Your search keyword '"Alfarraj S"' showing total 110 results

1. Machining and mechanical characterization of friction stir processed (FSP) surface hybrid composites (AA8014 + TiB2 + ZrO2)

Author

Thanikodi, S, Britto, ASF, Dattu, VSNC, Al Obaid, S, Alfarraj, S, Kalam, MA, Thanikodi, S, Britto, ASF, Dattu, VSNC, Al Obaid, S, Alfarraj, S, and Kalam, MA

Abstract

In modern trends, the study on properties of hybrid composites with alloy matrix is complicated. The strength of the weld joint is depending on the strength of the weldment with the parent material. This study proposed to conduct an experimental study to maximize the strength of the hybrid composite, that is, the aluminum alloy AA8014 reinforcement with titanium diboride (TiB2) and zirconium dioxide (ZrO2) particles. Friction stir processing (FSP) is introduced to this study for analyzing and optimizing the strength of the welded structures. This investigation considered two cases with the use of a pin on the FSP tool and without the use of a pin. The tool pin has a square cross-section made up of H13 tool steel material. Taguchi’s statistical route is focused on this work to maximize the welding strength. In this regard, the most important four process parameters were considered to optimize. That is, reinforcement quantity (4 wt%, 6 wt%, 8 wt%, and 10 wt%) tool speed (1000 rpm, 1200 rpm, 1400, and 1600 rpm), traverse speed of the tool head (4 mm/min, 5 mm/min, 6 mm/min, and 7 mm/min), and axial force (3 kN, 4 kN, 5 kN, and 6 kN) were considered. The experimental observations were used to optimize welding strength. The results revealed that the maximum tensile strength was obtained 268 MPa at the optimized parameters of reinforcement quantity 8%, spindle speed/tool rotation speed was 1400 rpm, 40 mm/min of traverse speed, and 3 kN of axial force.

Published

2023

2. Halogenated Secondary Metabolites from Higher Plants: Potent Drug Candidates for Chikungunya Using in silico Approaches

Author

Kumar Sushil, Joshi Nidhi, Choudhir Gourav, Sharma Sakshi, Tiwari Abhay, Alharbi Sulaiman Ali, Alfarraj Saleh, and Ansari Mohammad Javed

Subjects

chikungunya virus, nsp2 cysteine protease, traditional medicine, drug candidates, molecular docking, md simulation, pipoxide chlorohydrin, Genetics, QH426-470, Microbiology, QR1-502

Abstract

Chikungunya virus (CHIKV) causes a debilitating fever and joint pain, with no specific antiviral treatment available. Halogenated secondary metabolites from plants are a promising new class of drug candidates against chikungunya, with unique properties that make them effective against the virus. Plants produce these compounds to defend themselves against pests and pathogens, and they are effective against a wide range of viruses, including chikungunya. This study investigated the interactions of halogenated secondary metabolites with nsP2pro, a therapeutic target for CHIKV. A library of sixty-six halogenated plant metabolites screened previously for ADME properties was used. Metabolites without violation of Lipinski’s rule were docked with nsP2pro using AutoDock Vina. To find the stability of the pipoxide chlorohydrin-nsP2pro complex, the GROMACS suite was used for MD simulation. The binding free energy of the ligand-protein complex was computed using MMPBSA. Molecular docking studies revealed that halogenated metabolites interact with nsP2pro, suggesting they are possible inhibitors. Pipoxide chlorohydrin showed the greatest affinity to the target. This was further confirmed by the MD simulations, surface accessible area, and MMPBSA studies. Pipoxide chlorohydrin, a halogenated metabolite, was the most potent against nsP2pro in the survey.

Published

2024

3. Impact of different mulching treatments on weed flora and productivity of maize (Zea mays L.) and sunflower (Helianthus annuus L.)

Author

Hussain, M., Abbas Shah, S.N., Naeem, M., Farooq, S., Jabran, K., Alfarraj, S., Hussain, M., Abbas Shah, S.N., Naeem, M., Farooq, S., Jabran, K., and Alfarraj, S.

Abstract

The concerns on weed control through herbicides are increasing due to their negative impacts on environment and human health. Therefore, alternative weed management methods are inevitable for sustainable crop production and lowering the negative consequences of herbicides. Mulching is an environment-friendly weed management approach capable of substituting herbicides to significant extent. Therefore, this study evaluated the role of different mulching treatments on suppressing weed flora in maize (Zea mays L.) and sunflower (Helianthus annuus L.) crops. Furthermore, the impact of different mulching treatments on the productivity of both crops was also investigated. Three mulch treatments, i.e., plastic mulch (PLM), sorghum mulch (SM) and paper mulch (PM) along with two controls, i.e., weed-free (WF) and weedy-check (WC) were included in the study. Different mulch treatments significantly altered weed flora in both crops. The PLM and PM resulted in the highest suppression (43–47%) of weed flora compared to WC treatment in both crops. The highest and the lowest weed diversity was recorded for WC and WF treatments, respectively. Different allometric traits, i.e., leaf area index, crop growth rate and root length of both crops were significantly improved by PLM as compared to the WC. Overall, maize crop recorded higher density of individual and total weeds compared to sunflower with WC treatment. The density of individual and total weeds was significantly lowered by PLM compared to WC treatment in both crops. Similarly, higher growth and yield-related traits of both crops were noted with PLM compared to the rest of the mulching treatments. Results of the current study warrant that PLM could suppress weed flora and improve the productivity of both crops. However, PLM alone could not provide 100% control over weed flora; therefore, it should be combined with other weed management approaches for successful weed control in both crops.

Published

2022

4. Chronic ozone exposure preferentially modifies root rather than foliar metabolism of date palm (Phoenix dactylifera) saplings

Author

Arab, L., primary, Hoshika, Y., additional, Müller, H., additional, Cotrozzi, L., additional, Nali, C., additional, Tonelli, M., additional, Ache, P., additional, Paoletti, E., additional, Alfarraj, S., additional, Albasher, G., additional, Hedrich, R., additional, and Rennenberg, H., additional

Published

2022

5. Parasitic contamination of fresh vegetables sold in open markets: a public health threat

Author

Khan, W., primary, Rafiq, N., additional, Nawaz, M. A., additional, Kabir, M., additional, Farooqi, Z. Ur R., additional, Romman, M., additional, Parvez, R., additional, Alfarraj, S., additional, Noor, A., additional, and Ujjan, A. A., additional

Published

2022

6. Comparative analysis of brain in relation to the body length and weight of common carp (Cyprinus carpio) in captive (hatchery) and wild (river system) populations

Author

Khan, W., primary, Khan, M. I., additional, Hussain, S., additional, Masood, Z., additional, Shadman, M., additional, Baset, A., additional, Rahman, A., additional, Mohsin, M., additional, and Alfarraj, S., additional

Published

2022

7. Occurrence of Hymenolepis diminuta: a potential helminth of zoonotic importance in murid rodents

Author

Khan, W., primary, Nisa, N. N., additional, Pervez, S., additional, Ahmed, S., additional, Ahmed, M. S., additional, Alfarraj, S., additional, Ali, A., additional, and Tahreem, S., additional

Published

2022

8. Soil-Applied boron combined with Boron-Tolerant Bacteria (Bacillus sp. MN54) improve root proliferation and nodulation, yield and agronomic grain biofortification of chickpea (Cicer arietinum L.)

Author

Mehboob, N., Hussain, M., Minhas, W.A., Yasir, T.A., Naveed, M., Farooq, S., Alfarraj, S., Zuan, A.T.K., Mehboob, N., Hussain, M., Minhas, W.A., Yasir, T.A., Naveed, M., Farooq, S., Alfarraj, S., and Zuan, A.T.K.

Abstract

Chickpea is widely cultivated on calcareous sandy soils in arid and semi-arid regions of Pakistan; however, widespread boron (B) deficiencies in these soils significantly decreases its productivity. Soil application of B could improve chickpea yield and grain-B concentration. However, optimizing suitable B level is necessary due to a narrow deficiency and toxicity range of B. Nonetheless, the co-application of B-tolerant bacteria (BTB) and synthetic B fertilizer could be helpful in obtaining higher chickpea yields and grain-B concentration. Therefore, this study optimized the level of soil applied B along with BTB, (i.e., Bacillus sp. MN54) to improve growth, yield and grain-B concentrations of chickpea. The B concentrations included in the study were 0.00 (control), 0.25, 0.50, 0.75 and 1.00 mg B kg−1 soil combined with or without Bacillus sp. MN54 inoculation. Soil application of B significantly improved root system, nodulation, yield and grain-B concentration, and Bacillus sp. MN54 inoculation further improved these traits. Moreover, B application at a lower dose (0.25 mg B kg−1 soil) with BTB inoculation recorded the highest improvements in root system (longer roots with more roots’ proliferation), growth, nodulation and grain yield. However, the highest grain-B concentration was recorded under a higher B level (0.75 mg B kg−1 soil) included in the study. Soil application of 0.25 mg B kg−1 with Bacillus sp. MN54 inoculation improved growth and yield-related traits, especially nodule population (81%), number of pods plant−1 (38%), number of grains plant−1 (65%) and grain yield (47%) compared with control treatment. However, the grain-B concentration was higher under the highest B level (1.00 mg kg−1 soil) with Bacillus sp. MN54 inoculation. In conclusion, soil application of 0.25 mg B kg−1 with Bacillus sp. MN54 inoculation is a pragmatic option to improve the root system, nodule population, seedling growth, yield and agronomic grain-B biofortification of chickpe

Published

2021

9. The impact of different crop sequences on weed infestation and productivity of barley (Hordeum vulgare L.) under different tillage systems

Author

Naeem, M., Farooq, M., Farooq, S., Ul-Allah, S., Alfarraj, S., Hussain, M., Naeem, M., Farooq, M., Farooq, S., Ul-Allah, S., Alfarraj, S., and Hussain, M.

Abstract

Different crop sequences and tillage systems strongly affect weed flora composition and crop productivity. Exploring the impacts of tillage systems and crop sequences on weed infestation/flora and crop productivity may help in improving system productivity through the selection of optimum cropping sequence and tillage system. This two-year study assessed the impact of five crop sequences, i.e., fallow-barley (F-B), maize-barley (M-B), cotton-barley (C-B), mungbean-barley (MB-B) and sorghum-barley (S-B) on weed infestation and productivity of barley crop under five different tillage systems, i.e., conventional tillage (CT), no tillage (NT), minimum tillage (MT), strip tillage (ST) and bed sowing (BS). Crop sequences and tillage systems significantly altered density and biomass of total and individual weeds, and yield-related traits of barley. The F-B, MB-B or C-B sequences with NT recorded higher weed infestation compared to the rest of crop sequences and tillage systems. However, all crop sequences with tilled soils (i.e., BS and CT) recorded lesser weed infestation than NT. The S-B and M-B sequences suppressed weed infestation under different tillage systems. Bed-sown barley in MB-B sequence had the highest number of productive tillers (251.79 and 273.74), number of grains spike−1 (56.53 and 54.60), 1000-grains weight (40.98 and 40.98 g) and grain yield (3.27 and 3.32 t ha−1) during 1st and 2nd year, respectively. Adoption of bed sowing and crop sequence having allelopathic crop seemed a viable option to suppress weed infestation, whereas crop sequence with legume improved system productivity of barley-based crop sequences.

