Your search keyword '"Rehman, ZU"' showing total 390 results

101. Radio basilic transposition arteriovenous fistula : An effective but less frequently used haemodialysis vascular access - A Case Report.

Author

Riaz T, Rehman ZU, and Riaz SA

Subjects

Male, Humans, Middle Aged, Veins surgery, Treatment Outcome, Vascular Patency, Renal Dialysis, Arteriovenous Shunt, Surgical, Arteriovenous Fistula

Abstract

Radiobasilic transposition arteriovenous fistula (RBTAVF) is often ignored as an option for haemodialysis access. We present the case of a 57-year-old male patient who presented at the AKUH vascular clinic, Karachi, for the creation of long-term haemodialysis vascular access. He had small-sized forearm cephalic vein (1.5 mm), but reasonable sized basilic vein. He underwent successful RBTAVF. Most of the guidelines recommend brachiocephalic fistula (BCF) as the second choice following radiocephalic AVF. This case recommends the inclusion of RBAVF as the second choice for vascular access in international guidelines, in addition to BCF and BBF.

Published

2023

102. Synthesis and Characterization of Ni Nanoparticles via the Microemulsion Technique and Its Applications for Energy Storage Devices.

Author

Rehman ZU, Nawaz M, Ullah H, Uddin I, Shad S, Eldin E, Alshgari RA, Bahajjaj AAA, Arifeen WU, and Javed MS

Abstract

Herein, a unique synthetic approach called microemulsion is used to create nickel nanoparticles (Ni-NPs). SEM, TEM, EDX, and XRD techniques were employed for the investigation of morphology and structures of the synthesized material. Electrons from electroactive components are transferred to external circuits by Ni-NPs' superior electrical conductivity and interconnected nanostructures, which also provide a large number of channels for ion diffusion and additional active sites. The experimental findings showed that as a positive electrode for supercapacitors (SC), Ni-NPs had an outstanding ability to store charge, with a dominant capacitive charge storage of 72.4% when measured at 10 mV/s. Furthermore, at 1 A/g, Ni-NP electrodes exhibit a maximum capacitance of 730 F/g. Further, the Ni-NP electrode retains 92.4% of its capacitance even for 5000 cycles, highlighting possible applications for it in the developing field of renewable energy. The current study provides a new method for producing high-rate next-generation electrodes for supercapacitors.

Published

2022

103. Plant in vitro cultures: A promising and emerging technology for the feasible production of antidiabetic metabolites in Caralluma tuberculata .

Author

Ali A, Mashwani ZU, Ahmad I, Raja NI, Mohammad S, and Khan SU

Subjects

Glycosides, Plant Extracts pharmacology, Insulin, Hypoglycemic Agents pharmacology, Apocynaceae

Abstract

Caralluma tuberculata , a medicinal and edible plant of the genus Caralluma , belongs to the family Asclepiadaceae. Traditionally, its succulent stems are used as folk medicine for life-threatening diabetes mellitus (DM) disease. Its antidiabetic potential is ascribed to the presence of various secondary metabolites (e.g., pregnane glycosides, flavone glycosides, megastigmane glycosides, polyphenols, ferulic acid, quercetin, and bitter principles, among others) that act as effective and safe antidiabetic agents. The mechanisms of these bioactive secondary metabolites in C. tuberculata herbal medicine include lowering the blood glucose level, stimulating B cells of the pancreas to release more insulin, enhancing the sensitivity of the insulin receptor, inhibiting the action of glucagon and the hydrolysis of glycogen, and increasing the use of glucose in tissues and organ. However, overexploitation, alterations in natural environmental conditions, lower seed viability, and slow growth rate are responsible for the extinction of species from natural habitats, then becoming critically endangered species according to the International Union for Conservation of Nature Red List categories. Therefore, its limited availability does not meet the higher worldwide market demand of C. tuberculata as an antidiabetic drug. Thus, for its conservation and sustainable utilization, researchers across the globe are working on devising strategies to conserve and improve biomass along with the secondary metabolite profiles of C. tuberculata using in vitro approaches. The current review describes the recent progress on antidiabetic phytoconstituents, their cellular mechanisms, and their subsequent clinical outcomes in the drug discovery management of DM. Moreover, in vitro methods such as callus culture, micropropagation, and nano-elicitation strategies for conserving and producing bioactive secondary metabolites have been concisely reviewed and discussed., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ali, Mashwani, Ahmad, Raja, Mohammad and Khan.)

Published

2022

104. The Expansion of the Spectrum in Stuttering Disorders to a Novel ARMC Gene Family ( ARMC3 ).

Author

Rehman AU, Hamid M, Khan SA, Eisa M, Ullah W, Rehman ZU, Khan MA, Basit S, Muhammad N, Khan S, and Wasif N

Subjects

Humans, Exons, Homozygote, Phenotype, Pedigree, Stuttering genetics, Armadillo Domain Proteins genetics

Abstract

Stuttering is a common neurodevelopment speech disorder that negatively affects the socio-psychological dimensions of people with disability. It displays many attributes of a complex genetic trait, and a few genetic loci have been identified through linkage studies. Stuttering is highly variable regarding its phenotypes and molecular etiology. However, all stutters have some common features, including blocks in speech, prolongation, and repetition of sounds, syllables, and words. The involuntary actions associated with stuttering often involve increased eye blinking, tremors of the lips or jaws, head jerks, clenched fists, perspiration, and cardiovascular changes. In the present study, we recruited a consanguineous Pakistani family showing an autosomal recessive mode of inheritance. The exome sequencing identified a homozygous splice site variant in ARMC3 (Armadillo Repeat Containing 3) in a consanguineous Pashtun family of Pakistani origin as the underlying genetic cause of non-syndromic stuttering. The homozygous splice site variant (NM_173081.5:c.916 + 1G > A) segregated with the stuttering phenotype in this family. The splice change leading to the skipping of exon-8 is a loss of function (LoF) variant, which is predicted to undergo NMD (Nonsense mediated decay). Here, we report ARMC3 as a novel candidate gene causing the stuttering phenotype. ARMC3 may lead to neurodevelopmental disorders, including stuttering in humans., Competing Interests: The authors declare no conflict of interests.

Published

2022

105. Visfatin is a multifaceted molecule that exerts regulation effects on inflammation and apoptosis in RAW264.7 cells and mice immune organs.

Author

Zhang Z, Xiao K, Wang S, Ansari AR, Niu X, Yang W, Lu M, Yang Z, Rehman ZU, Zou W, Bei W, and Song H

Subjects

Mice, Animals, Phosphatidylinositol 3-Kinases metabolism, Cytokines metabolism, Apoptosis, Inflammation, Nicotinamide Phosphoribosyltransferase metabolism, Lipopolysaccharides

Abstract

Visfatin, a multifunctional adipocytokine, is particularly important in the regulation of apoptosis and inflammation through an unidentified mechanism. Clarifying the control mechanisms of visfatin on inflammation and apoptosis in RAW264.7 cells and mice immunological organs was the goal of the current investigation. In order to create a pathophysiological model, the RAW264.7 cells were stimulated with 200 ng/mL visfatin and 20 μg/mL lipopolysaccharide (LPS), either separately or combined. The effects of exogenous visfatin on inflammation and apoptosis in RAW264.7 cells were investigated by flow cytometry assay, RNA-seq analysis and fluorescence quantitative PCR. According to the findings, exogenous visfatin exhibits dual effects on inflammation by modulating the expression of IL-1α, TNFRSF1B, and LIF as well as taking part in various signaling pathways, including the MAPK and Rap1 signaling pathways. By controlling the expression levels of Bcl2l1, Bcl2a1a, and Fas and primarily participating in the PI3K/AKT signaling pathway and Hippo signaling pathway, exogenous visfatin can inhibit apoptosis in RAW264.7 cells. The visfatin inhibitor FK866 was used to further confirm the effects of visfatin on inflammation and apoptosis in mice immune organs. Subsequently, mice spleen and thymus were collected. It is interesting to note that in LPS-treated mice, suppression of endogenous visfatin might worsen the immune system's inflammatory response and even result in rapid mortality. Additionally, endogenous visfatin promotes the apoptosis in mice immune organs by regulating the expression levels of Bcl2l1, Fas, Caspase 3, Bcl2a1a, and Bax. Together, these results imply that visfatin is a multifaceted molecule that regulates inflammation and apoptosis in RAW264.7 cells and mice immunological organs by taking part in a variety of biological processes and regulating the amounts of associated cytokines expression. Our findings offer additional understandings of how visfatin affects apoptosis and inflammation., Competing Interests: Author W-HZ was employed by Wuhan Keqian Biology Company Limited. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Zhang, Xiao, Wang, Ansari, Niu, Yang, Lu, Yang, Rehman, Zou, Bei and Song.)

Published

2022

106. Varying Doses of Rare-Earth-Metal-Based Neodymium Zirconate Zinc Sulfide Nanocomposite Disrupt Blood and Serum Parameters, as well as Markers of Oxidative Stress in the Selected Organs of Albino Mice.

Author

Khosa T, Ben Said M, Rehman ZU, Ali M, Jamil S, Fatima Q, Hussain H, Iqbal R, Khan A, and Iqbal F

Subjects

Mice, Male, Female, Animals, Catalase metabolism, Mice, Inbred C57BL, Oxidative Stress, Superoxide Dismutase metabolism, Antioxidants pharmacology, Neodymium pharmacology

Abstract

Despite extensive industrial use, the biocompatibility of nanocomposites has not been extensively explored. The present study was designed to report the effect of variable doses of a newly synthesized nanocomposite, Neodymium Zirconate Zinc Sulfide, on selective serum and complete blood count parameters and on the oxidative stress markers from the vital organs of albino mice. Albino mice (C57BL/6 strain, 5 weeks old) of both sexes were orally treated for 11 days, either with 10 mg (low dose) or 20 mg/mL saline/kg body weight (high dose) of Neodymium Zirconate Zinc Sulfide nanocomposite. A control group that was not treated with the nanocomposite but with saline solution was also maintained. Data analysis revealed that high-dose nanocomposite-treated male mice had significantly reduced hemoglobin concentration as compared to the control males. Female mice treated with both doses of nanocomposite had higher serum triglyceride levels than controls. High-dose-treated female mice had elevated serum cholesterol concentration compared to their saline-treated controls. Oxidative stress marker analysis from selected organs indicated that concentrations of malonaldehyde (MDA) in the kidney and liver, Superoxide dismutase (SOD) levels in the brain and catalase in the kidney of male mice treated with the nanocomposite were significantly higher than in the control group, whereas SOD in the heart, MDA in the heart and kidney and catalase levels in the kidney were significantly disrupted in female mice compared to their respective controls.

Published

2022

107. Effect of Phytosynthesized Selenium and Cerium Oxide Nanoparticles on Wheat ( Triticum aestivum L.) against Stripe Rust Disease.

