, which was significantly different (p˂0.05) from the control group (12.5%) Furthermore, 70% of the patients carrying the 7/7 allele had the lowest IQ scores (58.5±6.5). Conclusions: There is a strong evidence that the DRD4 7/7 allele might be a risk factor for autism.

Published

2015

18. Weak Genetic Structure in Northern African Dromedary Camels Reflects Their Unique Evolutionary History

Author

Youcef Amine Cherifi, Elena Ciani, Abdoallah Sharaf, Suheil Bechir Semir Gaouar, Giovanni Michele Lacalandra, Asmaa M. Abushady, K. A. El-Bahrawy, Rosangela Guastamacchia, Nadhira Saidi-Mehtar, and Derradji Harek

Subjects

0301 basic medicine, Population genetics, lcsh:Medicine, Breeding, Geographical Locations, Camels, Africa, Northern, lcsh:Science, Mammals, Multidisciplinary, Geography, Ecology, Homozygote, 04 agricultural and veterinary sciences, Phylogeography, Biogeography, Vertebrates, Genetic structure, Egypt, Research Article, Camelus, Livestock, Breeding program, Animal Types, Biology, Evolution, Molecular, 03 medical and health sciences, Genetic variation, Genetics, Animals, Domestic Animals, Allele, Domestication, Evolutionary Biology, Genetic diversity, Population Biology, Ecology and Environmental Sciences, lcsh:R, Organisms, 0402 animal and dairy science, Biology and Life Sciences, Genetic Variation, Bayes Theorem, 040201 dairy & animal science, Genetics, Population, 030104 developmental biology, Genetic Loci, Evolutionary biology, Algeria, Amniotes, People and Places, Africa, Earth Sciences, lcsh:Q, Zoology, Population Genetics, Microsatellite Repeats

Abstract

Knowledge on genetic diversity and structure of camel populations is fundamental for sustainable herd management and breeding program implementation in this species. Here we characterized a total of 331 camels from Northern Africa, representative of six populations and thirteen Algerian and Egyptian geographic regions, using 20 STR markers. The nineteen polymorphic loci displayed an average of 9.79 ± 5.31 alleles, ranging from 2 (CVRL8) to 24 (CVRL1D). Average He was 0.647 ± 0.173. Eleven loci deviated significantly from Hardy-Weinberg proportions (P

Published

2017

19. Detecting the existence of gene flow between Spanish and North African goats through a coalescent approach

Author

Asmaa M. Abushady, A.O. Adebambo, Oriol Vidal, Jordi Jordana, Juan Vicente Delgado, Bouabid Badaoui, Mabrouk El Ouni, A. Pons, Marcel Amills, Arianna Manunza, Vincenzo Landi, Juan Capote, Ainhoa Ferrando, Muritala Ismaila, Ahmed Elbeltagy, Amparo Martínez Martínez, Salah Galal, M.D. Gómez, and Ministerio de Economía y Competitividad (España)

Subjects

Gene Flow, 0106 biological sciences, 0301 basic medicine, Animal breeding, Population genetics, Goats -- Breeding, Breeding, Biology, 010603 evolutionary biology, 01 natural sciences, Article, Divergence, Gene flow, Coalescent theory, 03 medical and health sciences, Africa, Northern, Animals -- Millora genètica, Animals, Genetics, Genetic diversity, Multidisciplinary, Genètica de poblacions, Goats, 030104 developmental biology, Cabres -- Millora genètica, Spain, Evolutionary biology, Cabres, Microsatellite, North african

Abstract

Human-driven migrations are one of the main processes shaping the genetic diversity and population structure of domestic species. However, their magnitude and direction have been rarely analysed in a statistical framework. We aimed to estimate the impact of migration on the population structure of Spanish and African goats. To achieve this goal, we analysed a dataset of 1,472 individuals typed with 23 microsatellites. Population structure of African and Spanish goats was moderate (mean FST = 0.07), with the exception of the Canarian and South African breeds that displayed a significant differentiation when compared to goats from North Africa and Nigeria. Measurement of gene flow with Migrate-n and IMa coalescent genealogy samplers supported the existence of a bidirectional gene flow between African and Spanish goats. Moreover, IMa estimates of the effective number of migrants were remarkably lower than those calculated with Migrate-n and classical approaches. Such discrepancies suggest that recent divergence, rather than extensive gene flow, is the main cause of the weak population structure observed in caprine breeds., We acknowledge the support of the Spanish Ministry of Economy and Competitivity for the Center of Excellence Severo Ochoa 2016–2019 (SEV-2015-0533) grant awarded to the Center for Research in Agricultural Genomics.

Published

2016