Published

2021

10. The protective role of luteolin against the methotrexate-induced hepato-renal toxicity via its antioxidative, anti-inflammatory, and anti-apoptotic effects in rats

Author

Dar, AA, primary, Fehaid, A, additional, Alkhatani, S, additional, Alarifi, S, additional, Alqahtani, WS, additional, Albasher, G, additional, Almeer, R, additional, Alfarraj, S, additional, and Moneim, AE Abdel, additional

Published

2021

11. Tribological characterization of sponge gourd outer skin fiber-reinforced epoxy composite with Tamarindus indica seed filler addition using the Box–Behnken method

Author

Arockiasamy Felix Sahayaraj, Muthukrishnan Mayakrishnan, Iyyadurai Jenish, Kaliappan Seeniappan, Lakshmaiya Natrayan, Djearamane Sinouvassane, Tey Lai-Hock, Wong Ling Shing, Kayarohanam Saminathan, Obaid Sami Al, Alfarraj Saleh, and Sivakumar Subpiramaniyam

Subjects

pin-on-disc wear test, tribology, polymer composite, response surface methodology, sem, Polymers and polymer manufacture, TP1080-1185

Abstract

The tribological properties of the sponge gourd outer skin fiber (SGOSF)-reinforced epoxy composites filled with tamarind seed powder were investigated using a pin-on-disc dry sliding wear testing machine. The fiber and filler contents were kept constant (30 and 7.5 wt%). The fibers were treated with sodium hydroxide (NaOH), which increases the bonding strength that has been identified by scanning electron microscope (SEM). A filler content of 7.5 wt% has better hardness due to the embedment of filler with treated fiber and epoxy. Therefore, the SGOSFs/epoxy with 7.5 wt% tamarind filler was chosen for the study of tribological characterization. The lowest specific wear rate of 2.565 × 10−4 mm3·N m−1 was obtained using the design of expert optimization technique for the control factors such as a load of 44.99 N, a sliding distance of 1,701.39 m, and a sliding velocity of 3.36 m·s−1 using a ramp plot at the desirable level of 1. For the gripping material application, the highest coefficient of friction value of 0.51 was obtained by maintaining the specified input parameters, such as a load of 42.15 N, a sliding distance of 1,874.86 m, and a sliding velocity of 4.99 m·s−1 using a ramp plot at the desirable level of 0.927. SEM images were used to investigate the failure mechanism of the worn surfaces, which substantiates the failure of the pure matrix layer on the surface even at low load, followed by the formation of a rarely breakable adhesive layer.

Published

2023

12. Fatigue behaviour of Kevlar/carbon/basalt fibre-reinforced SiC nanofiller particulate hybrid epoxy composite

Author

Raja Thandavamoorthy, Mohanavel Vinayagam, Velmurugan Palanivel, Seeniappan Kaliappan, Singh Durgesh Pratap, Djearamane Sinouvassane, Tey Lai-Hock, Wong Ling Shing, Kayarohanam Saminathan, Obaid Sami Al, Alfarraj Saleh, and Sivakumar Subpiramaniyam

Subjects

natural fibre, synthetic fibre, silicon carbide, fatigue analysis, scanning electron microscope morphology, Polymers and polymer manufacture, TP1080-1185

Abstract

It is vital to conduct research on the behaviour of natural fibre composites under cyclic loading in order to have confidence in the mechanical durability. During this study, the fabrication of composite laminates will be carried out by the hybridization effect of natural and synthetic fibres. Quantifying the impact that the SiC filler (10, 20, and 30 g) has when combined with the fibre reinforcement and epoxy matrix (275 g) under cyclic loading circumstances and determining the significant sequence of hybrid composites are the goals of this research. The results of the tensile mode were used to determine the input parameters, and based on the tensile strength of the hybrid composite, 70% of the tensile strength was fixed at 3 Hz frequency as the input for fatigue analysis. The life span was then determined for the hybrid composite. The results of this fatigue test showed that increasing the amount of SiC nanofillers produced a very high potential output for the fatigue test. As a result of increasing the amount of silicon carbide fillers from 10 to 30 g, sample S3 was able to significantly tolerate 65% more life. Failure mode can be identified from scanning electron microscope analysis revealing the major porosity, matrix crack, and laminate bonding strength that causes the failure during fatigue analysis.

Published

2023

13. Dynamics of amino acid redistribution in the carnivorous Venus flytrap (Dionaea muscipula) after digestion of13C/15N-labelled prey

Author

Kruse, J., primary, Gao, P., additional, Eibelmeier, M., additional, Alfarraj, S., additional, and Rennenberg, H., additional

Published

2017

14. Corrigendum: The Venus flytrap attracts insects by the release of volatile organic compounds

Author

Kreuzwieser, J., Scheerer, U., Kruse, J., Burzlaff, T., Honsel, A., Alfarraj, S., Georgiev, P., Schnitzler, J.-P., Ghirardo, A., Kreuzer, I., Hedrich, R., and Rennenberg, H.

Published

2015

15. The Venus flytrap attracts insects by the release of volatile organic compounds

Author

Kreuzwieser, J., primary, Scheerer, U., additional, Kruse, J., additional, Burzlaff, T., additional, Honsel, A., additional, Alfarraj, S., additional, Georgiev, P., additional, Schnitzler, J.-P., additional, Ghirardo, A., additional, Kreuzer, I., additional, Hedrich, R., additional, and Rennenberg, H., additional

Published

2015

16. Dynamics of amino acid redistribution in the carnivorous Venus flytrap ( Dionaea muscipula) after digestion of 13C/15N-labelled prey.

Author

Kruse, J., Gao, P., Eibelmeier, M., Alfarraj, S., Rennenberg, H., and Hawkesford, M.

Subjects

AMINO acids, PLANT phylogeny, VENUS'S flytrap, NITROGEN content of plants, INSECTS, PREDATION

Abstract

Amino acids represent an important component in the diet of the Venus flytrap ( Dionaea muscipula), and supply plants with much needed nitrogen resources upon capture of insect prey. Little is known about the significance of prey-derived carbon backbones of amino acids for the success of Dionaea's carnivorous life-style., The present study aimed at characterizing the metabolic fate of 15N and 13C in amino acids acquired from double-labeled insect powder. We tracked changes in plant amino acid pools and their δ13C- and δ15N-signatures over a period of five weeks after feeding, as affected by contrasting feeding intensity and tissue type ( i.e., fed and non-fed traps and attached petioles of Dionaea)., Isotope signatures ( i.e., δ13C and δ15N) of plant amino acid pools were strongly correlated, explaining 60% of observed variation. Residual variation was related to contrasting effects of tissue type, feeding intensity and elapsed time since feeding. Synthesis of nitrogen-rich transport compounds ( i.e., amides) during peak time of prey digestion increased 15N- relative to 13C- abundances in amino acid pools. After completion of prey digestion, 13C in amino acid pools was progressively exchanged for newly fixed 12C. The latter process was most evident for non-fed traps and attached petioles of plants that had received ample insect powder., We argue that prey-derived amino acids contribute to respiratory energy gain and loss of 13CO2 during conversion into transport compounds ( i.e., 2 days after feeding), and that amino-nitrogen helps boost photosynthetic carbon gain later on ( i.e., 5 weeks after feeding). [ABSTRACT FROM AUTHOR]

Published

2017

17. The Global Soil Mycobiome consortium dataset for boosting fungal diversity research

Author

Eske De Crop, Annemieke Verbeken, Cathy Sharp, Jaan Pärn, Vladimir S. Mikryukov, Karin Pritsch, R. Henrik Nilsson, Jose G. Maciá-Vicente, Vladimir G. Onipchenko, César Marín, Kassim I. Tchan, Sten Anslan, Kadri Runnel, D. Q. Dai, Isabel C. Barrio, Miklós Bálint, Joosep Sarapuu, Jacob Heilmann-Clausen, Marcela Eugenia da Silva Cáceres, Juha M. Alatalo, S. V. Dudov, Vladimir E. Fedosov, John Y. Kupagme, Irma Zettur, Andrea Rinaldi, Alessandro Saitta, Jelena Ankuda, Urmas Kõljalg, Franz Buegger, Nourou S. Yorou, Alexandre Antonelli, Brendan R. Furneaux, Daniyal Gohar, Elisabeth M. Biersma, Francis Q. Brearley, Kevin K. Newsham, Dipon Sharmah, Louis J. Lamit, Camila Duarte Ritter, Sergei Põlme, Evgeny A. Davydov, Rebeca Casique-Valdés, Geoffrey Zahn, Leho Tedersoo, W. A. Erandi Yasanthika, Inga Hiiesalu, Young Woon Lim, Adriana Corrales, Casper Nyamukondiwa, Kristel Panksep, Genevieve Gates, Darta Klavina, Boris Tamgnoue, Roberto Godoy, Talaat Ahmed, Kessy Abarenkov, Abdul Nasir Khalid, Erin K. Cameron, Meike Piepenbring, Saleh A. Al-Farraj, Rein Drenkhan, Aída-M. Vasco-Palacios, Roberto Garibay-Orijel, Joseph Djeugap Fovo, Gregory Bonito, Peter Meidl, Kalev Adamson, Kęstutis Armolaitis, Kari A. Bråthen, Ahto Agan, Malka Saba, Peter E. Mortimer, Lateef A. Adebola, Felipe E. Albornoz, Jutamart Monkai, Niloufar Hagh-Doust, Indrek Hiiesalu, Mohammad Bahram, Tarquin Netherway, Bobby P. Sulistyo, Saleh Rahimlou, Sunil Mundra, Kevin D. Hyde, Kadri Põldmaa, Terry W. Henkel, Olavi Kurina, Tomas Roslin, Nalin N. Wijayawardene, Marieka Gryzenhout, Julieta Alvarez-Manjarrez, Rasmus Puusepp, József Geml, Eveli Otsing, Marijn Bauters, Maria Tuomi, Tedersoo L., Mikryukov V., Anslan S., Bahram M., Khalid A.N., Corrales A., Agan A., Vasco-Palacios A.-M., Saitta A., Antonelli A., Rinaldi A.C., Verbeken A., Sulistyo B.P., Tamgnoue B., Furneaux B., Ritter C.D., Nyamukondiwa C., Sharp C., Marin C., Dai D.Q., Gohar D., Sharmah D., Biersma E.M., Cameron E.K., De Crop E., Otsing E., Davydov E.A., Albornoz F.E., Brearley F.Q., Buegger F., Gates G., Zahn G., Bonito G., Hiiesalu I., Zettur I., Barrio I.C., Parn J., Heilmann-Clausen J., Ankuda J., Kupagme J.Y., Sarapuu J., Macia-Vicente J.G., Fovo J.D., Geml J., Alatalo J.M., Alvarez-Manjarrez J., Monkai J., Poldmaa K., Runnel K., Adamson K., Brathen K.A., Pritsch K., Tchan K.I., Armolaitis K., Hyde K.D., Newsham K.K., Panksep K., Adebola L.A., Lamit L.J., Saba M., da Silva Caceres M.E., Tuomi M., Gryzenhout M., Bauters M., Balint M., Wijayawardene N., Hagh-Doust N., Yorou N.S., Kurina O., Mortimer P.E., Meidl P., Nilsson R.H., Puusepp R., Casique-Valdes R., Drenkhan R., Garibay-Orijel R., Godoy R., Alfarraj S., Rahimlou S., Polme S., Dudov S.V., Mundra S., Ahmed T., Netherway T., Henkel T.W., Roslin T., Fedosov V.E., Onipchenko V.G., Yasanthika W.A.E., Lim Y.W., Piepenbring M., Klavina D., Koljalg U., and Abarenkov K.