Author

Shahbaz M, Fatima N, Mashwani ZU, Akram A, Haq EU, Mehak A, Abasi F, Ajmal M, Yousaf T, Raja NI, UlHassan H, and Pérez de la Lastra JM

Subjects

Triticum, Antioxidants pharmacology, Antioxidants chemistry, Selenium pharmacology, Selenium chemistry, Basidiomycota, Nanoparticles chemistry

Abstract

In this study, selenium nanoparticles (SeNPs) and cerium oxide nanoparticles (CeONPs) were synthesized by using the extract of Melia azedarach leaves, and Acorus calamusas rhizomes, respectively, and investigated for the biological and sustainable control of yellow, or stripe rust, disease in wheat. The green synthesized NPs were characterized by UV-Visible spectroscopy, scanning electron microscopy (SEM), energy-dispersive X-ray (EDX), and X-ray diffraction (XRD). The SeNPs and CeONPs, with different concentrations (i.e., 10, 20, 30, and 40 mg/L), were exogenously applied to wheat infected with Puccinia striformis. SeNPs and CeONPs, at a concentration of 30 mg/L, were found to be the most suitable concentrations, which reduced the disease severity and enhanced the morphological (plant height, root length, shoot length, leaf length, and ear length), physiological (chlorophyll and membrane stability index), biochemical (proline, phenolics and flavonoids) and antioxidant (SOD and POD) parameters. The antioxidant activity of SeNPs and CeONPs was also measured. For this purpose, different concentrations (50, 100, 150, 200 and 400 ppm) of both SeNPs and CeONPs were used. The concentration of 400 ppm most promoted the DPPH, ABTS and reducing power activity of both SeNPs and CeONPs. This study is considered the first biocompatible approach to evaluate the potential of green synthesized SeNPs and CeONPs to improve the health of yellow, or stripe rust, infected wheat plants and to provide an effective management strategy to inhibit the growth of Puccinia striformis .

Published

2022

108. Development of Efficient and Recyclable ZnO-CuO/g-C 3 N 4 Nanocomposite for Enhanced Adsorption of Arsenic from Wastewater.

Author

Khan QU, Begum N, Rehman ZU, Khan AU, Tahir K, Tag El Din ESM, Alothman AA, Habila MA, Liu D, Bocchetta P, and Javed MS

Abstract

Arsenic (III) is a toxic contaminant in water bodies, especially in drinking water reservoirs, and it is a great challenge to remove it from wastewater. For the successful extraction of arsenic (III), a nanocomposite material (ZnO-CuO/g-C 3 N 4 ) has been synthesized by using the solution method. The large surface area and plenty of hydroxyl groups on the nanocomposite surface offer an ideal platform for the adsorption of arsenic (III) from water. Specifically, the reduction process involves a transformation from arsenic (III) to arsenic (V), which is favorable for the attachment to the -OH group. The modified surface and purity of the nanocomposite were characterized by SEM, EDX, XRD, FT-IR, HRTEM, and BET models. Furthermore, the impact of various aspects (temperatures, pH of the medium, the concentration of adsorbing materials) on adsorption capacity has been studied. The prepared sample displays the maximum adsorption capacity of arsenic (III) to be 98% at pH ~ 3 of the medium. Notably, the adsorption mechanism of arsenic species on the surface of ZnO-CuO/g-C 3 N 4 nanocomposite at different pH values was explained by surface complexation and structural variations. Moreover, the recycling experiment and reusability of the adsorbent indicate that a synthesized nanocomposite has much better adsorption efficiency than other adsorbents. It is concluded that the ZnO-CuO/g-C 3 N 4 nanocomposite can be a potential candidate for the enhanced removal of arsenic from water reservoirs.

Published

2022

109. Linking the trust of industrial entrepreneurs on elements of ecosystem with entrepreneurial success: Determining startup behavior as mediator and entrepreneurial strategy as moderator.

Author

Rehman ZU, Arif M, Gul H, and Raza J

Abstract

Purpose: This study aimed to apply "multi-criteria decision approach and attitude-change theory" to examine post-COVID-19 impact on entrepreneurial mindset by investigating the link between entrepreneurs social capital (trust on three elements of ecosystem i.e., experts & enterprises, media, and government) and entrepreneurial success (both individual and organizational). Specifically, this study analyzed entrepreneurs' dispositional factor (startup behavior) as an underlying mechanism to bridge trust and entrepreneurial success. Furthermore, it also analyzed entrepreneurs' situational factor (entrepreneurial strategy) as boundary condition., Design/methodology/approach: We applied time-lagged data collection from 505 industrial entrepreneurs. Survey method was used for data collection. A 7-point Likert scale was used for the respondent response. Hayes developed PROCESS models 4 and 7 were used to test the hypothesis., Findings: The direct impact of trust on three elements of the ecosystem was found significantly positive on both startup behavior and entrepreneurial success. The direct impact of startup behavior on entrepreneurial success is also significantly positive. The impact of startup behavior on indirect mediation between trust and entrepreneurial success is visibly positive. The moderated and moderated mediation impact of entrepreneurial strategy found positively significant at low and medium values. However, this study found an insignificant moderated impact at high values of entrepreneurial strategy between trust on media and startup behavior. Furthermore, this study also found insignificant moderated mediation impact at high values of entrepreneurial strategy by interacting with two elements of ecosystem (trust on media and trust on government) through startup behavior on entrepreneurial success., Originality/value: The authors suggested that startup behavior is an underlying mechanism through which industrial entrepreneurs trust achieved desired entrepreneurial success. The authors also suggested that the influencing role of " low level of entrepreneurial strategy" in comparison with " high level entrepreneurial strategy" is more helpful to achieve entrepreneurial success., Implications: This study contributed to the literature on entrepreneurial strategy for its conditional indirect moderated impact on startup behavior and moderated mediation impact on firm entrepreneurial success. It also contributed to owners of the manufacturing industry for their startup behavior as an underlying mechanism through which trust influences entrepreneurial success., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Rehman, Arif, Gul and Raza.)

Published

2022

110. Bmp4 Synexpression Gene, Sizzled, Transcription Is Collectively Modulated by Smad1 and Ventx1.1/Ventx2.1 in Early Xenopus Embryos.

Author

Rehman ZU, Tayyaba F, Lee U, and Kim J

Subjects

Animals, Xenopus laevis genetics, Xenopus laevis metabolism, Promoter Regions, Genetic, Binding Sites, Bone Morphogenetic Protein 4 genetics, Bone Morphogenetic Protein 4 metabolism, Smad1 Protein genetics, Smad1 Protein metabolism, Xenopus Proteins genetics, Xenopus Proteins metabolism, Transcription Factors metabolism

Abstract

Sizzled (Szl) is a secreted frizzled protein, having a sequence homology with the extracellular cysteine-rich domain (CRD) of the Wnt receptor, 'Frizzled'. Contrary to the other secreted frizzled like proteins (Sfrps), szl belongs to the bone morphogenetic protein 4 (Bmp4) synexpression group and is tightly coexpressed with Bmp4. What is not known is how the szl transcription achieves its Bmp4 synexpression pattern. To address the molecular details of szl transcription control, we cloned a promoter of size 1566 base pairs for szl (bps) from the Xenopus laevis genomic DNA. Luciferase and eGFP reporter gene results of this szl promoter (-1566 bp) in its activation and repression patterns by Bmp4/Smad1 and a dominant negative Bmp4 receptor (DNBR) were similar to those of the endogenous szl expression. Reporter gene assays and site-directed mutagenesis of the szl promoter mapped an active Bmp4/Smad1 response element (BRE) and a cis-acting element, which competitively share a direct binding site for Ventx1.1 and Ventx2.1 (a Ventx response element, VRE). Smad1 and ventx2.1 alone increased szl promoter activity; in addition, the binding of each protein component was enhanced with their coexpression. Interestingly, Ventx1.1 repressed this reporter gene activity; however, Ventx1.1 and Ventx2.1 together positively regulated the szl promoter activity. From our analysis, Ventx2.1 binding was enhanced by Ventx1.1, but Ventx1.1 inhibitory binding was inhibited by co-injection of Ventx2.1 for the VRE site. The inhibitory Ventx1.1 co-injection decreased Smad1 binding on the szl promoter. In a triple combination of overexpressed Smad1/Ventx1.1/Ventx2.1, the reduced binding of Smad1 from Ventx1.1 was recovered to that of the Smad1/Ventx2 combination. Collectively, this study provides evidence of Bmp4/Smad1 signaling for a primary immediate early response and its two oppositely behaving target transcription factors, Ventx1.1 and Ventx2.1, for a secondary response, as they together upregulate the szl promoter's activity to achieve szl expression in a Bmp4 synexpression manner.

Published

2022

111. Role of Solvent Used in Development of Graphene Oxide Coating on AZ31B Magnesium Alloy: Corrosion Behavior and Biocompatibility Analysis.

Author

Maqsood MF, Raza MA, Rehman ZU, Tayyeb A, Makhdoom MA, Ghafoor F, Latif U, and Khan MF

Abstract

Clinical applications of bio-absorbable magnesium (Mg) and its alloys can be enhanced by increasing their corrosion resistance, using surface modification and functionality. In this study, we synthesized graphene oxide (GO) through improved Hummers' method and deposited it on biodegradable AZ31B Mg alloy for further characterization. Different suspensions of GO were prepared in various solvents, like deionized water, ethanol, and acetone by ultra-sonication. Electrophoretic deposition (EPD) was used to develop GO coatings on AZ31B Mg using different GO suspensions. Effect of various solvents on corrosion behavior, as well as in vitro biocompatibility, was studied. The optimized EPD parameters were 3 volts and 90 s for coating. Different characterization techniques were used to study GO and prepared coatings. Atomic force microscopy found that the average thickness of GO was ~1 nm. Electrochemical behavior of coatings was studied through electrochemical impedance spectroscopy (EIS) and Tafel analysis in Ringer's lactate solution. Tafel analysis revealed that GO coatings deposited by GO water suspension increased corrosion protection efficiency of AZ31B Mg alloy by ~94%. After 72 h incubation in MC3T3-E1 osteoblast cells extract, in vitro analysis was performed to determine the cell viability and biocompatibility of the GO- coated and bare Mg samples. GO coatings deposited by GO water suspension demonstrated ~2× cell viability, as well as nontoxicity and better biocompatibility compared to the bare and other GO-coated Mg samples.

Published

2022

112. Characterization of laser-induced shock waves generated during infrared laser ablation of copper by the optical beam deflection method.

Author

Rehman ZU, Raza A, Qayyum H, Ullah S, Mahmood S, and Qayyum A

Abstract

The shock waves generated during laser ablation of a copper target are investigated using the optical beam deflection method. The fluence of nanosecond pulsed infrared laser beam was in the range of 15-700 J / c m 2 . The density jumps related with the influx of the shock wave at two interaction points were detected with the help of He-Ne laser probes. In general, a supersonic shock wave is produced, which propagates through air and gradually decays into an acoustic wave. Experiments were carried out to study the impact of laser fluence and propagation distance on the shock wave velocity and pressure. The shock wave velocity varies with laser fluence as v ∝ F l 0.3 and with propagation distance as v ∝ d -1.5 . These results are compared with the predictions of the theoretical models. In the investigated fluence range, shock wave pressure rises by an order of magnitude (∼1-10 M P a ). We demonstrated that shock wave pressure and ablated mass can be related, yielding mass-specific shock wave pressure that increases linearly with laser fluence. We have also noticed the shock-wave-induced probe beam focusing under certain conditions, which indicates that the shock wave modifies the refractive index of the compressed layer of air. The reported results are useful for the fundamental understanding and pave the way for new applications of laser-induced shock waves.

