Your search keyword '"Mahmood, Abid"' showing total 15 results

1. [1, 8]-Naphthyridine derivatives as dual inhibitor of alkaline phosphatase and carbonic anhydrase.

Author

Alrokayan, Salman, Hussain, Tajamul, Alamery, Salman, Mohammed, Arif Ahmed, Mahmood, Abid, Ejaz, Syeda Abida, Langer, Peter, and Iqbal, Jamshed

Subjects

CARBONIC anhydrase, PHOSPHATASE inhibitors, BINDING sites, DRUG discovery, ANKYLOSING spondylitis, ALKALINE phosphatase

Abstract

[1,8]-Naphthyridine derivatives have been reported to possess important biological activities and may serve as attractive pharmacophores in the drug discovery process. [1,8]-Naphthyridine derivatives (1a-1l) were evaluated for inhibitory potential for isozymes of carbonic anhydrase (CA) and alkaline phosphatase (ALP). CAs have been reported to carry out reversible hydration of CO2 into HCO3−, secretion of electrolytes, acid–base regulation, bone resorption, calcification, and biosynthetic reactions. Whereas ALPs hydrolyze monophosphate esters with the release of inorganic phosphate and play an important role in bone mineralization. Both enzymes have been found to be over-expressed and raised functional activities in patients suffering from rheumatoid arthritis. The discovery of dual inhibitors of these enzymes may provide a synergistic effect to cure bone disorders such as rheumatoid arthritis and ankylosing spondylitis. Among the test compounds, the most potent inhibitors for CA-II, CA-IX, and CA-XII were 1e, 1g, and 1a with IC50 values of 0.44 ± 0.19, 0.11 ± 0.03 and 0.32 ± 0.07 µM, respectively. [1,8]-Naphthyridine derivatives (1a–1l) were approximately 4 folds more potent than standard CA inhibitor acetazolamide. While in the case of ALPs, the most potent compounds for b-TNAP and c-IAP were 1b and 1e with IC50 values of 0.122 ± 0.06 and 0.107 ± 0.02 µM, respectively. Thus, synthesized derivatives proved to be 100 to 800 times more potent as compared to standard inhibitors of b-TNAP and c-IAP (Levamisole and L-phenyl alanine, respectively). In addition, selectivity and dual inhibition of [1,8]-Naphthyridine derivatives confer precedence over known inhibitors. Molecular docking and molecular simulation studies were also conducted in the present studies to define the type of interactions between potential inhibitors and enzyme active sites. [ABSTRACT FROM AUTHOR]

Published

2023

2. Impact of Co2+ on the spectral, optoelectrical, and dielectric properties of Mg0.25Ni0.25Cu0.5−xCoxFe1.97La0.03O4 ferrites prepared via sol–gel auto-combustion route

Author

Abbas, Ghulam, Rehman, Atta Ur, Gull, Waheed, Afzaal, M., Amin, Nasir, Ben Farhat, Lamia, Amami, Mongi, Morley, Nicola A., Akhtar, Maria, Arshad, Muhammad Imran, Ghuffar, Abdul, Mahmood, Abid, and Ibrahim, Muhammad

Abstract

Spinel ferrites are attaining huge importance in the modern era, due to their incredible properties, which means they are widely used in various fields. Therefore, in this paper a cost-effective and environmentally friendly preparation of Mg0.25Ni0.25Cu0.5−xCoxFe1.97La0.03O4 (x = 0.0, 0.125, 0.25, 0.375, and 0.5) ferrites via the sol–gel auto-combustion method were carried out. How the structural and functional properties varied with the Cu to Co ratio was studied. It was found that the crystallite size (D) was reduced from 47.2 to 27.6 nm as the Co2+ increased from x = 0.0 to 0.5. While the two major absorption bands including the higher frequency band (υ1) and lower frequency band (υ2) lie in the range of 573.80–538.65 cm−1 and 470.37–405.65 cm−1 belong to the spinel matrix. Five active Raman modes were found in the range of wave number 200–800 cm−1 corresponds to the sublattices of the spinel structure. The optical bandgap increased from 0.85 eV to 1.33 eV for x = 0.0 to x = 0.25 and then observed optical band gap was 1.15 eV and 1.46 eV for x = 0.375 to x = 0.5. The resistivity (ρ) was minimum for Co2+ concentration x = 0.25 at low temperature, while at high temperature the resistivity (ρ) was maximum for Co2+ doping x = 0.25. The temperature coefficient of resistance percentage (TCR %) was −2.66%/K at 513 K for x = 0.25, as shown in the graphical abstract. At lower frequencies, the impedance was observed maximum for Co2+ doping x = 0.125 and minimum for x = 0.375. These findings indicate that the as-prepared ferrites are a potential candidate for optoelectrical and bolometric devices. Highlights: Mg0.25Ni0.25Cu0.5−xCoxFe1.97La0.03O4 synthesis via the sol-gel auto-combustion method. The crystallite size was decreased with Co2+ doping. At high temperatures, the resistivity (ρ) was maximum for Co2+ doping x = 0.25. At lower frequency, the impedance was maximum for Co2+ doping x = 0.125. The temperature coefficient of resistance percentage (TCR%) was −2.66%/K at 513 K for x = 0.25. [ABSTRACT FROM AUTHOR]