Subjects

PacBio sequencing, Fungal richness, Biotic component, Ecology, Biogeography, Biodiversity, Global dataset, Plant Ecology and Nature Conservation, Edaphic, Soil fungi, Biology, Fungal richne, Phylogenetic diversity, Microbial ecology, Mycology, Settore BIO/03 - Botanica Ambientale E Applicata, Plantenecologie en Natuurbeheer, Biologie, Ecology, Evolution, Behavior and Systematics, Macroecology

Abstract

This version of the article has been accepted for publication, after peer review and is subject to Springer Nature’s AM terms of use, but is not the Version of Record and does not reflect post-acceptance improvements, or any corrections. The Version of Record is available online at https://doi.org/10.1007/s13225-021-00493-7. Fungi are highly important biotic components of terrestrial ecosystems, but we still have a very limited understanding about their diversity and distribution. This data article releases a global soil fungal dataset of the Global Soil Mycobiome consortium (GSMc) to boost further research in fungal diversity, biogeography and macroecology. The dataset comprises 722,682 fungal operational taxonomic units (OTUs) derived from PacBio sequencing of full-length ITS and 18S-V9 variable regions from 3200 plots in 108 countries on all continents. The plots are supplied with geographical and edaphic metadata. The OTUs are taxonomically and functionally assigned to guilds and other functional groups. The entire dataset has been corrected by excluding chimeras, index-switch artefacts and potential contamination. The dataset is more inclusive in terms of geographical breadth and phylogenetic diversity of fungi than previously published data. The GSMc dataset is available over the PlutoF repository.

Published

2021

18. How to Cope With Stress in the Desert-The Date Palm Approach.

Author

Du B, Franzisky BL, Muhammad W, Alfarraj S, Geilfus CM, and Rennenberg H

Abstract

Increasing desertification constitutes a global environmental problem, mainly driven by climate change and inappropriate land-use that limits agriculture, forestry and human colonization. The selection of suitable plant species to mitigate desertification is particularly challenging, as it usually requires simultaneous counteraction against a whole set of unfavourable environmental conditions, including heat, drought, high tropospheric ozone and salinity. It therefore seems useful to identify the survival strategies of plants native in desert environments. Date palm constitutes a plant species native in desert environments and cultivated worldwide in arid regions that have been studied intensively for stress defence during the last decade. The present review summarizes the current state of biochemical stress defence mechanisms including avoidance, osmotic and metabolic adjustments and reactive oxygen species scavenging, addresses whole-plant regulations and trade-off between stress compensation/defence and growth of date palms. The review advances our knowledge about how this typical desert species copes with both individual and multiple environmental stresses at the cellular to the whole-plant level, and identifies areas of future research required to fully understand the strategies of this plant species to survive in the desert, thereby contributing to efforts for the mitigation of climate change and desertification., (© 2024 The Author(s). Plant, Cell & Environment published by John Wiley & Sons Ltd.)

Published

2024

19. Association of water stress and Fusarium solani exacerbated Dalbergia sissoo dieback disease.

Author

Muhammad AJ, Bilal Zia M, Yasin G, Naseer J, Alharbi SA, Alfarraj S, Javed Ansari M, Du Z, and Ur Rahman S

Subjects

Plant Leaves microbiology, Dehydration, Chlorophyll metabolism, Seedlings microbiology, Water, Alternaria physiology, Alternaria pathogenicity, Fusarium pathogenicity, Fusarium physiology, Plant Diseases microbiology

Abstract

Globally, there is a growing concern about tree mortality due to harsh climates and changes in pest and disease patterns. However, experimental studies on the interactions between biotic and abiotic stresses in plants are relatively scarce. In this study, we investigated the interaction between Fusarium solani and water-stressed Dalbergia sissoo saplings. We postulated that under drought conditions, sissoo plants would become more susceptible to dieback infestation. Five fungi, including Fusarium oxysporum, Curvularia lunata, Cladophialophora carrionii, Alternaria alternaria, and Fusarium solani, were isolated from an old shisham tree showing advanced symptoms of dieback infestation. These fungi were identified based on their ITS sequence homology and spore characteristics. Dieback development was more pronounced in plants experiencing water stress, regardless of their predisposition or whether it occurred simultaneously. Lesions were more noticeable and longer in predisposed saplings (3.8cm), followed by simultaneous (2.4cm) and much smaller lesions in seedlings that were inoculated and well-watered (0.24cm). Progressive browning of the upper leaves, which lowers sapling height in predisposed, simultaneous, and well-watered inoculated saplings to 8.09 inches, 5.93 inches, and 17.42 inches, are typical dieback symptoms. Water stress causes the loss of chlorophyll a, b, and carotenoids, which reduces stomatal conductance, transpiration rate, and photosynthetic activity, leading to poor development and mortality. Similarly, predisposed, simultaneous, and well-watered inoculated seedlings expressed increased activity of CAT (22.57, 18.148, and 9.714 U/mg) and POD (3.0, 4.848, 1.246 U/mg), to reduce the damage caused by elevated levels of H2O2 expression. It is concluded that water stress is the main cause of dieback in shisham saplings that subsequently disposed of infected seedlings to secondary agents such as fungi and insects in the advanced stages of the dieback with prolonged drought stress. The lack of dieback in native populations is attributed to the absence of several ecological stresses, including water stress, extended droughts, waterlogging, and salinity. This study emphasizes the need for additional research into the effects of abiotic factors linked with fungal diseases on the long-term production and management of D. sissoo in Pakistan.

Published

2024

20. Environmentally relevant concentrations of nickel and imidacloprid induce reproductive toxicity in earthworm (Eisenia fetida fetida).

Author

Ladumor R, Pandya H, Thakkar M, Mehta D, Paithankar P, Alfarraj S, Ansari MJ, Pandya P, Yadav VK, Sahoo DK, and Patel A

Subjects

Animals, Male, Female, Insecticides toxicity, Lipid Peroxidation drug effects, Antioxidants metabolism, Biomarkers metabolism, Oxidative Stress drug effects, Oligochaeta drug effects, Neonicotinoids toxicity, Nickel toxicity, Nitro Compounds toxicity, Reproduction drug effects, Soil Pollutants toxicity

Abstract

The current research investigates individual and combined toxicity effects of nickel (Ni) and imidacloprid (IMI) on earthworm species Eisenia fetida fetida. Employing standardized toxicity parameters, we assessed the impact of environmentally relevant concentrations (ERC) of Ni, IMI, and their mixtures on key biomarkers and reproductive fitness of earthworms. Our findings reveal concentration-dependent responses with discernible adverse effects on physiological parameters. The ERC obtained for Ni was 0.095 ppm, and for imidacloprid was 0.01 ppm. Two concentrations (ERC and 1/5th) of both toxicants (individually and in combinations) were further given for 14 days, and parameters like avoidance behaviour, antioxidants, histology, and metabolomic profile were observed. The behaviour of earthworms was noted, where at 24-48 h, it was found to be in control soil, while later, at 72-96 h, they migrated to toxicants-treated soil. Levels of antioxidants (superoxide dismutase, catalase, reduced glutathione, ascorbic acid), lipid peroxidation, and lactate dehydrogenase were elevated in the testis, spermatheca, ovary, and prostate gland in a high concentration of Ni + IMI. Histological studies showed more vacuolization and disruption of epithelium that was increased in the prostate gland of the Ni + IMI high group, decreased number of spermatids, and damaged cell architecture was noted in testis and spermatheca of the Ni + IMI high group. The highest number of metabolites was found in Ni exposed group (181), followed by IMI (131) and Control (125). Thus, this study sheds light on the ecotoxicological effects of combinational exposure of these contaminants on an essential soil-dwelling organism, where IMI was more toxic than Ni, and both toxicants decreased earthworm reproductive fecundity., Competing Interests: Declaration of competing interest The authors declare that there are no competing interests associated with the manuscript., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

21. 3D-QSAR, Pharmacophore Modeling, ADMET, and DFT Studies of Halogenated Conjugated Dienones as Potent MAO-B Inhibitors.

Author

Mathew GE, Herrera-Acevedo C, Scotti MT, Kumar S, Berisha A, Kaya S, Alfarraj S, Ansari MJ, Dhyani A, Sudevan ST, Kumar M, and Mathew B

Abstract

Introduction: It has been reported that the extension of conjugation in chalcone scaffolds considerably enhanced the potency, selectivity, reversibility, and competitive mode of MAO-B inhibition. In this study, using the experimental results of IC50 values of fifteen halogenated conjugated dienone derivatives (MK1-MK15) against MAO-B, we developed a 3DQSAR model., Methods: Further, we created a 3D pharmacophore model in active compounds in the series. The built model selected three variables (G2U, RDF115m, RDF155m) among the 653 AlvaDesc molecular descriptors, with a r2 value of 0.87 and a Q2 cv for cross-validation equal to 0.82. The three variables were mostly associated with the direction of symmetry and the likelihood of discovering massive atoms at great distances. The evaluated molecules exhibited a good correlation between experimental and predicted data, indicating that the IC50 value of the structure MK2 was related to the interatomic distances of 15.5 Å between bromine and chloro substituents. Furthermore, the molecules in the series with the highest activity were those with enhanced second component symmetry directional index from the 3D representation, which included the structures MK5 and MK6., Result: Additionally, a pharmacophore hypothesis was developed and validated using the decoy Schrodinger dataset, with an ROC score of 0.87 and an HHRR 1 fitness score that ranged from 2.783 to 3.00. The MK series exhibited a significant blood-brain barrier (BBB) permeability, according to exploratory analyses and in silico projections, and almost all analogues were expected to have strong BBB permeability., Conclusion: Further DFT research revealed that electrostatics were important in the interactions with MAO-B., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

22. FUS3: Orchestrating soybean plant development and boosting stress tolerance through metabolic pathway regulation.

Author

Manan S, Li P, Alfarraj S, Ansari MJ, Bilal M, Ullah MW, and Zhao J

Subjects

Transcription Factors metabolism, Transcription Factors genetics, Plants, Genetically Modified metabolism, Lipid Metabolism genetics, Arabidopsis genetics, Arabidopsis metabolism, Plant Proteins metabolism, Plant Proteins genetics, Arabidopsis Proteins metabolism, Arabidopsis Proteins genetics, Metabolic Networks and Pathways, Glycine max metabolism, Glycine max genetics, Glycine max growth & development, Gene Expression Regulation, Plant, Stress, Physiological

Abstract

Soybean research has gained immense attention due to its extensive use in food, feedstock, and various industrial applications, such as the production of lubricants and engine oils. In oil crops, the process of seed development and storage substances accumulation is intricate and regulated by multiple transcription factors (TFs). In this study, FUSCA3 (GmFUS3) was characterized for its roles in plant development, lipid metabolism, and stress regulation. Expressing GmFUS3 in atfus3 plants restored normal characteristics observed in wild-type plants, including cotyledon morphology, seed shape, leaf structure, and flower development. Additionally, its expression led to a significant increase of 25% triacylglycerols (TAG) and 33% in protein levels. Transcriptomic analysis further supported the involvement of GmFUS3 in various phases of plant development, lipid biosynthesis, lipid trafficking, and flavonoid biosynthesis. To assess the impact of stress on GmFUS3 expression, soybean plants were subjected to different stress conditions, and the its expression was assessed. Transcriptomic data revealed significant alterations in the expression levels of approximately 80 genes linked to reactive oxygen species (ROS) signaling and 40 genes associated with both abiotic and biotic stresses. Additionally, GmFUS3 was found to regulate abscisic acid synthesis and interact with nucleoside diphosphate kinase 1, which is responsible for plant cellular processes, development, and stress response. Overall, this research sheds light on the multifaceted functions of GmFUS3 and its potential applications in enhancing crop productivity and stress tolerance., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Masson SAS. All rights reserved.)