Published

2022

113. Comparative Genomic Characterization of Relaxin Peptide Family in Cattle and Buffalo.

Author

Rehman MS, Hassan FU, Rehman ZU, Hussain HN, Shahid MA, Mushahid M, and Shokrollahi B

Subjects

Animals, Buffaloes genetics, Buffaloes metabolism, Cattle genetics, Genomics, Horses, Mammals, Proteins metabolism, Proteomics, Sheep, Relaxin genetics

Abstract

Relaxin family peptides significantly regulate reproduction, nutrient metabolism, and immune response in mammals. The present study aimed to identify and characterize the relaxin family peptides in cattle and buffalo at the genome level. The genomic and proteomic sequences of cattle, buffalo, goat, sheep, horse, and camel were accessed through the NCBI database, and BLAST was performed. We identified four relaxin peptides genes ( RLN3 , INSL3 , INSL5 , and INSL6 ) in Bos taurus , whereas three relaxin genes ( RLN3 , INSL3 , and INSL6 ) in Bubalus bubalis . Evolutionary analysis revealed the conserved nature of relaxin family peptides in buffalo and cattle. Physicochemical properties revealed that relaxin proteins were thermostable, hydrophilic, and basic peptides except for INSL5 which was an acidic peptide. Three nonsynonymous mutations (two in RLN3 at positions A16 > T and P29 > A, and one in INSL6 at position R32 > Q) in Bos taurus , whereas two nonsynonymous mutations (one in RLN3 at positions G105 > w and one in INSL3 at position G22 > R) in Bubalus bubalis , were identified. INSL3 had one indel (insertion) at position 55 in Bos taurus . Gene duplication analysis revealed predominantly segmental duplications ( INSL5/RLN3 and INSL6/INSL3 gene pairs) that helped expand this gene family, whereas Bubalus bubalis showed primarily tandem duplication ( INSL3/RLN3 ). Our study concluded that relaxin family peptides remained conserved during the evolution, and gene duplications might help to adapt and enrich specific functions like reproduction, nutrient metabolism, and immune response. Further, the nonsynonymous mutations identified potentially affect these functions in buffalo., Competing Interests: The authors declare that there is no conflict of interest regarding the publication of this paper., (Copyright © 2022 Muhammad Saif-ur Rehman et al.)

Published

2022

114. Comprehensive Approaches of Nanoparticles for Growth Performance and Health Benefits in Poultry: An Update on the Current Scenario.

Author

Ahmad I, Mashwani ZU, Raja NI, Kazmi A, Wahab A, Ali A, Younas Z, Yaqoob S, and Rahimi M

Subjects

Animals, Chickens, Humans, Meat, Minerals, Nanoparticles, Poultry

Abstract

Currently, providing nutritious food to all people is one of the greatest challenges due to rapid human population growth. The global poultry industry is a part of the agrifood sector playing an essential role in food insecurity by providing nutritious meat and egg sources. However, limited meat production with less nutritional value is not fulfilling the higher market demands worldwide. Researchers are focusing on nanobiotechnology by employing phytosynthesized mineral nanomaterials to improve the growth performance and nutritional status of broilers as these mineral nanoparticles are usually absorbed in greater amounts from the gastrointestinal tract and exert enhanced biological effects in the target tissues of animals with greater tissue accumulation. These mineral nanoparticles are efficiently absorbed through the gastrointestinal tract and reach essential organs via blood. As a result, it enhances growth performance and nutritional value with less toxicity and tremendous bioavailability properties. In this review, the research work conducted in the recent past, on the different aspects of nanotechnology including supplementation of mineral nanoparticle in diet and their potential role in the poultry industry, has been concisely discussed., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2022 Ilyas Ahmad et al.)

Published

2022

115. Participatory appraisal for healthcare and welfare management strategies of donkeys ( Equus ascinus ) in Balochistan, Pakistan.

Author

Kamran K, Akbar A, Naseem M, Samad A, Samiullah, Achakzai JK, Rehman ZU, Sohail Sajid M, and Ali A

Abstract

In spite of the significant importance of the donkeys ( Equus ascinus ) as draft animal in resource-poor countries like Pakistan, they are equines not receiving the appropriate care. They face challenges including injuries, diseases, lack of basic environment and mismanagement by their owners. The present study aims to provide a brief update on the current status of management of healthcare and the welfare of domestic donkeys using participatory epidemiological tools. These tools can help to provide better strategies for improving their productivity and inclusion in human society. This study was mainly focused only on donkeys and horses, mules and ponies were excluded from the study. We carried out a systematic review of the relevant available published literature and shortlisted 50 articles reporting on the different health related characteristics of donkeys. A comprehensive questionnaire was completed by 191 donkey owners, including nine farriers (all men, average age = 38.24 ± 12.43) over a time span from October 2021 to March 2022. Multivariate Odds Ratios (MORs) and 95% confidence intervals were used to assess the predictions of health management and welfare measures for the surveyed donkeys. The most common observed medical problems in donkey health were hyperlipaemia (28.06%), lameness (16.33%) and dental (20.41%) problems. One-third (34.31%) of the donkeys were underweight. The dull donkey with poor appetite needs a clinical emergency owing to a high risk of developing hyperlipemia, which may be life-threatening. These findings are quite useful for the improvement of healthcare management and the welfare of donkeys., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Kamran, Akbar, Naseem, Samad, Samiullah, Achakzai, Rehman, Sohail Sajid and Ali.)

Published

2022

116. Molecular Genomic Study of Inhibin Molecule Production through Granulosa Cell Gene Expression in Inhibin-Deficient Mice.

Author

Talpur HS, Rehman ZU, Gouda M, Liang A, Bano I, Hussain MS, FarmanUllah F, and Yang L

Subjects

Animals, Female, Follicle Stimulating Hormone genetics, Follicle Stimulating Hormone pharmacology, Gene Expression, Genomics, Humans, Mice, Mice, Knockout, Granulosa Cells metabolism, Inhibins genetics

Abstract

Inhibin is a molecule that belongs to peptide hormones and is excreted through pituitary gonadotropins stimulation action on the granulosa cells of the ovaries. However, the differential regulation of inhibin and follicle-stimulating hormone (FSH) on granulosa cell tumor growth in mice inhibin-deficient females is not yet well understood. The objective of this study was to evaluate the role of inhibin and FSH on the granulosa cells of ovarian follicles at the premature antral stage. This study stimulated immature wild-type (WT) and Inhibin-α knockout (Inha-/-) female mice with human chorionic gonadotropin (hCG) and examined hCG-induced gene expression changes in granulosa cells. Also, screening of differentially expressed genes (DEGs) was performed in the two groups under study. In addition, related modules to external traits and key gene drivers were determined through Weighted Gene Co-Expression Network Analysis (WGCNA) algorithm. The results identified a number of 1074 and 931 DEGs and 343 overlapping DEGs (ODEGs) were shared in the two groups. Some 341 ODEGs had high relevance and consistent expression direction, with a significant correlation coefficient (r 2 = 0.9145). Additionally, the gene co-expression network of selected 153 genes showed 122 nodes enriched to 21 GO biological processes (BP) and reproduction and 3 genes related to genomic pathways. By using principal component analysis (PCA), the 14 genes in the regulatory network were fixed and the cumulative proportion of fitted top three principal components was 94.64%. In conclusion, this study revealed the novelty of using ODEGs for investigating the inhibin and FSH hormone pathways that might open the way toward gene therapy for granulosa cell tumors. Also, these genes could be used as biomarkers for tracking the changes in inhibin and FSH hormone from the changes in the nutrition pattern.

Published

2022

117. The exceptionally efficient quorum quenching enzyme LrsL suppresses Pseudomonas aeruginosa biofilm production.

Author

Rehman ZU, Momin AA, Aldehaiman A, Irum T, Grünberg R, and Arold ST

Abstract

Quorum quenching (QQ) is the enzymatic degradation of molecules used by bacteria for synchronizing their behavior within communities. QQ has attracted wide attention due to its potential to inhibit biofilm formation and suppress the production of virulence factors. Through its capacity to limit biofouling and infections, QQ has applications in water treatment, aquaculture, and healthcare. Several different QQ enzymes have been described; however, they often lack the high stability and catalytic efficiency required for industrial applications. Previously, we identified genes from genome sequences of Red Sea sediment bacteria encoding potential QQ enzymes. In this study, we report that one of them, named LrsL, is a metallo-β-lactamase superfamily QQ enzyme with outstanding catalytic features. X-ray crystallography shows that LrsL is a zinc-binding dimer. LrsL has an unusually hydrophobic substrate binding pocket that can accommodate a broad range of acyl-homoserine lactones (AHLs) with exceptionally high affinity. In vitro , LrsL achieves the highest catalytic efficiency reported thus far for any QQ enzyme with a K cat / K M of 3 × 10 7 . LrsL effectively inhibited Pseudomonas aeruginosa biofilm formation without affecting bacterial growth. Furthermore, LrsL suppressed the production of exopolysaccharides required for biofilm production. These features, and its capacity to regain its function after prolonged heat denaturation, identify LrsL as a robust and unusually efficient QQ enzyme for clinical and industrial applications., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Rehman, Momin, Aldehaiman, Irum, Grünberg and Arold.)

Published

2022

118. Investigation on Crystal-Structure, Thermal and Electrical Properties of PVDF Nanocomposites with Cobalt Oxide and Functionalized Multi-Wall-Carbon-Nanotubes.

Author

Farhan, Ahmad S, Ullah H, Rehman ZU, Nawaz M, Uddin I, Parkash A, Alamri HR, Alsaiari NS, and Javed MS

Abstract

Nanocomposites of polyvinylidene fluoride (PVDF) with dimensional (1D) cobalt oxide (Co 3 O 4 ) and f -MWCNTs were prepared successfully by the solution casting method. The impact of 1D Co 3 O 4 filler and 1D Co 3 O 4 / f -MWCNTs co-fillers on the structural, thermal, and electrical behavior of PVDF were studied. The crystal structural properties of pure PVDF and its nanocomposite films were studied by XRD, which revealed a significant enhancement of β-phase PVDF in the resulting nanocomposite films. The increase in β-phase was further revealed by the FTIR spectroscopic analysis of the samples. TG, DTA, and DSC analyses confirmed an increase in thermal stability of PVDF with the addition of nano-fillers as well as their increasing wt.%. From impedance spectroscopic studies, it was found that the DC conductivity of PVDF increases insignificantly initially (up to 0.1 wt.% of nano-fillers addition), but a significant improvement in DC conductivity was found at higher concentrations of the nano-fillers. Furthermore, it was observed that the DC conductivity decreases with frequency. The increase in DC conductivity corresponded to the strong interactions of nano-fillers with PVDF polymer chains.