Published

2022

3. Sources, chemistry, bioremediation and social aspects of arsenic-contaminated waters: a review.

Author

Mehdi, Syed Ejaz Hussain, Amen, Rabia, Ali, Awais, Anjum, Hirra, Mahmood, Abid, Mubashir, Muhammad, Mukhtar, Ahmad, Ullah, Sami, Al-Sehemi, Abdullah G., Ibrahim, Muhammad, Khan, Mohd Shariq, Qyyum, Muhammad Abdul, and Show, Pau Loke

Subjects

BIOREMEDIATION, PLANT communities, IN situ bioremediation, ARSENIC, BIOFILTERS, HAZARDOUS substances

Abstract

Arsenic-contaminated water is a major concern in many areas worldwide, causing several diseases such as cancer. There is therefore a need for advanced methods to clean waters because conventional methods have drawbacks such as generation of hazardous sludge, heavy operation and high costs. Here we review arsenic sources, chemistry, toxicity and remediation methods. We discuss also sociological aspects of arsenic prevention. Sources include surface water, groundwater and seawater. Methods include bioremediation, phyto-remediation and biofilters. Sociological aspects are public awareness, sharing information on arsenic-free water sources, removing As at the household level, building a community plant and training facilitators. [ABSTRACT FROM AUTHOR]

Published

2021

4. Novel Fe2O3-CuO-MoO3 Magnetic Nanocomposite for Photocatalysis of Methylene Blue.

Author

Mahmood, Abid, Zulfiqar, Salaha, Ali, Shaista, Ammara, Umme, Mahmood, Khalid, Farrukh, Muhammad Akhyar, Saeed, Zohaib, and Ibrahim, Muhammad

Subjects

*METHYLENE blue, *SONICATION, *ORTHORHOMBIC crystal system, *NANOCOMPOSITE materials, *TRANSMISSION electron microscopy, *ULTRAVIOLET-visible spectroscopy

Abstract

Novel approach for the synthesis of Fe2O3-CuO-MoO3 nanocomposite was established using sol-gel and ultra-sonication setup. The conformation of the synthesized nanocomposite was done using Fourier transform-infrared spectroscopy (FTIR), X-ray diffraction (XRD), and scanning electron microscopy-energy dispersive X-ray (SEM-EDX) techniques. The chemistry of product thermal stability and decomposition was studied using thermo gravimetric analysis-differential scanning calorimetery (TGA-DSC) with respect to increase in temperature. The optical properties were studied using UV-visible spectroscopy via Wood and Tauc relation. XRD data indicates the presence of orthorhombic crystal system with crystallite size of 4.45 and 38.71 nm using Scherrer equation and Williamson-Hall equations, respectively. The particle size was calculated using transmission electron microscopy (TEM) and found to be 12.67 nm. The catalytic ability of synthesized nanocomposite was studied against methylene blue, and the decrease in percentage degradation from 5 to 30% was observed in nanocomposite prepared from sol-gel to ultra-sonication method. [ABSTRACT FROM AUTHOR]

Published

2021

5. Assessment of heavy metal pollution in Brassica plants and their impact on animal health in Punjab, Pakistan.

Author

Iqbal, Zafar, Abbas, Farhat, Ibrahim, Muhammad, Qureshi, Tahir Imran, Gul, Matin, and Mahmood, Abid

Subjects

ANIMAL health, HEAVY metal toxicology, INDUSTRIAL wastes, BRASSICA, MULTIVARIATE analysis, IRRIGATION farming, HEAVY metal content of water, SOIL pollution