Published

2024

23. Strategies of plants to overcome abiotic and biotic stresses.

Author

Du B, Haensch R, Alfarraj S, and Rennenberg H

Subjects

Stress, Physiological physiology, Plants metabolism, Plant Physiological Phenomena

Abstract

In their environment, plants are exposed to a multitude of abiotic and biotic stresses that differ in intensity, duration and severity. As sessile organisms, they cannot escape these stresses, but instead have developed strategies to overcome them or to compensate for the consequences of stress exposure. Defence can take place at different levels and the mechanisms involved are thought to differ in efficiency across these levels. To minimise metabolic constraints and to reduce the costs of stress defence, plants prioritise first-line defence strategies in the apoplastic space, involving ascorbate, defensins and small peptides, as well as secondary metabolites, before cellular processes are affected. In addition, a large number of different symplastic mechanisms also provide efficient stress defence, including chemical antioxidants, antioxidative enzymes, secondary metabolites, defensins and other peptides as well as proteins. At both the symplastic and the apoplastic level of stress defence and compensation, a number of specialised transporters are thought to be involved in exchange across membranes that still have not been identified, and information on the regeneration of different defence compounds remains ambiguous. In addition, strategies to overcome and compensate for stress exposure operate not only at the cellular, but also at the organ and whole-plant levels, including stomatal regulation, and hypersensitive and systemic responses to prevent or reduce the spread of stress impacts within the plant. Defence can also take place at the ecosystem level by root exudation of signalling molecules and the emission of volatile organic compounds, either directly or indirectly into the rhizosphere and/or the aboveground atmosphere. The mechanisms by which plants control the production of these compounds and that mediate perception of stressful conditions are still not fully understood. Here we summarise plant defence strategies from the cellular to ecosystem level, discuss their advantages and disadvantages for plant growth and development, elucidate the current state of research on the transport and regeneration capacity of defence metabolites, and outline insufficiently explored questions for further investigation., (© 2024 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.)

Published

2024

24. An investigation on antimicrobial and anticancer competence of macro red algae under in-vitro condition.

Author

Hoang TV, Alfarraj S, and Ali Alharbi S

Subjects

Humans, HeLa Cells, MCF-7 Cells, Microbial Sensitivity Tests, Fungi drug effects, Bacteria drug effects, Rhodophyta chemistry, Anti-Infective Agents pharmacology, Antineoplastic Agents pharmacology

Abstract

The purpose of this study was to look into the proximate parameters (moisture, ash, total fat, protein, and total carbohydrate), mineral composition (Fe, Cu, Mg, and Zn), antimicrobial as well as cytotoxic (anticancer) properties of extracts from the marine red macro algae Gracilaria corticata, Chondrus ocellatus, and Posphyra perforata against a few prevalent microbial pathogens (Salmonella typhi, Streptococcus pneumoniae, Corynebacterium diphtheriae, Clostridium tetani, and Treponema pallidum as well as fungal pathogens such as Candida albicans, Aspergillus niger, and Cryptococcus neoformans) and two cancerous cell lines (HeLa and MCF7). The dry biomass of these red algae biomass contains considerable valuable proximate parameters and minerals. The diffusion technique on agar wells was used to evaluate the antimicrobial properties of these test red algae methanol and hexane extract; MTT assay was used to evaluate the cytotoxic effects of the methanol and hexane extracts on each cancer cell line. The methanol extracts demonstrated significant antimicrobial activity against most of the tested pathogenic organisms. Mortality of cells was effectively caused by methanol extract and it followed by hexane extract at increased dosage 10 mg mL -1 . The MTT assay revealed that the methanol extract of the red algae was considerably cytotoxic to HeLa and MCF7 cells, accompanied by the hexane extract in a dose-dependent manner. These findings suggest that the methanol extract of these red algae may contain bioactive compounds with antimicrobial and anticancer properties, which could be studied for future use in the discovery of new drugs from marine ecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

25. Conversion of metal-enriched magnetite mine tailings into suitable soil for vegetation by phytoremediation process with Bougainvillaea glabra under the influence of Thiobacillus ferroxidance.

Author

Muthusamy R, Ramya S, Alfarraj S, and Kumarasamy S

Subjects

Ferrosoferric Oxide chemistry, Soil chemistry, Metals, Heavy analysis, Metals, Heavy metabolism, Bacillaceae metabolism, Biodegradation, Environmental, Soil Pollutants analysis, Soil Pollutants metabolism, Mining

Abstract

Magnetite mining is a significant contributor to land deterioration as well as HM-based soil contamination. The characteristics of magnetite mine tailing were examined in the present study, in addition to the positive and sustainable restoration strategy with Bougainvillaea glabra under the influence of Thiobacillus ferroxidance. The traits of test soil analysis findings demonstrated that the majority of the parameters exceeded the allowable limits (For instance: HMs such as Cr, Cu, Zn, Pb, Fe, and Co were found to be 208 ± 2.3, 131.43 ± 1.6, 185.41 ± 3.3, 312 ± 5.11, 956 ± 5.3, and 26.89 ± 2.43 mg kg -1 respectively). T. ferroxidance exhibited impressive HMs tolerance for as much as 800 g mL -1 concentrations of Cr, Cu, Zn, Pb, Fe, and Co. To prevent HMs toxic effects, the HMs contents in test soil were decreased by diluting with normal soil in the ratios of Ex-3 and Ex-2. A typical greenhouse study was carried out to assess the phytoremediation ability of B. glabra across six setups for experiments (Ex-1 to Ex-6). According to the findings of this research, the HMs tolerant T. ferroxidance from Ex-3 and Ex-2 had an outstanding impact on the growth, biomolecules level (such as chlorophylls: 65.84 & 41.1 mg g -1 , proteins: 165.1 & 151.1 mg g -1 , as well as carbohydrates: 227.4 & 159.3 mg g -1 ) as well as phytoremediation potential of B. glabra on magnetite mine soil. These findings indicated that a mixture of B. glabra as well as T. ferroxidance might serve as a valuable sustainable agent for removing HMs from contaminated soil., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

26. An assessment of metal absorption competence of indigenous metal tolerant bacterial species- an in-vitro study.

Author

Anusha P, Natarajan D, Rengarajan S, Alfarraj S, and Kandasamy S

Subjects

Biodegradation, Environmental, Soil Pollutants metabolism, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa metabolism, Metals, Heavy

Abstract

Heavy metals pose a serious global threat to the environment. Hence, removing hazardous metals from soil samples has become complicated over the past few years. The current work looked into the remediation of heavy metals from aqueous solutions using a bacterial community and a unique bacterium obtained from metal-contaminated soil. In this investigation, the isolates of Bacillus anthracis A1-7, Bacillus. thuringiensis A1-3, Bacillus. cereus A1-5, and Pseudomonas aeruginosa A-33 actively demonstrated metal tolerances to various tested metals. Furthermore, an in-vitro biosorption study was performed under ideal concentration. The bacterial consortia achieved the highest biosorption effectiveness for Cu & Zn, 92.7% and 90.3%, respectively. When compared with a single bacterium, the group exhibited inferior Pb biosorption (86%). Since then, P. aeruginosa A33 has had the highest Pb biosorption. Finally, a bacterial consortium has devised an intriguing strategy for eliminating Cu and Pb from the polluted medium. P. aeruginosa A33 was found to be a mighty microbe that extracts Zn from polluted water. This metal-tolerant bacterium also exhibited specific proportions of selective commercially available antibiotics, which were analyzed using the Multiple Antibiotic Resistance (MAR) Index. In conclusion, these findings indicated that bacterial consortia composed of four bacterial isolates can remove metals from a metal-polluted medium., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

27. Exploring pectin from ripe and unripe Banana Peel: A novel functional fat replacers in muffins.

Author

Ahsan M, Ashraf H, Iahtisham-Ul-Haq, Liaquat A, Nayik GA, Ramniwas S, Alfarraj S, Ansari MJ, and Gere A

Abstract

The study addresses global fruit waste concerns in the food industry by extracting pectin from both ripe and unripe banana peels at varying pH levels and time intervals using hydrochloric acid. The best results were observed for unripe banana peel pectin at pH 1.5 and 250 min exhibiting a yield of 16.46% and favorable characteristics. In muffin development, seven treatments (M 0 , M 1 , M 2 , M 3 , M 4, M 5 and M 6 ) are prepared and analyzed for morphology, nutritional content, and sensory parameters. The M4 treatment, utilizing pectin from unripe banana peel at pH 1.5 and 250 min, displays superior qualities with reduced peroxide value, free fatty acids, percent moisture loss, and hardness. Sensory evaluations indicate high acceptability due to lower fat content. In conclusion, the extraction of pectin from unripe banana peels proves promising as a fat replacer in bakery items, maintaining muffin quality while addressing fruit waste challenges in the food industry., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors. Published by Elsevier Ltd.)