Published

2022

119. Surge in Economic Growth of Pakistan: A Case Study of China Pakistan Economic Corridor.

Author

Farooq M, Rao ZU, and Shoaib M

Abstract

China Pakistan Economic Corridor (CPEC) is considered a massive investment that can change the economic scenario of Pakistan. The purpose of the study is to examine the contribution to the economic growth of the sectors where CPEC is investing. This research uses time-series data for 31 years to investigate the impact of macro-economic variables like foreign direct investment (FDI), human capital investment (HCI), transport investment, and information communication technology (ICT) on the economic growth of Pakistan. The results of Fully Modified Ordinary Least Square Regression Specification (FMOLS) show a positive nexus between FDI, HCI, and economic growth while economic growth and ICT show a negative relationship. The results for the impact of transportation infrastructure on economic growth are statistically insignificant. This research suggests that an increased focus on building knowledge, expertise, and skillset of human resources will help in reaping the benefits of CPEC's investment. Future researchers can increase the period of the study to ascertain the implicit or explicit impact of CPEC on economic growth. The results also suggest that policymakers and researchers should focus on developing human capital to reap the investment benefits of CPEC., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Farooq, Rao and Shoaib.)

Published

2022

120. Glycine Improved Cryopreserved Spermatozoa Quality in Achai Bull.

Author

Nazif MS, Rehman ZU, Khan H, Khan FA, Hussain T, Ahmad A, Farmanullah, Husnain A, Muhammad S, Murtaza G, and Gang L

Subjects

Animals, Antioxidants pharmacology, Cattle, Cryopreservation methods, Glycine pharmacology, Male, Plant Breeding, Reactive Oxygen Species, Semen Analysis, Spermatozoa metabolism, Vitamin E pharmacology, Fabaceae metabolism, Semen Preservation methods

Abstract

Achai is a small size cattle breed, resilient to harsh and cold environment. Cryopreservation of Achai bull semen may help to improve its genetics and preserve the germplasm. Reactive oxygen species (ROS) affects the structural and functional integrity of the spermatozoa. During freezing and thawing processes, the ROS make changes in the spermatozoa quality parameters and reduce total antioxidant capacity (T-AOC) of semen that is considered as marker of oxidative stress. This study was designed to determine the effect of glycine along with vitamin E on post-thawed spermatozoa quality and total antioxidant capacity in Achai cattle. The semen collection was done twice a week from four mature fertile Achai cattle bulls ( n = 4). The glycine was utilized as 0 mM, 5 mM, 10 mM, 15 mM, and 20 mM along with vitamin E @ 2.3 mM added constantly in each concentration. The control group contained all extenders except glycine. The results revealed that post-thawed spermatozoa motility was found significantly higher ( P < 0.05) at 10 mM as compared to 5 mM, 15 mM, and 20 mM. Compared with control group, glycine concentration at 10 mM and other concentrations increased progressive and fast motility (%), curvilinear, straight line, and average path velocity ( μ m/s). Moreover, beat cross frequency (Hz) was higher ( P < 0.05), and post-thaw viability (%), plasma membrane integrity, and mitochondrial membrane potential were significantly higher ( P < 0.05) at 10 mM of glycine concentration in comparison to control and other glycine concentrations. Besides, acrosome integrity (%) and DNA integrity (%) as well as post-thawed T-AOC were also significantly higher ( P < 0.05) at 10 mM of glycine concentration as compared to other glycine concentrations and control group. It is concluded that 10 mM of glycine along with vitamin E @ 2.3 mM improved cryopreserved semen quality of Achai bull., Competing Interests: All authors declare no conflict of interest., (Copyright © 2022 Muhammad Sohail Nazif et al.)

Published

2022

121. Molecular characterization, expression, and functional identification of TANK-binding kinase 1 (TBK1) of the cow (Bos taurus) and goat (Capra hircus).

Author

Yang X, Ren S, Rehman ZU, Wang X, Yin X, Sun Y, Wan X, and Chen H

Subjects

Animals, Cattle, Immunity, Innate, Mice, Phylogeny, Protein Serine-Threonine Kinases genetics, Virus Replication, Goats, Virus Diseases

Abstract

The role of TANK-binding kinase 1 (TBK1) of humans and mice in innate immunity is well elucidated. Still, the molecular characterization and biological function of the TBK1 gene in herbivorous animals are less studied. Here, the open reading frame (ORF) of TBK1 of the cow and goat was firstly cloned and successfully expressed. The Phylogenetic tree analysis reveals that the TBK1 gene of goats and cows is similar to chicken and mute swans, respectively. Some evolutionary distances of the TBK1 gene were still present among different species. A slightly subcellular distribution difference was observed among full-length and truncated TBK1 of goats and cows. Dual-luciferase reporter assay has shown that the full-length TBK1 of goats and cows plays a vital role in the induction of IFN-β production. The viral infection experiment showed that the over-expression of the full-length TBK1 gene of the cow and goat significantly suppresses intracellular viral replication of the Lumpy skin disease virus (LSDV) in infected cells. Our study showed that TBK1 in the cows and goats is a crucial immunoregulatory for IFN-β production during viral infection, contributing to a better understanding of innate immunity in the herbivorous animal., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2022

122. High Throughput Screening for Bioactive Components of Berberis baluchistanica Ahrendt Root and Their Functional Potential Assessment.

Author

Gul Z, Akbar A, Ali I, Muhammad J, Rehman ZU, Bano A, Samad A, Khan A, Samiullah, Leghari SK, Chein SH, and Rabaan AA

Subjects

Anti-Bacterial Agents pharmacology, Flavonoids analysis, Flavonoids pharmacology, High-Throughput Screening Assays, Phenols pharmacology, Plant Extracts chemistry, Plant Extracts pharmacology, Antioxidants analysis, Antioxidants pharmacology, Berberis

Abstract

Berberis baluchistanica Ahrendt is a medicinal plant potentially known for the treatment of different diseases. The bioactive, antioxidant, nutritional components, and antimicrobial properties of crude ethanolic root extract of Berberis baluchistanica were evaluated in this study. The extract was analyzed for total phenolic, flavonoid, DPPH (2, 2-diphenyl-1-picryl-hydrazyl) scavenging ability, FRAP (ferric reducing antioxidant power), nutritional, and antimicrobial potentials. The alkaloids, tannins, cardiac glycosides, anthraquinones, coumarin, saponins, phenolics, flavonoids, steroids, and terpenoids were confirmed. The extract possessed DPPH radical inhibition with the IC 50 of 1.125 mg/mL and FRAP % reduction activity with IC 50 (0.912 mg/mL). Total phenolic 19.897 ± 4.8141 mg GAE/g and flavonoid 12.9876 ± 0.8388 mg QE/g contents were confirmed in the root. The extracts exhibit good antibacterial activity against a broad spectrum of food borne pathogens Pseudomonas aeruginosa , Salmonella typhi , Klebsiella pneumoniae , Escherichia coli , and Staphylococcus aureus . The highest inhibitory activity was against Escherichia coli 23.30 ± 1.16 mm and lowest against Klebsiella pneumoniae 7 ± 0.01 mm. Furthermore, the presence of various phytochemical constituents (plant secondary metabolites) was also confirmed with gas chromatography and mass spectroscopy analysis. Results disclosed the occurrence of more than 70 compounds possessing various medicinal properties supporting the traditional uses of root of Berberis baluchistanica in various medical complications indigenously., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2022 Zareen Gul et al.)

Published

2022

123. Molecular Characterization of TGF-Beta Gene Family in Buffalo to Identify Gene Duplication and Functional Mutations.

Author

Rehman MS, Hassan FU, Rehman ZU, Ishtiaq I, Rehman SU, and Liu Q

Subjects

Amino Acids genetics, Animals, Biological Evolution, Mutation, Gene Duplication, Transforming Growth Factor beta genetics

Abstract

The TGF-β superfamily is ubiquitously distributed from invertebrates to vertebrates with diverse cellular functioning such as cell adhesion, motility, proliferation, apoptosis, and differentiation. The present study aimed to characterize the TGF-β gene superfamily in buffalo through evolutionary, structural, and single nucleotide polymorphism (SNPs) analyses to find the functional effect of SNPs in selected genes. We detected 32 TGF-β genes in buffalo genome and all TGF-β proteins exhibited basic nature except INHA, INHBC, MSTN, BMP10, and GDF2, which showed acidic properties. According to aliphatic index, TGF-β proteins were thermostable but unstable in nature. Except for GDF1 and AMH, TGF-β proteins depicted hydrophilic nature. Moreover, all the detected buffalo TGF-β genes showed evolutionary conserved nature. We also identified eight segmental and one tandem duplication event TGF-β gene family in buffalo, and the ratio of Ka/Ks demonstrated that all the duplicated gene pairs were under selective pressure. Comparative amino acid analysis demonstrated higher variation in buffalo TGF-β gene family, as a total of 160 amino acid variations in all the buffalo TGF-β proteins were detected. Mutation analysis revealed that 13 mutations had an overall damaging effect that might have functional consequences on buffalo growth, folliculogenesis, or embryogenesis.

Published

2022

124. Legal framework in aid of biological diversity and statutory deficiencies in Pakistan.

Author

Usman A, Hassan M, Rehman ZU, and Sial AQ

Subjects

Animals, Humans, Pakistan, Biodiversity, Human Rights

Abstract

The traditional perception of mutual rights and obligations in the developing world was practically confined to human beings only. Fortunately, this conventional understanding is growing to include all living beings in the scope of certain basic rights. It is also addressing those creatures which are co-existing with human societies naturally or are associated for their subsistence and interdependence. It means that there should be prescribed body of rules and regulations to regulate human conduct in the society. In Pakistan social awakening for animal rights supported by international campaigns have urged state institutions to make adequate body of rules and regulations for protection of animal rights. Purpose of developing required understanding, at the first place is to clarify what is a right and what is an obligation? Secondly what should be the nature of these rights and obligations. Should these be only specific to human beings or there are other beings who also possess certain rights? If other living beings, species have rights, how these rights are to be conferred and regulated? Who is under obligation to provide these rights? Who is liable and responsible to ensure observance of such obligations? It is becoming clearer that like human beings' animals do have certain rights as living beings. All most all religions of the world have prescribed certain rights to them which are encrypted in their holy books. Most of the people are aware of basic concept of observing mild and kind behavior towards pet animals only. Today we scientifically know that humanity and animals have co-existing inevitability. By observing mutual behavior and sensation, the world has provided special rights to the animals by making laws and Acts. Implementation of those rights can only be made through mutual understanding of the citizens under the supervision of law enforcing agencies. It is the responsibility of state and citizens of the states jointly to protect the animals when their rights are being violated.

Published

2022

125. Plant-Based Titanium Dioxide Nanoparticles Trigger Biochemical and Proteome Modifications in Triticum aestivum L. under Biotic Stress of Puccinia striiformis .

Author

Satti SH, Raja NI, Ikram M, Oraby HF, Mashwani ZU, Mohamed AH, Singh A, and Omar AA

Subjects

Plant Diseases microbiology, Proteome, Puccinia, Stress, Physiological, Titanium, Triticum microbiology, Basidiomycota, Nanoparticles

Abstract

In this study, we evaluated bioinspired titanium dioxide nanoparticles (TiO 2 NPs) that elicited biochemical and proteome modifications in wheat plants under the biotic stress caused by Puccinia striiformis f . sp. tritici ( Pst ). Biosynthesis of TiO 2 NPs was confirmed using UV-Vis spectrophotometry, energy dispersive X-ray spectroscopy (EDX), scanning electron microscopy (SEM), and Fourier transform infrared (FTIR) spectroscopy. We found that the nanoparticles with crystalline nature were smaller than 100 nm. The results of FTIR analysis showed the presence of potential functional groups exhibiting O-H, N-H, C-C, and Ti-O stretching. The TiO 2 NPs of different concentrations (20, 40, 60, and 80 mg L -1 ) were exogenously applied to wheat plants under the biotic stress caused by Pst , which is responsible for yellow stripe rust disease. The results of the assessment of disease incidence and percent disease index displayed time- and dose-dependent responses. The 40 mg L -1 TiO 2 NPs were the most effective in decreasing disease severity. The bioinspired TiO 2 NPs were also evaluated for enzymatic (superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT)), and nonenzymatic metabolites (total proline, phenolic, and flavonoid contents) in wheat plants under stripe rust stress. The 40 mg L -1 TiO 2 NPs were effective in eliciting biochemical modifications to reduce biotic stress. We further evaluated the effects of TiO 2 NPs through gel- and label-free liquid chromatography-mass spectrometry (LC-MS) proteome analysis. We performed proteome analysis of infected wheat leaves and leaves treated with 40 mg L -1 TiO 2 NPs under stripe rust stress. The functional classification of the proteins showed downregulation of proteins related to protein and carbohydrate metabolism, as well as of photosynthesis in plants under biotic stress. An upregulation of stress-related proteins was observed, including the defense mechanisms and primary metabolic pathways in plants treated with 40 mg L -1 TiO 2 NPs under stress. The experimental results showed the potential of applying biogenic TiO 2 NPs to combat fungal diseases of wheat plants and provided insight into the protein expression of plants in response to biotic stress.

Published

2022

126. Designing of pretreatment filter technique for reduction of phenolic constituents from olive-mill wastewater and testing its impact on wheat germination.

Author

Shabir S, Ilyas N, Mashwani ZU, Ahmad MS, Al-Ansari MM, Al-Humaid L, and Reddy MS

Subjects

Industrial Waste analysis, Olive Oil analysis, Phenols analysis, Silicon Dioxide, Triticum, Waste Disposal, Fluid methods, Olea chemistry, Wastewater analysis

Abstract

Olive oil extraction produces a great volume of olive mill wastewater (OMW), which is considered a serious ecological challenge. In this study, we have designed and tested a trickling filter consisting of seven different layers of natural material, including (coarse gravel, fine gravel, lime (Ca (OH) 2 ), sand (SiO 2 ), carbon char, sponge/mesh), to treat OMW. The filter process involved physical separation, filtration, coagulation and adsorption with the removal of COD (69.8%), BOD (40.2%), Phenolic contents (90%), pH (41%), EC (41.6%) and total suspended solids (TSS) (69%). Our results have shown that treated OMW has a high potential oxidant activity. T7, Untreated OMW at 1:6 dilutions, had the strongest correlation (i.e. 0.97), while untreated OMW had the lowest IC50 (7.62 g ml -1 ), which shown the best DPPH radical scavenging capabilities. While pure Untreated OMW has the maximum radical scavenging activity, 63%, treated (1:6) diluted OMW exhibits the lowest value i. e 9% when phosphomolybdate assay was done. HPLC analysis showed that the trickling filter removed the vanillic acid, caffeic acid and reduced the contents of phenolic components such as gallic acid, hydroxytyrosol, vanillin, quercetin and catechol. Filtered OMW was also tested for its germination efficacy at various dilutions (1:0, 1:2, 1:4, 1:6). A remarkable improvement in germination percentage, germination index, seedling length, seedling vigor index, promptness index, stress tolerance index (76.7%, 68.4%, 51.7%, 82.1%, 54.8%, and 66.7%, respectively) has shown the efficiency of treated OMW at 1:6 dilutions. The results from this study show the efficiency of our filter design which can be further used., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

127. Hydrothermal Synthesis of Binder-Free Metallic NiCo 2 O 4 Nano-Needles Supported on Carbon Cloth as an Advanced Electrode for Supercapacitor Applications.

Author

Abbas Q, Siyal SH, Mateen A, Hassan NU, Idrees A, Rehman ZU, Din EMTE, Bajaber MA, and Javed MS

Abstract

It is of great significance to design electrochemical energy conversion and storage materials with excellent performance to fulfill the growing energy demand. Bimetallic cobalt/nickel-based electrode materials exhibit excellent electrical conductivity compared to mono oxides. However, their potential as electrode materials for high-performance supercapacitors (SCs) is limited because of their poor cycling stability and high-capacity fading. This work demonstrates the synthesis of binder-free bimetallic NiCo 2 O 4 nano-needles supported on CC (NCO@CC) via a facile and scalable hydrothermal process. Excellent electrical conductivity and interconnected nanostructure of NCO@CC nano-needles provide the fast transfer of electrons with numerous channels for ion diffusion. Owing to such features, the binder-free NCO@CC electrode for SC discloses excellent specific capacitance (1476 Fg -1 at 1.5 Ag -1 ) with 94.25% capacitance retention even after 5000 cycles. From these outstanding electrochemical performances, it can be inferred that NCO@CC nano-needle array-structured electrodes may be potential candidates for SC applications.

Published

2022

128. Understanding the Immune System in Fetal Protection and Maternal Infections during Pregnancy.

Author

Hussain T, Murtaza G, Kalhoro DH, Kalhoro MS, Yin Y, Chughtai MI, Tan B, Yaseen A, and Rehman ZU

Subjects

Cytokines, Female, Humans, Immune System, Pregnancy, Trophoblasts, Fetus, Placenta

Abstract

The fetal-maternal immune system determines the fate of pregnancy. The trophoblast cells not only give an active response against external stimuli but are also involved in secreting most of the cytokines. These cells have an essential function in fetal acceptance or fetal rejection. Other immune cells also play a pivotal role in carrying out a successful pregnancy. The disruption in this mechanism may lead to harmful effects on pregnancy. The placenta serves as an immune barrier in fetus protection against invading pathogens. Once the infections prevail, they may localize in placental and fetal tissues, and the presence of inflammation due to cytokines may have detrimental effects on pregnancy. Moreover, some pathogens are responsible for congenital fetal anomalies and affect almost all organs of the developing fetus. This review article is designed to address the bacterial and viral infections that threaten pregnancy and their possible outcomes. Moreover, training of the fetal immune system against the exposure of infections and the role of CD49a + NK cells in embryonic development will also be highlighted., Competing Interests: All authors have no conflict of interest., (Copyright © 2022 Tarique Hussain et al.)

Published

2022

129. Efficacy of Green Cerium Oxide Nanoparticles for Potential Therapeutic Applications: Circumstantial Insight on Mechanistic Aspects.

Author

Khan M, Mashwani ZU, Ikram M, Raja NI, Mohamed AH, Ren G, and Omar AA

Abstract

Green synthesized cerium oxide nanoparticles (GS-CeO 2 NPs) have a unique size, shape, and biofunctional properties and are decorated with potential biocompatible agents to perform various therapeutic actions, such as antimicrobial, anticancer, antidiabetic, and antioxidant effects and drug delivery, by acquiring various mechanistic approaches at the molecular level. In this review article, we provide a detailed overview of some of these critical mechanisms, including DNA fragmentation, disruption of the electron transport chain, degradation of chromosomal assemblage, mitochondrial damage, inhibition of ATP synthase activity, inhibition of enzyme catalytic sites, disorganization, disruption, and lipid peroxidation of the cell membrane, and inhibition of various cellular pathways. This review article also provides up-to-date information about the future applications of GS-CeONPs to make breakthroughs in medical sectors for the advancement and precision of medicine and to effectively inform the disease diagnosis and treatment strategies.

Published

2022

130. Suppression of NF-κB signaling by ECN in an arthritic model of inflammation.

Author

Khan A, Zhang L, Li CH, Khan AU, Shal B, Khan A, Ahmad S, Din FU, Rehman ZU, Wang F, and Khan S

Subjects

Animals, Mice, Carrageenan, Cyclooxygenase 2, Edema chemically induced, Edema drug therapy, Freund's Adjuvant, Hyperalgesia drug therapy, Inflammation drug therapy, Molecular Docking Simulation, Tumor Necrosis Factor-alpha, Arthritis, NF-kappa B metabolism

Abstract

Background: The 7β-(3-ethyl-cis-crotonoyloxy)-1α-(2-methylbutyryloxy)-3,14-dehydro-Z-notonipetranone (ECN), a sesquiterpenoid isolated from the Tussilago farfara Linneaus (Asteraceae), was evaluated against acute Carrageenan and chronic complete Freund's adjuvant (CFA)-induced arthritis in mice., Methods: Acute and chronic arthritis were induced by administering Carrageenan and CFA to the intraplantar surface of the mouse paw. Edema, mechanical allodynia, mechanical hyperalgesia, and thermal hyperalgesia were assessed in the paw. Similarly, histological and immunohistological parameters were assessed following arthritis induced by CFA. Antioxidants, inflammatory cytokines, and oxidative stress markers were also studied in all the treated groups., Results: The ECN treatment significantly attenuated edema in the paw and elevated the nocifensive threshold following induction of this inflammatory model. Furthermore, ECN treatment markedly improved the arthritis index and distress symptoms, while attenuating the CFA-induced edema in the paw. ECN treatment also improved the histological parameters in the paw tissue compared to the control. At the same time, there was a significant reduction in edema and erosion in the ECN-treated group, as measured by radiographic analysis. Using the Comet's assay, we showed that ECN treatment protected the DNA from chronic CFA-induced arthritis. Immunohistochemistry analysis showed a marked decrease in the expression level of p-JNK (phosphorylated C-Jun N-terminal kinase), NF-κB (Nuclear factor-kappa B), COX-2 (Cyclooxygenase-2), and TNF-α (Tumour necrosis factor-alpha) compared to the CFA-treated group. Biophysical analysis involving molecular docking, molecular dynamics simulations, and binding free energies of ECN were performed to explore the underlying mechanism., Conclusion: ECN exhibited significant anti-inflammatory and anti-arthritic activity against Carrageenan and CFA-induced models., (© 2022. The Author(s).)