Published

2024

28. Orthodontics and Endodontics Clinical Practice Correlation: A Narrative Review.

Author

AlMogbel AA, Alasmary S, Alfarraj S, Alenazi R, and Albuti R

Abstract

Research on the connection between endodontic therapy and orthodontics is lacking. This overview of the literature synthesizes the findings from the fields of orthodontics and endodontics and explains how they are related. Beginning with the diagnosis, treating the patient at the appropriate time, moving endodontically treated teeth and traumatized teeth, resorbing roots by orthodontic mechanics, and managing traumatized teeth with orthodontic therapy. Multiple electronic databases were utilized including (PubMed, Scopus, Science Direct, and Web of Science) to perform manual literature searches. A total of 31 articles were reviewed and summarized in this paper in keywords like "Endodontically Treated Teeth and Orthodontic Treatment," "Endodontically Treated Tooth and Orthodontic Movement," "Orthodontic Treatment in RCT Teeth," "Root Canal Treatment with Orthodontic Movement," "Trauma with Orthodontic Movement," "Orthodontic and Endodontic." Orthodontic treatment of endodontically treated and traumatized teeth is a subject of controversy. The lack of research on the topic makes it a hard decision to make when to treat these teeth. Especially given that both orthodontic and endodontic treatments have multiple consequences on each other's outcomes. Thus, it is crucial for clinicians to understand how they integrate and have a guideline to refer to during decision-making. Successful orthodontic tooth movement could be carried out immediately after endodontic treatment. However, traumatized teeth need a follow-up period before initiating orthodontic movement, which ranges from three months to 12 months depending on the type of trauma and severity. Careful radiographic and clinical follow-up should be done during the healing period. Collaborative teamwork is important between orthodontists and endodontists for the success of treatment, and to achieve satisfactory outcomes., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, AlMogbel et al.)

Published

2024

29. A randomized controlled trial of sweet basil leaf powder-enriched cookies for anemia management in adolescent girls.

Author

Akbar FN, Mahmood S, Mueen-Ud-Din G, Khalid W, Khalid MZ, Aziz Z, Alfarraj S, Ansari MJ, and Madilo FK

Abstract

The study aimed to evaluate the effectiveness of sweet basil leaf powder as a natural source of iron for the treatment of anemia in adolescent girls. Purposive sampling technique of two-stage sampling; part of the nonprobability sampling approach. Out of 2400 approached adolescent girls, 1645 agreed to participate and their nutritional status was assessed. Of these, 89.95% had clinical signs and symptoms of anemia, and 59.79% were found to be anemic based on Hb levels. From the anemic group, 65.18% were randomly selected to receive either B 0 (Control), B1 (12.699 g FeSO 4 .7H 2 O/100 g), and B3 (16 g SBLP/100 g) cookies for 4 months. At the end of the intervention, the assessment of nutritional status, complete blood count, serum iron, serum ferritin, serum total iron-binding capacity (TIBC), and transferrin saturation was explored. Hematological parameters such as Hb, Hct, TIBC, MCV, MCH, MCHC, serum iron, and serum ferritin were significant ( p  ≤ .05). The result showed that the serum Fe was highest in group B 3 while a significant decline was noted for group B 0 . Serum ferritin for B 1 was better than B 3 . The entire treatment for transferrin saturation showed a highly significant increasing trend in B 3 and B 1 , regardless of the control. TIBC levels raised in the control group while in all other treatments, it declined. The study demonstrated that SBLP-fortified cookies can be an effective treatment option for anemia, as evidenced by significant improvements in key hematological parameters., Competing Interests: No potential conflict of interest declared by the author(s)., (© 2024 The Authors. Food Science & Nutrition published by Wiley Periodicals LLC.)

Published

2024

30. Integrative multi-omics analyses of date palm (Phoenix dactylifera) roots and leaves reveal how the halophyte land plant copes with sea water.

Author

Mueller HM, Franzisky BL, Messerer M, Du B, Lux T, White PJ, Carpentier SC, Winkler JB, Schnitzler JP, El-Serehy HA, Al-Rasheid KAS, Al-Harbi N, Alfarraj S, Kudla J, Kangasjärvi J, Reichelt M, Mithöfer A, Mayer KFX, Rennenberg H, Ache P, Hedrich R, and Geilfus CM

Subjects

Salt-Tolerant Plants genetics, Multiomics, Proteomics, Seawater, Phoeniceae genetics

Abstract

Date palm (Phoenix dactylifera L.) is able to grow and complete its life cycle while being rooted in highly saline soils. Which of the many well-known salt-tolerance strategies are combined to fine-tune this remarkable resilience is unknown. The precise location, whether in the shoot or the root, where these strategies are employed remains uncertain, leaving us unaware of how the various known salt-tolerance mechanisms are integrated to fine-tune this remarkable resilience. To address this shortcoming, we exposed date palm to a salt stress dose equivalent to seawater for up to 4 weeks and applied integrative multi-omics analyses followed by targeted metabolomics, hormone, and ion analyses. Integration of proteomic into transcriptomic data allowed a view beyond simple correlation, revealing a remarkably high degree of convergence between gene expression and protein abundance. This sheds a clear light on the acclimatization mechanisms employed, which depend on reprogramming of protein biosynthesis. For growth in highly saline habitats, date palm effectively combines various salt-tolerance mechanisms found in both halophytes and glycophytes: "avoidance" by efficient sodium and chloride exclusion at the roots, and "acclimation" by osmotic adjustment, reactive oxygen species scavenging in leaves, and remodeling of the ribosome-associated proteome in salt-exposed root cells. Combined efficiently as in P. dactylifera L., these sets of mechanisms seem to explain the palm's excellent salt stress tolerance., (© 2023 The Authors. The Plant Genome published by Wiley Periodicals LLC on behalf of Crop Science Society of America.)

Published

2024

31. An assessment of ozone risk for date palm suggests that phytotoxic ozone dose nonlinearly affects carbon gain.

Author

Hoshika Y, Moura BB, Cotrozzi L, Nali C, Alfarraj S, Rennenberg H, and Paoletti E

Subjects

Carbon Dioxide toxicity, Plant Leaves chemistry, Photosynthesis, Ozone analysis, Phoeniceae, Air Pollutants toxicity, Air Pollutants analysis

Abstract

Tropospheric ozone (O 3 ) is a significant phytotoxic air pollutant that has a negative impact on plant carbon gain. Although date palm (Phoenix dactylifera L.) is a globally important crop in arid or semi-arid regions, so far O 3 risk assessment for this species has not been reported. This study estimated leaf- and plant-level photosynthetic CO 2 uptake for understanding how elevated levels of O 3 affects date palm biomass growth. Ozone risks to date palm plants were assessed based on exposure- (AOT40) or flux-based indices (Phytotoxic Ozone Dose, POD y , where y is a threshold of uptake). For this purpose, plants were exposed to three levels of O 3 [ambient air, AA (45 ppb as daily average); 1.5 × AA; 2.0 × AA] for 92 days in an O 3 Free-Air Controlled Exposure facility. According to the model simulations, the negative effects of O 3 on plant-level net photosynthetic CO 2 uptake were attributed to reduced gross photosynthetic carbon gain and increased respiratory carbon loss. Season-long O 3 exposure and elevated temperatures promoted the negative O 3 effect because of a further increase of respiratory carbon loss, which was caused by increased leaf temperature due to stomatal closure. POD 1 nonlinearly affected the photosynthetic CO 2 uptake, which was closely related to the variation of dry mass increment during the experiment. Although the dose-response relationship suggested that a low O 3 dose (POD 1  < 5.2 mmol m -2 ) may even positively affect photosynthetic CO 2 uptake in date palms, stomatal O 3 uptake at the current ambient O 3 levels has potentially a negative impact on date palm growth. The results indicate 5.8 mmol m -2 POD 1 or 21.1 ppm h AOT40 as critical levels corresponding to a 4% reduction of net CO 2 uptake for date palm, suggesting that this species can be identified as a species moderately sensitive to O 3 ., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

32. Organic gelatin-coated ZnNPs for the production of biodegradable biopolymer films.

Author

Wu Y, Xia C, Zhang L, Thanh NC, Al Obaid S, Alfarraj S, and Jhanani GK

Subjects

Animals, Tensile Strength, Biopolymers, Food, Food Packaging methods, Gelatin chemistry, Product Packaging

Abstract

Petroleum-based polymers have raised significant environmental concerns. It is critical to create compostable, good biocompatibility, and nontoxic polymers to replace petroleum-based polymers. Thus, this research was performed to extract the gelatin from fish waste cartilage and coated it over the surface of spherical shaped pre-synthesized ZnNPs along with a suitable plasticizer to produce the biodegradable film. The presence of gelatin on the surface of ZnNPs was first confirmed using UV-visible spectrophotometers, as well as the characteristic functional groups involved in the coating were investigated using Fourier-Transform Infrared Spectroscopy (FTIR). The morphological appearance of gelatin coated ZnNPs was ranged from 41.43 to 52.31 nm, the shape was found as platonic to pentagonal shape, and the fabricated film was observed through Scanning Electron Microscope (SEM). The thickness, density, and tensile strength of fabricated film were found to be 0.04-0.10 mm, 0.10-0.27 g/cm 3 , and 31.7 kPa. These results imply that the fish waste cartilage gelatin coated ZnNPs-based nanocomposite can be used for film preparation as well as a wrapper for food and pharmaceutical packaging., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

33. Eichhornia crassipes biochar aided pollutants sorption competence of multi-metal tolerant fungi species on South Pennar river.

Author

Narayanan M, Ma Y, Al Obaid S, Alfarraj S, Duc PA, and Karuppusamy I

Subjects

Rivers, Metals analysis, Biodegradation, Environmental, Environmental Pollutants analysis, Eichhornia, Water Pollutants, Chemical analysis

Abstract

The number of studies about the use of efficient techniques to treat contaminated water bodies has increased in recent years. The use of bioremediation method for the reduction of contaminants from aqueous system is receiving a lot of attention. Thus, this study was designed to assess the Eichhornia crassipes biochar amended pollutants sorption competence of multi-metal tolerant Aspergillus flavus on South Pennar River. The physicochemical characteristics declared that the, half of the parameters (turbidity, TDS, BOD, COD, Ca, Mg, Fe, free NH 3, Cl - , and F - ) of South Pennar River were beyond the permissible limits. Furthermore, the lab-scale bioremediation investigation with different treatment groups (group I, II, and III) revealed that the group III (E. crassipes biochar and A. flavus mycelial biomass) showed considerable remediation efficiency on South Pennar River water in 10 days of treatment. The metals adsorbed on the surface of E. crassipes biochar and A. flavus mycelial biomass was also affirmed by SEM analysis. Hence such findings, E. crassipes biochar amended A. flavus mycelial biomass could be a sustainable method of remediating contaminated South Pennar River water., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

34. Mixed pollutants adsorption potential of Eichhornia crassipes biochar on Manihot esculenta processing industry effluents.