Published

2022

131. Prevalence of Dyslipidemia in Ischemic Stroke Patients: A Single-Center Prospective Study From Pakistan.

Author

Khan RSU, Nawaz M, Khan S, Raza HA, Nazir T, Anwar MS, Nadeem HMF, Rehman ZU, and Akram A

Abstract

Background Stroke  is a debilitating condition that adds morbidity to the patient and is an economic burden to society. Several modifiable risk factors can be identified and controlled, and dyslipidemia is one such under-diagnosed and least reported risk factor in Pakistan. We aimed to conduct this study to determine the frequency of dyslipidemia in ischemic stroke patients. Methodology We conducted a prospective cross-sectional study for seven months at Shalamar Hospital, Lahore, from November 2020 to May 2021. One hundred four patients were enrolled as per inclusion and exclusion criteria. After informed consent, a blood sample was taken from the patients and sent to a laboratory to determine dyslipidemia. Demographic details, history, and co-morbidities were also noted on a performa. All the collected data were analyzed in SPSS 20.0. Results The mean age was 53.09 ± 12.51 years. Of 104 patients, 60 (57.69%) were male, and 44 (42.31%) were females, with a male-to-female ratio of 1.4:1. The mean duration of disease in our study was 5.77 ± 3.33 hours. The mean BMI was 27.54 ± 3.03 kg/m2. In our study, the frequency of dyslipidemia in ischemic stroke patients was 39.42% (41 patients).  Conclusion This study concluded that dyslipidemia in ischemic stroke patients is very high in the Pakistani population. This highlighted the need to control this modifiable risk factor in the population. Strategic measures, including pharmacological therapy and diet modification, should be adopted, and awareness about the disease burden, control, and importance should be spread., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2022, Khan et al.)

Published

2022

132. Ethnomedicinal appraisal of plants used for the treatment of gastrointestinal complaints by tribal communities living in Diamir district, Western Himalayas, Pakistan.

Author

Wali R, Khan MF, Mahmood A, Mahmood M, Qureshi R, Ahmad KS, and Mashwani ZU

Subjects

Constipation, Ethnobotany, Humans, Pakistan, Phytotherapy, Surveys and Questionnaires, Artemisia, Dysentery, Plants, Medicinal

Abstract

Majority of the mountain dwelling communities living in the Himalayas rely on traditional herbal medicines for primary healthcare needs. Present study was conducted in fairy meadows and allied valleys in District Diamir, Gilgit Baltistan autonomous territory in northern Pakistan. Documentation of traditional medicinal knowledge (TMK) of local communities for the treatment of gastrointestinal disorders was carried out as a component of a wider medico-botanical expedition conducted in the entire base camp of the great Nanga Parbat peak during 2016-19. Various ethnobotanical parameters i.e. use value (UV), informant consensus factor (ICF), Fidelity level (FL), direct matrix ranking test (DMRT) and preference ranking (PR) were applied to evaluate the data collected during field surveys. The plants were also subjected to a comparative review for novelty assessment. A total of 61 medicinal plant species belonging to 55 genera and 35 families are reported here for the treatment of GIDs. Compositae was the leading family with 8 (13%) species. Fourteen gastrointestinal disorders were cured with 32% taxon were reported for stomachic followed by diarrhea (15%) and constipation (14%). Highest use reports (5) and use citations (207) were reported for Mentha longifolia L. while highest UV (1.79) was obtained for Artemisia maritima L. Hylotelephium telephioides (Ledeb.), A. maritima, M. longifolia, M. piperita L., Allium cepa L., and A. annua L. exhibited 100% FL. Highest ICF was calculated against dysentery and flatulence. DMRT ranked Prunus persica L. first for its multipurpose uses. Taking constipation as a reference gastrointestinal disease, PR for ten plant species was calculated where H. telephioides was ranked first followed by A. maritima. Present study concluded that 19 out of 61 plant species were documented for the first time with novel medicinal uses to cure GIDs. These plant species could act as potential reservoirs of novel lead compounds for the treatments of gastrointestinal disorders., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

133. Combine Effect of ZnO NPs and Bacteria on Protein and Gene's Expression Profile of Rice ( Oryza sativa L.) Plant.

Author

Akhtar N, Khan S, Jamil M, Rehman SU, Rehman ZU, and Rha ES

Abstract

Heavy metal (HM) emissions have increased due to the impact of rising urbanization and anthropogenic activity, affecting different parts of the environment. The goal of this study is to investigate the combined effect of ZnO NPs and bacteria treatment on protein and gene expression profiles of rice plants that are grown in HMs-polluted water. Seeds were primed with Bacillus spp. ( Bacillus cereus and Lysinibacillus macroides ) before being cultured in Hoagland media containing ZnO NPs (5 and 10 mg/L) and HMs-contaminated water from the Hayatabad industrial estate (HIE), Peshawar, Pakistan. The results revealed that the maximum nitrogen and protein content was observed in the root, shoot, and leaf of the plant grown by combining bacteria-ZnO NPs treatment under HMs stress as compared with plant grown without or with individual treatments of ZnO NPs and bacteria. Furthermore, protein expression analysis by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS PAGE) revealed that plants that were grown in HMs-polluted water were found to be affected in contaminated water, however the combined effect of bacteria-ZnO NPs reported the more dense protein profile as compared with their individual treatments. Subsequently, plants that were grown in HMs-polluted water have the highest expression levels of stress-induced genes such as myeloblastosis ( Myb ), zinc-finger protein ( Zat -12), and ascorbate peroxidase ( Apx ) while the combined effect revealed minimum expression as compared with individual treatments. It is concluded that the combined effect of ZnO NPs and bacteria lowered the stress-induced gene expression while it increased the nitrogen-protein content and protein expression in plant grown under HMs stress.

Published

2022

134. Plant-Based Bimetallic Silver-Zinc Oxide Nanoparticles: A Comprehensive Perspective of Synthesis, Biomedical Applications, and Future Trends.

Author

Ehsan M, Waheed A, Ullah A, Kazmi A, Ali A, Raja NI, Mashwani ZU, Sultana T, Mustafa N, Ikram M, and Li H

Subjects

Nanotechnology, Plants, Silver chemistry, Metal Nanoparticles chemistry, Metal Nanoparticles therapeutic use, Zinc Oxide chemistry

Abstract

The universal emphasis on the study of green nanotechnology has led to biologically harmless uses of wide-ranged nanomaterials. Nanotechnology deals with the production of nanosized particles with regular morphology and properties. Various researches have been directed on nanomaterial synthesis by physical, chemical, and biological means. Understanding the safety of both environment and in vivo, a biogenic approach particularly plant-derived synthesis is the best strategy. Silver-zinc oxide nanoparticles are most effective. Moreover, these engineered nanomaterials via morphological modifications attain improved performance in antimicrobial, biomedical, environmental, and therapeutic applications. This article evaluates manufacturing strategies for silver-zinc oxide nanoparticles via plant-derived means along with highlighting their broad range of uses in bionanotechnology., Competing Interests: The authors of the current manuscript declare no conflict of interest., (Copyright © 2022 Maria Ehsan et al.)

Published

2022

135. Daily Dose Standardization Based on Essential and Nonessential Trace Element Presence in Berberis baluchistanica Ahrendt Bark, Leaf, and Root.

Author

Gul Z, Akbar A, Leghari SK, Kakar AUR, Khan N, Muhammad J, Khan NA, Rehman ZU, Kamal R, and Ali I

Subjects

Lead analysis, Plant Bark chemistry, Plant Leaves chemistry, Reference Standards, Berberis, Metals, Heavy chemistry, Plants, Medicinal, Trace Elements analysis

Abstract

Medicinal plants have great importance to the consumer health, as beside beneficial compounds, plants can accumulate essential and nonessential metals from soil and surrounding environments, leading to consumer health risks. Assuming this, the present study is aimed at evaluating the elemental composition and daily dose standardization based on essential and nonessential trace element presence in of bark, leaves, and roots of Berberis baluchistanica Ahrendt, a common medicinal plant used as a folk medicine in the region. Atomic absorption and flame emission spectroscopy were performed to analyze the presence of essential and nonessential elements manganese (Mn), copper (Cu), lead (Pb), nickel (Ni), iron (Fe), sodium (Na), and potassium (K). Among the essential elements, K was present at high concentrations in the bark (8926.98 ± 0.32  μ g/g), leaves (7922.77 ± 0.42  μ g/g), and roots (6668.5 ± 0.96  μ g/g) of the plant. The estimated concentration of Na was higher in leaves (1782.56 ± 0.13  μ g/g), followed by roots (1089.5 ± 0.71  μ g/g) and bark (572.8 ± 0.62  μ g/g). The Fe concentration varied in the range of 394.7 ± 0.3  μ g/g in bark, 1298.3 ± 0.54  μ g/g in leaves, and 1208.9 ± 0.7  μ g/g in roots. The trace transition element Mn was highest in leaves (42.7 ± 0.99  μ g/g), followed by roots (33.5 ± 0.94  μ g/g) and bark (22 ± 1  μ g/g). The Cu concentration was low, ranging from 20.1 ± 0.63 to 22.67 ± 0.7  μ g/g in leaves, bark, and roots. The obtained concentration of nonessential element Pb was relatively lower than the permissible range (10 mgL-1) established by the World Health Organization. The elemental concentrations in all parts were within the set limits for provisional tolerable daily maximum intake (PTDMI) and provisional tolerable weekly intake (PTWI), and the hazard quotient index (HQ) was below 1 for all toxic metals. The micro and macroelemental distribution and the overall medicinal potential of any medicinal plant can be correlated for dose risk estimation, which will be useful in providing knowledge regarding the contraindication associated with folk medicines. In the present study, based on the elemental composition, it was calculated that the daily safe dose for Berberis baluchistanica is approximately 2-5 g/day of raw powder for an adult, which must not be exceeded to this safe range., Competing Interests: On behalf of all authors, the corresponding author states that there is no conflict of interest., (Copyright © 2022 Zareen Gul et al.)

Published

2022

136. Molecular Effects of Biogenic Zinc Nanoparticles on the Growth and Development of Brassica napus L. Revealed by Proteomics and Transcriptomics.

Author

Sohail, Sawati L, Ferrari E, Stierhof YD, Kemmerling B, and Mashwani ZU

Abstract

Plants are indispensable on earth and their improvement in terms of food security is a need of time. The current study has been designed to investigate how biogenic zinc nanoparticles (Zn NPs) can improve the growth and development of Brassica napus L. In this study, Zn NPs were synthesized utilizing Mentha arvensis aqueous extracts, and their morphological and optical properties were assessed using UV-Visible spectrophotometry, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray diffraction (XRD). The synthesized Zn NPs were irregular in shape, indicating aggregation in pattern, with an average particle size of 30 nm, while XRD analysis revealed the crystalline structure of nanoparticles. The growth and development of B. napus varieties (Faisal canola and Shiralee) were assessed after foliar treatments with different concentrations of biogenic Zn NPs. In B. napus varieties, exposure to 15 mg/L Zn NPs dramatically increased chlorophyll, carotenoid content, and biomass accumulation. Similarly, proteomic analyses, on the other hand, revealed that proteins associated with photosynthesis, transport, glycolysis, and stress response in both Brassica varieties were substantially altered. Such exposure to Zn NPs, differential expression of genes associated with photosynthesis, ribosome structural constituents, and oxidative stress response were considerably upregulated in B. napus var. (Faisal and Shiralee canola). The results of this study revealed that foliar applications of biogenic Zn NPs influence the transcriptome and protein profiling positively, therefore stimulating plant growth and development., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Sohail, Sawati, Ferrari, Stierhof, Kemmerling and Mashwani.)

Published

2022

137. Clinical Characteristics and Etiology of Epilepsy in Children Aged Below Two Years: Perspective From a Tertiary Childcare Hospital in South Punjab, Pakistan.

Author

Rehman ZU

Abstract

Background Epilepsy is described as an enduring disposition toward recurrent unprovoked seizures and by the neurobiological, cognitive, psychological, and social consequences of this condition. This study aimed to find the clinical characteristics and etiology of epilepsy in children aged below two years. Methodology This cross-sectional study was conducted at the department of pediatric neurology, the Children's Hospital and Institute of Child Health, Multan, Pakistan, from February 2021 to July 2021. During the study period, a total of 226 children of both genders, aged below two years, presenting with epilepsy and who underwent electroencephalography (EEG) were included. Socio-demographic and clinical data along with clinical features and radiological/imaging findings were noted. Results In a total of 226 children, 121 (53.5%) were male and 105 (46.5%) female. Overall, the mean age was calculated to be 14.6±5.2 months while 107 (47.3%) children were aged between 13 to 24 months. Residential status was found to be rural in 142 (62.8%) children. Generalized seizures (both primary and secondary) were reported in 205 (90.7%) children while the remaining 21 (9.3%) children had focal seizures. The most common etiology of epilepsy was noted to be structural/metabolic in 122 (54.0%) children. Abnormal EEG findings were observed among 150 (66.4%) children. Developmental delay (p=0.0016), hypotonia (p<0.0001), microcephaly or macrocephaly (p<0.0001), abnormal brain CT or MRI (p<0.0001), and abnormal EEG findings (p=0.0161) were found to have a significant association with etiology of epilepsy. Conclusion Generalized seizures like tonic-clonic and clonic types were the most common findings among children below two years of age with epilepsy. Structural abnormalities were the most common etiology in children with epilepsy. Age between one to two years was the commonest age of onset of seizures among young children., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2022, Rehman et al.)

Published

2022

138. Identifying the 'Vulnerable Plaque' in Asymptomatic Carotid Artery Disease Patients.

Author

Rehman ZU

Subjects

Humans, Carotid Artery Diseases diagnostic imaging, Carotid Stenosis diagnostic imaging

Abstract

Null.

Published

2022

139. Photocatalytic CO 2 Reduction Using TiO 2 -Based Photocatalysts and TiO 2 Z-Scheme Heterojunction Composites: A Review.

Author

Rehman ZU, Bilal M, Hou J, Butt FK, Ahmad J, Ali S, and Hussain A

Subjects

Catalysis, Semiconductors, Carbon Dioxide, Titanium

Abstract

Photocatalytic CO 2 reduction is a most promising technique to capture CO 2 and reduce it to non-fossil fuel and other valuable compounds. Today, we are facing serious environmental issues due to the usage of excessive amounts of non-renewable energy resources. In this aspect, photocatalytic CO 2 reduction will provide us with energy-enriched compounds and help to keep our environment clean and healthy. For this purpose, various photocatalysts have been designed to obtain selective products and improve efficiency of the system. Semiconductor materials have received great attention and have showed good performances for CO 2 reduction. Titanium dioxide has been widely explored as a photocatalyst for CO 2 reduction among the semiconductors due to its suitable electronic/optical properties, availability at low cost, thermal stability, low toxicity, and high photoactivity. Inspired by natural photosynthesis, the artificial Z-scheme of photocatalyst is constructed to provide an easy method to enhance efficiency of CO 2 reduction. This review covers literature in this field, particularly the studies about the photocatalytic system, TiO 2 Z-scheme heterojunction composites, and use of transition metals for CO 2 photoreduction. Lastly, challenges and opportunities are described to open a new era in engineering and attain good performances with semiconductor materials for photocatalytic CO 2 reduction.

Published

2022

140. COVID-19 Antibodies in Vaccinated Healthcare Workers: The Security Currency.

Author

Ammar A, Shah JA, Khan W, Kumar R, Shaikh AH, Ali F, Zehra M, Sial JA, Saghir T, and Rehman ZU

Abstract

Background The coronavirus disease 2019 (COVID-19) vaccinations have brought new hope to the world and have a significant psychosocial impact on communities as well as healthcare systems around the globe. This study aimed to assess the antibody titer level among healthcare workers after at least six weeks of the second dose of the COVID-19 vaccine. Methods Participants of the study were healthcare workers of a tertiary care cardiac center including doctors, nursing staff, paramedics, and office staff. All participants were fully vaccinated with recommended double dose of available vaccine at least six weeks before the study. A blood sample of five milliliters was collected from all the participants by a trained phlebotomist at a local laboratory, and COVID-19 antibodies titer level was assessed using Food and Drug Administration (FDA) approved kit with a standard range of 1.0. This qualitative assay detects IgG and IgM as total antibodies targeted against nucleocapsid antigen performed on a fully automated cobas® 6000 analyzer (F. Hoffmann-La Roche Ltd, Basel, Switzerland) using electrochemiluminescence technology. COVID-19 antibodies titer levels were categorized as ≤100, 101-250, and >250. Results A total of 151 healthcare workers were included, of which 70.2% (106) were male. The history of COVID-19 infection before vaccination was found in 41.1% (62). The mean duration since the last dose of the vaccine was 89.6±40.07 days. In total 71.5% (108) had antibodies titer level of >250, which were mostly found in participants of younger age and who had previous COVID-19 infection. However, antibodies titer level of >250 were observed in 84% (21/25) at 61 to 90 days of vaccination, which declined to 80% (20/25) after 91 to 120 days and to 57.1% (32/56) after >120 days of vaccination. Conclusions Good antibodies titer levels were observed in vaccinated healthcare workers, especially in those who were younger and had previous COVID-19 infection., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2022, Ammar et al.)

Published

2022

141. Improvement of Plant Responses by Nanobiofertilizer: A Step towards Sustainable Agriculture.

Author

Akhtar N, Ilyas N, Meraj TA, Pour-Aboughadareh A, Sayyed RZ, Mashwani ZU, and Poczai P

Abstract

Drastic changes in the climate and ecosystem due to natural or anthropogenic activities have severely affected crop production globally. This concern has raised the need to develop environmentally friendly and cost-effective strategies, particularly for keeping pace with the demands of the growing population. The use of nanobiofertilizers in agriculture opens a new chapter in the sustainable production of crops. The application of nanoparticles improves the growth and stress tolerance in plants. Inoculation of biofertilizers is another strategy explored in agriculture. The combination of nanoparticles and biofertilizers produces nanobiofertilizers, which are cost-effective and more potent and eco-friendly than nanoparticles or biofertilizers alone. Nanobiofertilizers consist of biofertilizers encapsulated in nanoparticles. Biofertilizers are the preparations of plant-based carriers having beneficial microbial cells, while nanoparticles are microscopic (1-100 nm) particles that possess numerous advantages. Silicon, zinc, copper, iron, and silver are the commonly used nanoparticles for the formulation of nanobiofertilizer. The green synthesis of these nanoparticles enhances their performance and characteristics. The use of nanobiofertilizers is more effective than other traditional strategies. They also perform their role better than the common salts previously used in agriculture to enhance the production of crops. Nanobiofertilizer gives better and more long-lasting results as compared to traditional chemical fertilizers. It improves the structure and function of soil and the morphological, physiological, biochemical, and yield attributes of plants. The formation and application of nanobiofertilizer is a practical step toward smart fertilizer that enhances growth and augments the yield of crops. The literature on the formulation and application of nanobiofertilizer at the field level is scarce. This product requires attention, as it can reduce the use of chemical fertilizer and make the soil and crops healthy. This review highlights the formulation and application of nanobiofertilizer on various plant species and explains how nanobiofertilizer improves the growth and development of plants. It covers the role and status of nanobiofertilizer in agriculture. The limitations of and future strategies for formulating effective nanobiofertilizer are mentioned.

Published

2022

142. Fragile X premutation carrier screening in Pakistani preconception women in primary care consultation.

Author

Meraj N, Yasin M, Rehman ZU, Tahir H, Jadoon H, Khan N, Shahid R, Zubair M, Zulfiqar I, Jabeen M, Neelam S, Hameed A, and Saleha S

Subjects

Child, Female, Humans, Mutation, Pakistan, Primary Health Care, Referral and Consultation, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome diagnosis, Fragile X Syndrome epidemiology, Fragile X Syndrome genetics

Abstract

Purpose: Women of reproductive age who carry fragile X premutation (PM) alleles have 56 to 200 CGG repeats in the 5'-untranslated region of FMR1 gene are at increased risk for producing children with intellectual disabilities (ID) or autism spectrum disorders (ASD) due to expansion of PM alleles to full mutation alleles (> 200 repeats) during maternal transmission., Methods: In present study fragile X PM carrier screening was performed in total 808 women who were consulting primary health care centers for preconception care in Khyber Pakhtunkhwa region of Pakistan between April, 2018 and December, 2020. Polymerase chain reaction (PCR) was performed for detection of PM carrier women and the CGG repeats number was confirmed by Southern blotting and capillary electrophoresis., Results: The prevalence rate for PM carriers among preconception women was found to be 0.7% that was contributed by 0.5% women in risk group (RG1) with family history of ID and 0.2% in risk group 2 (RG2) with family history of ASD. PM carrier women had at least one affected child or sibling. In addition, the preconception women with FMR1 PM alleles were found to be at increased risk for primary ovary insufficiency (RG1: P = 0.0265, RG2: P = 0.0389), postpartum depression (RG1: P = 0.0240, RG2: P = 0.0501) and neuropsychiatric disorders (RG1: P = 0.0389, RG2: P = 0.0432)., Conclusions: Current study provides first evidence of fragile X PM carrier screening in Pakistani preconception women in primary care consultation. Findings of current study may help to improve preconception care and to reduce burden of fragile X associated disorders in our population., (© 2022. The Author(s).)

Published

2022

143. The interactions of flaviviruses with cellular receptors: Implications for virus entry.

Author

Anwar MN, Akhtar R, Abid M, Khan SA, Rehman ZU, Tayyub M, Malik MI, Shahzad MK, Mubeen H, Qadir MS, Hameed M, Wahaab A, Li Z, Liu K, Li B, Qiu Y, Ma Z, and Wei J

Subjects

Animals, Disease Susceptibility, Endocytosis, Humans, Protein Binding, Protein Multimerization, Receptors, Virus chemistry, Structure-Activity Relationship, Virus Attachment, Virus Replication, Flavivirus physiology, Flavivirus Infections metabolism, Flavivirus Infections virology, Host-Pathogen Interactions, Receptors, Virus metabolism, Virus Internalization

Abstract

Flaviviruses are a group of enveloped viruses that enter the host cells through receptor-mediated endocytosis. The entry of flaviviruses into the cells is a multi-step process which involves several host factors that trigger the uptake of the virus. The initial step in the virus life cycle is the interactions between viral envelope proteins and the specific receptors on the surface of host cell. To date, several receptors have been identified such as glycosaminoglycans, tight junction proteins, laminin receptor and phosphatidylserine receptors. Moreover, the viruses may utilize integrins and C-type lectin receptors on the surface of host cells as the initial attachment factors. This mini-review will focus on recent progresses in the understanding of virus attachment, internalization, and membrane fusion with specific emphasis on the cellular receptors., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

144. Optimization of COVID-19 face mask waste fibers and silica fume as a balanced mechanical ameliorator of fat clay using response surface methodology.