Author

Wu Y, Lu H, Thanh NC, Al Obaid S, Alfarraj S, Jhanani GK, and Xia C

Subjects

Humans, Adsorption, Eichhornia chemistry, Manihot, Environmental Pollutants, Water Pollutants, Chemical analysis

Abstract

The starch is one of the most essential food stuff and serves as a raw material for number of food products for the welfare of human. During the production process enormous volume of effluents are being released into the environment. In this regard, this study was performed to evaluate the physicochemical traits of Manihot esculenta processing effluent and possible sustainable approach to treat this issue using Eichhornia crassipes based biochar. The standard physicochemical properties analysis revealed that the most the parameters (EC was recorded as 4143.17 ± 67.12 mhom -1 , TDS: 5825.62 ± 72.14 mg L -1 , TS: 7489.21 ± 165.24 mg L -1 , DO: 2.12 ± 0.21 mg L -1 , BOD 2673.74 ± 153.53 mg L -1 , COD: 6672.66 ± 131.21 mg L -1 , and so on) were beyond the permissible limits and which can facilitate eutrophication. Notably, the DO level was considerably poor and thus can support the eutrophication. The trouble causing E. crassipes biomass was used as raw material for biochar preparation through pyrolysis process. The temperature ranging from 250 to 350 °C with residence time of 20-60 min were found as suitable temperature to provide high yield (56-33%). Furthermore, 10 g L -1 concentration of biochar showed maximum pollutant adsorption than other concentrations (5 g L -1 and 15 g L -1 ) from 1 L of effluent. The suitable temperature required to remediate the pollutants from the effluent by biochar was found as 45 °C and 35 °C at 10 g L -1 concentration. These results conclude that at such optimized condition, the E. crassipes effectively adsorbed most of the pollutants from the M. esculenta processing effluent. Furthermore, such pollutants adsorption pattern on biochar was confirmed by SEM analysis., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

35. Utilization of agricultural, industrial waste and nanosilica as replacement for cementitious material and natural aggregates - Mechanical, microstructural and durability characteristics assessment.

Author

Chennakesava Rao MS, S P, Rath B, Alharbi SA, Alfarraj S, T R P, and Gavurová B

Subjects

Sand, Agriculture, Dust, Water, Industrial Waste, Oryza

Abstract

This study examines the effect of rice husk ash (RHA) and nanosilica, and ground granular blast furnace slag (GGBS) on concrete mechanical and durability properties. The cement had been partially replaced with nanosilica and RHA having substitution percentages up to 6% and 10% respectively whereas the sand had been partially replaced by GGBS at 20% for all mixes. A water-to-cementitious materials ratio of 0.38 and a sand-to-cementitious materials ratio of 2.04 were used to cast eight different concrete mixes. The nanosilica used in the present research possessed some favorable effects such as rich fineness, higher surface area and greater reactivity which signified one of the best cement replacement materials. Both the durability and strength of concrete specimens possessing nanosilica, RHA and GGBS was evaluated using in-elastic neutron scattering, SEM image, piezoresistive test, split tensile strength, flexural strength and compressive strength test. Concrete specimens were also subjected to chloride penetration and water absorption to examine the impact of replacement materials on the concrete's durability attributes. Concrete performance was increased by the ternary blending of concrete because of the active participation of nanosilica in durability and strength at early ages, both RHA and GGBS played an important role in improving packing density. It was found that as the percentage of cement replaced with nanosilica increases, the durability of concrete also significantly increases. But the optimum strength parameter was found when 4% of cement was replaced by the nanosilica effectively. The proposed ternary mix may be eco-friendly by saving cement and enhancing strength and durability effectively., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

36. Synergism and toxicity of iron nanoparticles derived from Trigonella foenum-graecum against pyrethriod treatment in S. litura and H. armigera (Lepidoptera: Noctuidae).

Author

Muthusamy R, Ramkumar G, Kumarasamy S, Chi NTL, Al Obaid S, Alfarraj S, and Karuppusamy I

Subjects

Animals, Spodoptera, Larva, Trigonella, Moths, Insecticides, Nanoparticles

Abstract

The tobacco cutworm, Spodoptera litura and cotton bollworm, Helicoverpa armigera (Lepidoptera: Noctuidae) are important pests of various agricultural crops that cause sevier economic loses throughout the world. Indiscriminate and frequent use of insecticide may lead to development of resistance in these pests. Nanotechnology has given an alternative to manage and overcome insecticide resistance for pest management strategies. In the present study the iron nanoparticles derived from Trigonella foenum-graecum leaf extract (FeNPs) was investigated for its ecofriendly management of pyrethroid resistance in two lepidopteron pest species at 24 h, 48 h and 72 h post treatment. The result showed high mortality (92.83% and 91.41%) of S. litura and H. armigera at 72 h treatment upon FeNPs and fenvalerate (Fen + FeNPs) teratment. Probit analysis revealed high LC 50 upon Fen + FeNPs treatment (130.31 and 89.32 mg/L) with a synergism ratio of 1.38 and 1.36. Antifeedant activity of six dofferent concentration of FeNPs revelaed increased antifeedant activity with respect to increasing concentration of nanoparticles ranging from 10 to 90% and 20-95% againt both insects (p<0.05). Detoxification activity of carboxylesterase was elevated at 630 μmol/mg protein/min (p<0.05) in fenvalerate treatment, whereas decreased activity was found (392umole/mg protein/min) in FeNPs and Fen + FeNPs treatment (P<0.001). GST and P450 activity was also increased in fenvalerate treatment, whereas decreased activity was observed in FeNPs and Fen + FeNPs. Esterase isoenzyme banding pattern revealed four bands in fenvalerate treatment and two bans (E3 and E4) in Fen + FeNPs combination. Hence the present study concludes that T. foenum-graecum synthesized iron nanoparticles could be an effective alternate for ecofriendly management of S. litura and H. armigera., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

37. Simultaneous quantification of losartan potassium and its active metabolite, EXP3174, in rabbit plasma by validated HPLC-PDA.

Author

Wani TU, Mir KB, Raina A, Dar AA, Jan I, Khan NA, Wani TA, Sofi JA, Hassan GI, Almoallim HS, Alharbi SA, Ansari MJ, Alfarraj S, Tarique M, and Dar SA

Subjects

Animals, Rabbits, Chromatography, High Pressure Liquid methods, Valsartan, Quality Control, Reproducibility of Results, Losartan analysis

Abstract

Herein, we report a novel, accurate and cost-effective validated analytical method for the quantification of losartan potassium and its active metabolite, EXP 3174, in rabbit plasma by reversed-phase high-performance liquid chromatography. Valsartan was used as an internal standard. The method was validated as per International Conference on Harmonization guidelines. The analytes were extracted in rabbit plasma using liquid-liquid extraction technique and analyzed at 247 nm after separation through a reverse-phase C 18 column. The isocratic mobile phase used is a mixture of acetonitrile, water and glacial acetic acid in the ratio of 60:40:1 v/v/v maintained at pH 3.4. All calibration curves showed a good linear relationship (r > 0.995) within the test range. Precision was evaluated by intra- and interday tests with RSDs <1.91% and accuracy showed validated recoveries of 86.20-101.11%. Based on our results, the developed method features good quantification parameters and can serve as an effective quality control method for the standardization of drugs., (© 2023 John Wiley & Sons Ltd.)

Published

2023

38. Differences of nitrogen metabolism in date palm (Phoenix dactylifera) seedlings subjected to water deprivation and salt exposure.

Author

Du B, Winkler JB, Ache P, White PJ, Dannenmann M, Alfarraj S, Albasher G, Schnitzler JP, Hedrich R, and Rennenberg H

Subjects

Seedlings physiology, Water Deprivation, Sodium Chloride metabolism, Sodium Chloride pharmacology, Amino Acids metabolism, Water metabolism, Nitrogen metabolism, Plant Leaves metabolism, Plant Roots metabolism, Phoeniceae metabolism

Abstract

Drought and salt exposure are among the most prevalent and severe abiotic stressors causing serious agricultural yield losses, alone and in combination. Little is known about differences and similarities in the effects of these two stress factors on plant metabolic regulation, particularly on nitrogen metabolism. Here, we studied the effects of water deprivation and salt exposure on water relations and nitrogen metabolites in leaves and roots of date palm seedlings. Both, water deprivation and salt exposure had no significant effects on plant water content or stable carbon (C) and nitrogen (N) isotope signatures. Significant effects of water deprivation on total C and N concentrations were only observed in roots, i.e., decreased total C and increased total N concentrations. Whereas salt exposure initially decreased total C and increased total N concentrations significantly in roots, foliar total C concentration was increased upon prolonged exposure. Initially C/N ratios declined in roots of plants from both treatments and upon prolonged salt exposure also in the leaves. Neither treatment affected soluble protein and structural N concentrations in leaves or roots, but resulted in the accumulation of most amino acids, except for glutamate and tryptophan, which remained stable, and serine, which decreased, in roots. Accumulation of the most abundant amino acids, lysine and proline, was observed in roots under both treatments, but in leaves only upon salt exposure. This finding indicates a similar role of these amino acids as compatible solutes in the roots in response to salt und drought, but not in the leaves. Upon prolonged treatment, amino acid concentrations returned to levels found in unstressed plants in leaves of water deprived, but not salt exposed, plants. The present results show both water deprivation and salt exposure strongly impact N metabolism of date palm seedlings, but in a different manner in leaves and roots., (© The Author(s) 2022. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permission@oup.com.)

Published

2023

39. Pan-genome analysis and molecular docking unveil the biocontrol potential of Bacillus velezensis VB7 against Phytophthora infestans.

Author

Kadiri M, Sevugapperumal N, Nallusamy S, Ragunathan J, Ganesan MV, Alfarraj S, Ansari MJ, Sayyed RZ, Lim HR, and Show PL

Subjects

Molecular Docking Simulation, Base Sequence, Plant Diseases prevention & control, Phytophthora infestans, Solanum tuberosum

Abstract

Management of late blight of potato incited by Phytophthora infestans remains a major challenge. Coevolution of pathogen with resistant strains and the rise of fungicide resistance have made it more challenging to prevent the spread of P. infestans. Here, the anti-oomycete potential of Bacillus velezensis VB7 against P. infestans through pan-genome analysis and molecular docking were explored. The Biocontrol potential of VB7 against P. infestans was assessed using a confrontational assay. The biomolecules from the inhibition zone were identified and subjected to in silico analysis against P. infestans target proteins. Nucleotide sequences for 54 B. velezensis strains from different geographical locations were used for pan-genome analysis. The confrontational assay revealed the anti-oomycetes potential of VB7 against P. infestans. Molecular docking confirmed that the penicillamine disulfide had the maximum binding energy with eight effector proteins of P. infestans. Besides, scanning electron microscopic observations of P. infestans interaction with VB7 revealed structural changes in hypha and sporangia. Pan-genome analysis between 54 strains of B. velezensis confirmed that the core genome had 2226 genes, and it has an open pan-genome. The present study confirmed the anti-oomycete potential of B. velezensis VB7 against P. infestans and paved the way to explore the genetic potential of VB7., Competing Interests: Conflict of interest The authors declare no conflict of interest in performing this study or analysing its results., (Copyright © 2023 Elsevier GmbH. All rights reserved.)