Author

Rehman ZU and Khalid U

Subjects

Clay, Humans, SARS-CoV-2, Silicon Dioxide, COVID-19, Masks

Abstract

The balanced amelioration of mechanical characteristics of fat clay with an additive refers to the attainment of high strength without compromising ductility, which is unattainable by solitary usage of a cementing additive. For this purpose, an amalgamated binary admixture (ABA) is proposed by assimilating shredded face mask (FM) waste, which is posing serious environmental concerns these days, with a cementitious waste material, i.e., silica fume (SF). However, for such ABA, the optimization of mix design is desirable because an excessive amount of one component could disturb the required balance. To address this issue, response surface methodology (RSM) is used in the current study, which is a strong technique used during the process of production to develop, improve, and optimize product inputs. Several experiments are designed and conducted to evaluate mechanical responses, i.e., unconfined compressive strength (q u ), brittleness index (I B ), deformability index (I D ), and California bearing ratio (CBR) value, of treated fat clay by varying mix designs of ABA. Based on the test results, mathematical models are developed which are found to be statistically valid to predict the subjected responses using SF and FM as inputs. Afterward, an optimized mix design is determined by integrating developed models with a desirability function model and setting maximization of strength and ductility as the optimization goals. An ABA having 7.9% SF and 1.2% FM is observed to provide the highest strength and ductility for multiple applications, i.e., road and buildings, with desirability factor close to unity; responses of which are also validated by performing tests. Furthermore, analysis of cleaning aspect shows that the use of optimized ABA in place of cement for subgrade improvement of 1 km two-lane road could avoid CO 2 emission of around 79,032 kg of C, save 42,720 kWh and 1174.8 GJ of electrical and thermal energy, respectively, and clean 43 Mg of FM waste; however, astute protocols of COVID-19 FM waste handling and disinfection are needed to be established and followed., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2022

145. Routine Procedure Getting Complicated: Iliac Artery Injury during Herniated Disc Surgery.

Author

Rehman ZU

Subjects

Humans, Iliac Artery surgery, Abdominal Injuries, Intervertebral Disc Displacement surgery

Abstract

Null.

Published

2022

146. Phytochemical, Cytotoxic, and Antimicrobial Evaluation of Tribulus terrestris L ., Typha domingensis Pers., and Ricinus communis L.: Scientific Evidences for Folkloric Uses.

Author

Khalid A, Algarni AS, Homeida HE, Sultana S, Javed SA, Rehman ZU, Abdalla H, Alhazmi HA, Albratty M, and Abdalla AN

Abstract

Many medicinal plants have been utilized for centuries despite the lack of scientific evidence of their therapeutic effects. This study evaluated the phytochemical and dual biological profiling, namely, antibacterial and cytotoxic properties, of three plant species, namely, Tribulus terrestris L. , Typha domingensis Pers., and Ricinus communis L., in order to explore potential relationships (if any) with their ethnopharmacological uses. GC-MS was used to achieve phytochemical screening of two plant extracts ( T. terrestris and T. domingensis ). The primary chemicals detected in varying amounts in both extracts were siloxane derivatives, fatty acid esters, diisooctyl phthalate, phytosterol, and aromatic acid esters. According to the findings, the major component detected in both extracts was 1,2-benzenedicarboxylic acid and diisooctyl ester (antibacterial and antifungal). T. domingensis contained a low level of benzoic acid, methyl ester (antibacterial). Both extracts included stigmasterol and sitosterol, as well as six different forms of fatty acid esters. Antimicrobial, antioxidant, anticancer, thyroid inhibitor, and anti-inflammatory properties have all been described. Human breast adenocarcinoma (MCF7), human ovary adenocarcinoma (A2780), and human colon adenocarcinoma (HT29), as well as normal human fetal lung fibroblasts (MRC5), all showed cytotoxic activity. The most potent activity against A2780 cells was seen in T. terrestris and T. domingensis extracts (IC 50 : 3.69 and 5.87 g/mL, respectively). R. communis was more active against MCF7 cells (1.52  μ g/mL) followed by A2780 and HT29 cells, respectively. R. communis showed a dose-dependent clonogenic effect against MCF7 cells. The antibacterial activity of all three plant extracts was tested against three standard Gram-positive, four standard Gram-negative, and two clinical bacterial strains. Among the three extracts examined, T. terrestris was the most effective, followed by R. communis , and finally, T. domingensis plant extract was effective against various isolated bacteria. This study, interestingly, sheds light on the bioactive components found in plant extracts that can be utilized for cytotoxic and antibacterial purposes., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2022 Asaad Khalid et al.)

Published

2022

147. The First Report of a Missense Variant in RFX2 Causing Non-Syndromic Tooth Agenesis in a Consanguineous Pakistani Family.

Author

Khan SA, Khan S, Muhammad N, Rehman ZU, Khan MA, Nasir A, Kalsoom UE, Khan AK, Khan H, and Wasif N

Abstract

Background: The syndromic and non-syndromic congenital missing teeth phenotype is termed tooth agenesis. Since tooth agenesis is a heterogeneous disorder hence, the patients show diverse absent teeth phenotypes. Thus identifying novel genes involved in the morphogenesis of ectodermal appendages, including teeth, paves the way for establishing signaling pathways. Methods and Results: We have recruited an autosomal recessive non-syndromic tooth agenesis family with two affected members. The exome sequencing technology identified a novel missense sequence variant c.1421T > C; p.(Ile474Thr) in a regulatory factor X (RFX) family member (RFX2, OMIM: 142,765). During the data analysis eight rare variants on various chromosomal locations were identified, but the co-segregation analysis using Sanger sequencing confirmed the segregation of only two variants RFX2 : c.1421T > C; p.(Ile474Thr), DOHH : c.109C > G; p.(Pro37Ala) lying in a common 7.1 MB region of homozygosity on chromosome 19p13.3. Furthermore, the online protein prediction algorithms and protein modeling analysis verified the RFX2 variant as a damaging genetic alteration and ACMG pathogenicity criteria classified it as likely pathogenic. On the other hand, the DOHH variant showed benign outcomes. Conclusion: RFX2 regulates the Hedgehog and fibroblast growth factor signaling pathways, which are involved in the epithelial and mesenchymal interactions during tooth development. Prior animal model studies have confirmed the expression of rfx2 at a developmental stage governing mouth formation. Moreover, its regulatory role and close association with ciliary and non-ciliary genes causing various dental malformations makes it a potential candidate gene for tooth agenesis phenotype. Further studies will contribute to exploring the direct role of RFX2 in human tooth development., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Khan, Khan, Muhammad, Rehman, Khan, Nasir, Kalsoom, Khan, Khan and Wasif.)

Published

2022

148. Phytogenic Selenium Nanoparticles Elicited the Physiological, Biochemical, and Antioxidant Defense System Amelioration of Huanglongbing-Infected 'Kinnow' Mandarin Plants.

Author

Ikram M, Raja NI, Mashwani ZU, Omar AA, Mohamed AH, Satti SH, and Zohra E

Abstract

Citrus greening or huanglongbing (HLB) is commonly known as yellow dragon disease and affects citrus production worldwide. Therefore, it has a significant impact on and deleterious effects in the agro-industrial sector. Significant efforts have been made to combat this disease and mitigate its destructive impact on citrus production, but still, there is no effective biocompatible treatment available to control HLB disorder. This study is considered the first biocompatible approach to evaluate the potential of phytogenic selenium nanoparticles (SeNPs) to improve the health of HLB-infected 'Kinnow' mandarin plants. Polymerase chain reactions (PCRs) with specific primers were used to detect HLB disease in 'Kinnow' mandarin plants, and PCR products were sequenced to identify Candidatus Liberibacter asiaticus (CLas), and accession numbers for CLas1 and CLas2, MZ851933 and MZ851934, respectively, were obtained. SeNPs were synthesized by using Allium sativum L. clove extract as a reducing, capping, and stabilizing agent and various techniques such as UV-visible spectrophotometry, energy dispersive X-rays, scanning electron microscopy (SEM), Fourier transformed infrared spectroscopy (FTIR), and X-ray diffraction analysis (XRD) were used to confirm the biogenesis of SeNPs. Different concentrations of SeNPs (25, 50, 75, and 100 mg L -1 ) were exogenously applied to HLB-infected 'Kinnow' mandarin plants and obtained spectacular results. The obtained results from the current study proved that 75 mg L -1 of SeNPs was most effective to improve the chlorophyll, carotenoids, relative water content (RWC), membrane stability index (MSI), total soluble sugar (TSS), superoxide dismutase (SOD), peroxidase (POD), catalase (CAT), total flavonoid content (TFC), and total phenolic content (TPC) and significant decrease was observed in hydrogen peroxide (H 2 O 2 ), malondialdehyde (MDA), and proline (PRO) contents of HLB-infected 'Kinnow' mandarin plants as compared to untreated diseased citrus plants. In conclusion, these results allow us to synthesize the SeNPs formulation as a promising management strategy to treat the HLB disease in citrus plants.

Published

2022

149. Green Synthesis of Silver-Peptide Nanoparticles Generated by the Photoionization Process for Anti-Biofilm Application.

Author

Seferji KA, Susapto HH, Khan BK, Rehman ZU, Abbas M, Emwas AH, and Hauser CAE

Subjects

Anti-Bacterial Agents pharmacology, Bacteria metabolism, Biofilms, Escherichia coli, Gram-Negative Bacteria, Gram-Positive Bacteria, Humans, Peptides pharmacology, Metal Nanoparticles chemistry, Silver pharmacology

Abstract

An alarming increase in antibiotic-resistant bacterial strains is driving clinical demand for new antibacterial agents. One of the oldest antimicrobial agents is elementary silver (Ag), which has been used for thousands of years. Even today, elementary Ag is used for medical purposes such as treating burns, wounds, and microbial infections. In consideration of the effectiveness of elementary Ag, the present researchers generated effective antibacterial/antibiofilm agents by combining elementary Ag with biocompatible ultrashort peptide compounds. The innovative antibacterial agents comprised a hybrid peptide bound to Ag nanoparticles (IVFK/Ag NPs). These were generated by photoionizing a biocompatible ultrashort peptide, thus reducing Ag ions to form Ag NPs with a diameter of 6 nm. The IVFK/Ag NPs demonstrated promising antibacterial/antibiofilm activity against reference Gram-positive and Gram-negative bacteria compared with commercial Ag NPs. Through morphological changes in Escherichia coli and Staphylococcus aureus , we proposed that the mechanism of action for IVFK/Ag NPs derives from their ability to disrupt bacterial membranes. In terms of safety, the IVFK/Ag NPs demonstrated biocompatibility in the presence of human dermal fibroblast cells, and concentrations within the minimal inhibitory concentration had no significant effect on cell viability. These results demonstrated that hybrid peptide/Ag NPs hold promise as a biocompatible material with strong antibacterial/antibiofilm properties, allowing them to be applied across a wide range of applications in tissue engineering and regenerative medicine.

Published

2021

150. Mesenteric inflammatory veno-occlusive disease: what is it and why it is important to know it?

Author

Rehman ZU

Subjects

Humans, Mesentery, Vascular Diseases

Published

2021