Published

2023

40. Chronic ozone exposure impairs the mineral nutrition of date palm (Phoenix dactylifera) seedlings.

Author

Arab L, Hoshika Y, Paoletti E, White PJ, Dannenmann M, Mueller H, Ache P, Hedrich R, Alfarraj S, Albasher G, and Rennenberg H

Subjects

Seedlings metabolism, Minerals, Photosynthesis, Calcium metabolism, Plant Leaves physiology, Phoeniceae, Ozone metabolism

Abstract

Chronic ozone (O 3 ) exposure in the atmosphere preferentially disturbs metabolic processes in the roots rather than the shoot as a consequence of reduced photosynthesis and carbohydrate allocation from the leaves to the roots. The aim of the present study was to elucidate if mineral nutrition is also impaired by chronic O 3 exposure. For this purpose, date palm (Phoenix dactylifera) plants were fumigated with ambient, 1.5 × ambient and 2 × ambient O 3 in a free air controlled exposure (FACE) system for one growing season and concentrations of major nutrients were analyzed in leaves and roots. In addition, concentrations of C and N and their partitioning between different metabolic C and N pools were determined in both organs. The results showed that calcium (Ca), magnesium (Mg), iron (Fe), zinc (Zn), sodium (Na) and potassium (K) acquisition by roots was diminished by O 3 exposure of the shoot. For Ca, Mg, Fe and Zn reduced uptake by the roots was combined with reduced allocation to the shoot, resulting in a decline of foliar concentrations; for Na and K, allocation to the shoot was maintained at the expense of the roots. Thus, elevated O 3 impaired both mineral uptake by the roots and partitioning of minerals between roots and shoots, but in an element specific way. Thereby, elevated O 3 affected roots and shoots differently already after one growing season. However, considerable changes in total C and N concentrations and their partitioning between different metabolic pools upon chronic O 3 exposure were not observed in either leaves or roots, except for reduced foliar lignin concentrations at 2 × ambient O 3 . Significant differences in these parameters were shown between leaves and roots independent of O 3 application. The physiological consequences of the effects of chronic O 3 exposure on mineral acquisition and partitioning between leaves and roots are discussed., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2023

41. Comparison of pennywort and hyacinth in the development of membraned sediment plant microbial fuel cell for waste treatment.

Author

Wareen G, Saeed M, Ilyas N, Asif S, Umair M, Sayyed RZ, Alfarraj S, A Alrasheed W, and Awan TH

Subjects

Wastewater, Biodegradation, Environmental, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S metabolism, Organic Chemicals metabolism, Plants metabolism, Hyacinthus, Bioelectric Energy Sources, Water Pollutants, Chemical, Eichhornia metabolism

Abstract

Membraned Sediment Plant Microbial Fuel cells (SPMFCs) are appealing bioelectrochemical systems that generate power from organic compounds in sediment through exoelectrogen decomposition and are used to treat wastewater. This research was designed to develop a single-chambered sediment plant microbial fuel cell using two membrane electrodes; one carbon plate cathode and one anode. Wastewater and sediment mixture was sampled from Rawalpindi, Pakistan, and bacterial isolation was performed by serial dilution. Five strains were selected on the basis of morphology and growth-promoting characteristics. The selected strains were identified by 16s rRNA sequencing and designated as A (Geobacter sulfurreducens OP527025), B (Shawanella putrefaciens OP522353), C (Bacillus subtilus OP522349), D (Azospirillum humicireducens OP527050) and E (Pseudomonas putida OP526951). Consortium of five strains was developed. Two aquatic plants pennyworts (Hydrocotyle umbellate), and Hyacinth (Eichhornia crassipes) were used in the SPMFCs along with consortium. A maximum voltage of 1120mv was observed in SPMFCs treated with the consortium and water hyacinth, which was followed by 543.3 mv of SPMFCs treated with water pennyworts. Physicochemical analysis of wastewater showed a remarkable reduction of 74.5%, 71%, and 76% in nitrate, phosphate, and sulphate content of wastewater treated with microbes and water hyacinth. The heavy metal analysis showed a reduction of Zn (99.8%), Mg (99.9%), and Ni (98.4%) in SPMFCs treated with the consortium and water hyacinth. Mebraned SPMFCs showed an increase of 30% and 20% in shoot and root length of water hyacinth. A remarkable increase of 25%, 18%, and 12% were recorded in chlorophyll content, membrane stability index and relative water content of water hyacinth in SPMFCs treated with consortium compared to untreated cells. Osmolyte content had shown significant increase of 25% with consortium treated water hyacinth plant as compared to untreated one. An increase of 15%, 20% and 12% was noted in superoxide dismutase (SOD), peroxidase dismutase (POD) and catalase content of consortium treated water hyacinth as compared to control one. The present research gave insight into the potential of sediment plant microbial fuel cells along with aquatic plants for treatment of wastewater. This could be a effective method for removal of hazrdaous substances from wastewater and alternative approach for voltage production., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier Ltd.)

Published

2023

42. RETRACTED ARTICLE: Expression and preliminary characterization of the potential vaccine candidate LipL32 of leptospirosis.

Author

Govindan P, Manjusha P, Saravanan KM, Natesan V, Salmen SH, Alfarraj S, Wainwright M, and Shakila H

Published

2023

43. Impact of Gamma Irradiation and Kale Leaf Powder on Amino Acid and Fatty Acid Profiles of Chicken Meat under Different Storage Intervals.

Author

Khalid W, Arshad MS, Nayik GA, Alfarraj S, Ansari MJ, and Guiné RPF

Subjects

Animals, Fatty Acids analysis, Chickens, Amino Acids, Powders, Meat analysis, Plant Leaves chemistry, Food Irradiation, Brassica

Abstract

The present study was planned to determine the effect of kale leaf powder and gamma rays on variations in the pH, amino acid and fatty acid profiles of chicken meat at different storage intervals. Significant changes ( p ≤ 0.05) in the pH, amino acid and fatty acid profiles of chicken meat following different treatments (KLP (1% and 2%) and gamma irradiation (3k Gy)) were reported at 0, 7 and 14 days of storage. The pH value of the chicken meat sample decreased with the addition of kale leaf powder, whereas the value increased following a gamma irradiation dose of 3 kGy and with the passage of time. During different storage intervals, the minimum reduction in the amino acid and fatty acid quantities in the chicken meat samples was reported after gamma irradiation treatment. However, with the addition of KLP, the amount of amino acids and fatty acids in the chicken meat samples increased. Conclusively, the pH was observed to be reduced in the meat following combined treatment (irradiation + KLP), whereas the 2% KLP treatment improved the amino acid and fatty acid profiles of the chicken samples.

Published

2022

44. Optimization and identification of siderophores produced by Pseudomonas monteilii strain MN759447 and its antagonism toward fungi associated with mortality in Dalbergia sissoo plantation forests.

Author

Srivastava P, Sahgal M, Sharma K, Enshasy HAE, Gafur A, Alfarraj S, Ansari MJ, and Sayyed RZ

Abstract

Siderophore-positive bacteria present in the rhizosphere and in bulk soil assist plants by either inhibiting phytopathogen proliferation or increasing plant growth. The bacterial diversity of the Shisham forest ecosystem in the Tarai region of the Western Himalayas was studied and used for siderophore production, taking into account the large-scale dieback and wilt-induced mortality in Dalbergia sissoo (common name: shisham) plantation forests and the importance of soil microbes in tree health. In addition , Pseudomonas, Burkholderia , and Streptomyces were prominent siderophore-positive bacteria in Shisham forests. Pseudomonas species are known for their remarkable siderophore-producing ability. Bacterial siderophores inhibit pathogen growth by rapidly lowering the number of ferric ions in the rhizosphere. The Pseudomonas monteilii strain MN759447 was isolated from a D. sissoo plantation forest at the Agroforestry Research Centre, Pantnagar, Uttarakhand (28°58'N 79°25'E/28.97°N 79.41°E). It produces a significant number of siderophore units (80.36% in total). A two-stage optimization of growth factors was attempted in the strain MN759447 for better siderophore recovery. In the first-stage single-factor experiment, among the five variables studied, only pH, NH 4 NO 3 concentration, and Fe concentration affected siderophore synthesis. In the second stage, an optimization of pH, NH 4 NO 3 concentration, and Fe concentration for improved growth and enhanced siderophore production was carried out using a Box-Behnken design with response surface methodology. By using LC-MS, two derivatives of pseudomonine, salicylic acid, and kynurenic acid were detected as siderophores in the purified XAD-2 methanol extract of the P. monteilii strain MN759447. In addition to siderophore production, the P. monteilii strain MN759447 also exhibited a broad range of antagonistic activity against Aspergillus calidoustus (65%), Fusarium oxysporum (41.66%), Talaromyces pinophilus (65%), and Talaromyces verruculosus (65.1%) that are linked to sissoo mortality. To our knowledge, this is the first report on siderophore-producing bacteria isolated, identified, and characterized from the D. sissoo Roxb. forest habitat. This strain can also be developed as a commercial product., 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 Srivastava, Sahgal, Sharma, Enshasy, Gafur, Alfarraj, Ansari and Sayyed.)

Published

2022

45. Peelu ( Salvadora oleoides Decne.): An Unexplored Medicinal Fruit with Minerals, Antioxidants, and Phytochemicals.

Author

Razzaq K, Sadiq MM, Ashraf H, Naz A, Hussain A, Maqbool A, Altaf MT, Ullah S, Akhtar G, Faried HN, Amin M, Rajwana IA, Khan AS, Alfarraj S, Ansari MJ, and Saleem A

Subjects

Fruit chemistry, Methanol, Manganese, Copper analysis, Magnesium, Calcium analysis, Sand, Plant Extracts chemistry, Phytochemicals analysis, Minerals analysis, Phenols analysis, Vitamins, Ascorbic Acid, Carotenoids, Flavonoids analysis, Tannins analysis, Zinc analysis, Iron analysis, Phosphorus, Potassium, Coumarins, Ethanol, Nitrogen analysis, Antioxidants analysis, Salvadoraceae

Abstract

The Peelu ( Salvadora oleoides Decne.) fruit is well known for its nutritional and medicinal values. The current study analyzed the chemical composition of Salvadora oleoides fruit. Fresh Peelu fruits were harvested, and physicochemical properties, proximate composition, macro- and micronutrients, and phytochemical properties were determined. Moreover, ethanol and methanol fruit extract was analyzed for physicochemical properties. The Peelu fruit seemed to be a potential source of essential macro- ((nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), and magnesium (Mg)) and micronutrients (zinc (Zn), manganese (Mn), iron (Fe), and copper (Cu)). The fruit had significant biochemical properties (total soluble solids (TSS), total acidity (TA), and TSS : TA ratio) with appreciable moisture, crude fiber, and ash contents. The fruit extracts demonstrated significantly higher antioxidants and phenolics, ascorbic acid contents, and carotenoids. Phytochemical screening of fruit revealed the presence of coumarins, flavonoids, phlobatannins, tannins, and terpenoids. Physicochemical and sensory evaluation of extracts indicated its potential for further in vivo study trials. The Peelu fruit was found to be a good source of mineral nutrients, proximate contents, vitamins (ascorbic acid and carotenoid), phytochemicals (total phenolic sand antioxidant contents), and pharmaceutically important metabolites that can be used as functional drink., Competing Interests: The authors have declared no conflict of interests., (Copyright © 2022 Kashif Razzaq et al.)

Published

2022

46. Pseudomonas aeruginosa inhibits quorum-sensing mechanisms of soft rot pathogen Lelliottia amnigena RCE to regulate its virulence factors and biofilm formation.

Author

Kapadia C, Kachhdia R, Singh S, Gandhi K, Poczai P, Alfarraj S, Ansari MJ, Gafur A, and Sayyed RZ

Abstract

The quorum-sensing (QS) cascade is responsible for the colonization and phenotypic behavior of the pathogenic organism and the regulation of diverse signal molecules. The disruption of the quorum-sensing system is an effective strategy to overcome the possibility of antibiotic resistance development in the pathogen. The quorum quenching does not kill the microbes. Instead, it hinders the expression of pathogenic traits. In the present experiment, Pseudomonas aeruginosa RKC1 was used to extract the metabolites responsible for quorum-sensing inhibition in soft rot pathogen Lelliottia amnigena RCE. During the initial screening, P. aeruginosa RKC1 was found to be most promising and inhibits violacein of Chromobacterium violaceum MTCC2656 pyocyanin, swarming-swimming motility of P. aeruginosa MTCC2297. The characterization of metabolites produced by the microbes which are responsible for quorum-sensing inhibition through GC-MS is very scarce in scientific literature. The ethyl acetate extract of P. aeruginosa RKC1 inhibits biofilm formation of L. amnigena RCE while inhibiting growth at higher concentrations. The GC-MS analysis suggested that Cyclic dipeptides (CDPs) such as Cyclo (L-prolyl-L-valine), Cyclo (Pro-Leu), and Cyclo(D-phenylalanyl-L-prolyl) were predominantly found in the ethyl acetate extract of the P. aeruginosa RKC1 (93.72%). This diketopiperazine (DKPs) exhibited quorum-sensing inhibition against the pathogen in liquid media during the active growth phase and regulated diverse metabolites of the pathogen. Moreover, the metabolites data from the clear zone around wells showed a higher concentration of DKSs (9.66%) compared to other metabolites. So far, very few reports indicate the role of DKPs or CDPs in inhibiting the quorum-sensing system in plant pathogenic bacteria. This is one such report that exploits metabolites of P. aeruginosa RKC1. The present investigation provided evidence to use quorum-sensing inhibitor metabolites, to suppress microbes' pathogenesis and thus develop an innovative strategy to overcome antibiotic resistance., 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 Kapadia, Kachhdia, Singh, Gandhi, Poczai, Alfarraj, Ansari, Gafur and Sayyed.)

Published

2022

47. Effect of Cellulose-Chitosan Hybrid-Based Encapsulation on the Viability and Stability of Probiotics under Simulated Gastric Transit and in Kefir.

Author

Afzaal M, Saeed F, Ateeq H, Shah YA, Hussain M, Javed A, Ikram A, Raza MA, Nayik GA, Alfarraj S, Ansari MJ, and Karabagias IK

Abstract

Encapsulation comprises a promising potential for the targeted delivery of entrapped sensitive agents into the food system. A unique combination of cellulose/chitosan (Cl-Ch)-based hybrid wall material was employed to encapsulate L. plantarum by emulsion technique. The developed beads were further subjected to morphological and in vitro studies. The viability of free and encapsulated probiotics was also evaluated in kefir during storage. The developed beads presented porous spherical structures with a rough surface. A 1.58 ± 0.02 log CFU/mL, 1.26 ± 0.01 log CFU/mL, and 1.82 ± 0.01 log CFU/mL reduction were noticed for Cl-Ch hybrid cells under simulated gastro-intestinal and thermal conditions, respectively. The encapsulated cells were found to be acidic and thermally resistant compared to the free cells. Similarly, encapsulated probiotics showed better viability in kefir at the end of the storage period compared to free cells. In short, the newly developed Cl-Ch hybrid-based encapsulation has a promising potential for the targeted delivery of probiotics, as career agents, in gastric transit, and in foods.

Published

2022

48. Evaluation of Plant Growth-Promoting and Salinity Ameliorating Potential of Halophilic Bacteria Isolated From Saline Soil.

Author

Kapadia C, Patel N, Rana A, Vaidya H, Alfarraj S, Ansari MJ, Gafur A, Poczai P, and Sayyed RZ

Abstract

Among the biotic and abiotic stress affecting the physical, chemical, and biological properties of soil, salinity is a major threat that leads to the desertification of cultivable land throughout the world. The existence of diverse and versatile microbial populations inhabiting the nutrient-rich soil and varied soil conditions affects the soil dynamism. A normal soil constitutes 600 million bacteria belonging to about 20,000 species, which is reduced to 1 million with 5,000-8,000 species in stress conditions. Plant growth-promoting rhizobacteria (PGPR) are in symbiotic association with the plant system, which helps in combating the abiotic stress and increases the overall productivity and yield. These microorganisms are actively associated with varied cellular communication processes through quorum sensing and secondary metabolites such as the production of Indole-3-acetic acid (IAA), exopolysaccharide (EPS) siderophore, ammonia, ACC deaminase, and solubilization of phosphate. The present study focused on the isolation, identification, and characterization of the microorganisms isolated from the seacoast of Dandi, Navsari. Twelve isolates exhibited PGP traits at a high salt concentration of 15-20%. AD9 isolate identified as Bacillus halotolerans showed a higher ammonia production (88 ± 1.73 μg/mL) and phosphate solubilization (86 ± 3.06 μg/mL) at 15% salt concentration, while AD32 * ( Bacillus sp. clone ADCNO) gave 42.67 ±1.20 μg/mL IAA production at 20% salt concentration. AD2 ( Streptomyces sp. clone ADCNB) and AD26 ( Achromobacter sp. clone ADCNI) showed ACC deaminase activity of 0.61 ± 0.12 and 0.60 ± 0.04 nM α-ketobutyrate/mg protein/h, respectively. AD32 ( Bacillus sp. clone ADCNL) gave a high siderophore activity of 65.40 ± 1.65%. These isolates produced salinity ameliorating traits, total antioxidant activities, and antioxidant enzymes viz . superoxide dismutase (SOD), Glutathione oxidase (GSH), and catalase (CAT). Inoculation of the multipotent isolate that produced PGP traits and salinity ameliorating metabolites promoted the plant growth and development in rice under salinity stress conditions. These results in 50% more root length, 25.00% more plant dry weight, and 41% more tillers compared to its control., 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 Kapadia, Patel, Rana, Vaidya, Alfarraj, Ansari, Gafur, Poczai and Sayyed.)

Published

2022

49. Quorum Sensing Inhibitory and Quenching Activity of Bacillus cereus RC1 Extracts on Soft Rot-Causing Bacteria Lelliottia amnigena .

Author

Kachhadia R, Kapadia C, Singh S, Gandhi K, Jajda H, Alfarraj S, Ansari MJ, Danish S, and Datta R

Abstract

The quorum sensing (QS) system of bacteria helps them to communicate with each other in a density-dependent manner and regulates pathogenicity. The concentrations of autoinducers, peptides, and signaling factors are required for determining the expression of virulence factors in many pathogens. The QS signals of the pathogen are regulated by the signal transduction pathway. The binding of signal molecules to its cognate receptor brings changes in the structure of the receptor, makes it more accessible to the DNA, and thus regulates diverse expression patterns, including virulence factors. Degrading the autoinducer molecules or disturbing the quorum sensing network could be exploited to control the virulence of the pathogen while avoiding multidrug-resistant phenotypes. The rhizosphere is a tremendous source of beneficial microbes that has not yet been explored properly for its anti-quorum sensing potential. Lelliottia amnigena causes soft rot diseases in onion, potato, and other species. The present investigation was carried out with the aim of isolating the anti-quorum sensing metabolites and elucidating their role in controlling the virulence factors of the pathogen by performing a maceration assay. The ethyl acetate extracts of various bacteria are promising for violacein inhibition assay using Chromobacterium violaceum MTCC2656 and pyocyanin inhibition of Pseudomonas aeruginosa MTCC2297. Therefore, the extract was used to deduce its role in attenuation of soft rot in potato, carrot, and cucumber. The maximum reduction of macerated tissue in carrot, potato, and cucumber was given by Bacillus cereus RC1 at 91.22, 97.59, and 88.78%, respectively. The concentration-dependent inhibition of virulence traits was observed during the entire experiment. The quorum quenching potential of the bacterial extract was used to understand the regulatory metabolites. The data of the diffusible zone and gas chromatography-mass spectrometry (GC-MS) analysis showed that diketopiperazines, viz . Cyclo(d-phenylalanyl-l-prolyl), Cyclo Phe-Val, Cyclo(Pro-Ala), Cyclo(l-prolyl-l-valine), Cyclo (Leu-Leu), and Cyclo(-Leu-Pro), are prominent metabolites that could modulate the pathogenicity in L. amnigena RCE. The interaction of bacterial extracts regulates various metabolites of the pathogens during their growth in liquid culture compared to their control counterparts. This study might help in exploiting the metabolites from bacteria to control the pathogens, with concurrent reduction in the pathogenicity of the pathogens without developing antibiotic resistance., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

50. Deciphering waste bound nitrogen by employing psychrophillic Aporrectodea caliginosa and priming of coprolites by associated heterotrophic nitrifiers under high altitude Himalayas.

Author

Sheikh T, Baba Z, Yatoo AM, Hamid B, Iqbal S, Wani F, Fatima S, Alfarraj S, and Javed Ansari M

Subjects

Aerobiosis, Altitude, Animals, Denitrification, Ecosystem, Heterotrophic Processes, Manure, Nitrification, Soil, Wastewater, Nitrogen metabolism, Oligochaeta metabolism

Abstract

Himalayan ecosystem is characterized by its fragile climate with rich repositories of biodiversity. Waste collection and disposal are becoming increasingly difficult due to topographical variations. Aporrectodea caligenosa, a versatile psychrophillic soil dweller, is a useful biocatalyst with potent bio-augmented capability for waste treatment at low temperatures. Microcosm experiments were conducted to elucidate the comprehensive nature of biogenic nitrogen transformation to NH 4 + and NO 3 - produced by coupling of earthworm-microbes. Higher biogenic recovery of NH 4 + -N from coprolites of garden soil (47.73 ± 1.16%) and Himalayan goat manure (86.32 ± 0.92%) with an increment of 14.12 and 47.21% respectively over their respective control (without earthworms) with a linear decline beyond 4th week of incubation was reported. NO 3 - -N recovery progressively sustained in garden soil and goat manure coprolites during entire incubation with highest 81.81 ± 0.45 and 87.20 ± 1.08 µg-N g -1 dry weight recorded in 6th and 5th week of incubation respectively and peak increments as 38.58 and 53.71% relative to respective control (without earthworms). Declined NH 4 + -N in coprolites at low temperature (15.0 ± 2.0 °C) evidenced increased nitrification rates by taking over the process by abundant nitrifying microbes. Steady de-nitrification with progressive incubation on an average was 16.95 ± 0.46 ng-N g -1 per week and 21.08 ± 0.87 ng-N g -1 per week compared to 14.03 ± 0.58 ng-N g -1 per week and 4.50 ± 0.31 ng-N g -1 per week in respective control treatments. Simultaneous heterotrophic nitrification and aerobic denitrification (SHNAD) was found to be a prominent bioprocess at low temperature that resulted in high and stable total nitrogen and nitrate accumulation from garden soil and goat manure with relative recovery efficiency of 11.12%, 14.97% and 14.20%; 19.34%. A. caligenosa shows promising prospects for mass applicability in biogenic N removal from manure of Himalayan goat., (© 2022. The Author(s).)

Published

2022