Abstract

Growing Brassica rapa L. (Brassica rapa subsp. campestris (Linn.) Clapham) with wastewater and their use as a fodder for animals is a common practice in suburb of all cities in Punjab, Pakistan, despite the wastewater containing heavy metals is of public health concern. This study assessed the risk of heavy metals on animal health via consumption of B. rapa as fodder grown with wastewater, tube-well and canal water, and its source apportionment, in suburb of Multan City, Pakistan. Samples of B. rapa (n = 30) were collected from six agricultural farms and analyzed for cadmium (Cd), chromium (Cr), copper (Cu), manganese (Mn), nickel (Ni), and lead (Pb) by inductively coupled plasma-optical emission spectrometry (ICP-OES). Total target health quotient (TTHQ) values ranged 47.22 to 136.64 in wastewater irrigation farm, 2.32 to 3.71 in canal water, and 4.86 to 7.50 in tube-well water irrigation farms, respectively exhibiting high carcinogenic health risk to animals across the farms. B. rapa grown with industrial effluents exhibited the highest carcinogenic health risk, while the canal water posed the lowest risk. Multivariate statistical analyses indicated that the wastewater samples containing heavy metals and contaminated soils were common sources of B. rapa contamination. Proper treatment of wastewater for removal of toxic elements before application in agricultural fields may safeguard the health of animals, public, and the ecosystem. [ABSTRACT FROM AUTHOR]

Published

2021

6. Toxicity of biogenic zinc oxide nanoparticles to soil organic matter cycling and their interaction with rice-straw derived biochar.

Author

Shemawar, Mahmood, Abid, Hussain, Sabir, Mahmood, Faisal, Iqbal, Muhammad, Shahid, Muhammad, Ibrahim, Muhammad, Ali, Muhammad Arif, and Shahzad, Tanvir

Subjects

*METALLIC oxides, *NANOPARTICLES, *HUMUS, *BIOCHAR, *RICE straw

Abstract

Given the rapidly increasing use of metal oxide nanoparticles in agriculture as well as their inadvertent addition through sewage sludge application to soils, it is imperative to assess their possible toxic effects on soil functions that are vital for healthy crop production. In this regard, we designed a lab study to investigate the potential toxicity of one of the most produced nanoparticles, i.e. zinc oxide nanoparticles (nZnO), in a calcareous soil. Microcosms of 80 g of dry-equivalent fresh soils were incubated in mason jars for 64 days, after adding 100 or 1000 mg of biogenically produced nZnO kg−1 soil. Moreover, we also added rice-straw derived biochar at 1 or 5% (w: w basis) hypothesizing that the biochar would alleviate nZnO-induced toxicity given that it has been shown to adsorb and detoxify heavy metals in soils. We found that the nZnO decreased microbial biomass carbon by 27.0 to 33.5% in 100 mg nZnO kg−1 soil and by 39.0 to 43.3% in 1000 mg nZnO kg−1 soil treatments across biochar treatments in the short term i.e. 24 days after incubation. However, this decrease disappeared after 64 days of incubation and the microbial biomass in nZnO amended soils were similar to that in control soils. This shows that the toxicity of nZnO in the studied soil was ephemeral and transient which was overcome by the soil itself in a couple of months. This is also supported by the fact that the nZnO induced higher cumulative C mineralization (i.e. soil respiration) at both rates of addition. The treatment 100 mg nZnO kg−1 soil induced 166 to 207%, while 1000 mg nZnO kg−1 soil induced 136 to 171% higher cumulative C mineralization across biochar treatments by the end of the experiment. However, contrary to our hypothesis increasing the nZnO addition from 100 to 1000 mg nZnO kg−1 soil did not cause additional decrease in microbial biomass nor induced higher C mineralization. Moreover, the biochar did not alleviate even the ephemeral toxicity that was observed after 24d of incubation. Based on overall results, we conclude that the studied soil can function without impairment even at 1000 mg kg−1 concentration of nZnO in it. [ABSTRACT FROM AUTHOR]

Published

2021

7. Green remediation of saline–sodic Pb-factored soil by growing salt-tolerant rice cultivar along with soil applied inorganic amendments.

Author

Iqbal, Muhammad Mazhar, Naz, Tayyaba, Zafar, Mazhar Iqbal, Imtiaz, Muhammad, Farooq, Omer, Atique ur Rehman, Ali, Shafaqat, Rizwan, Muhammad, Hussain, Sabir, Javed, Wasim, Murtaza, Ghulam, Afzal, Muhammad, Mahmood, Abid, Mehdi, Shahzada Munawar, Sarwar, Muhammad Aleem, and Du Laing, Gijs

Abstract

In Pb-factored soils, soil application of appropriate inorganic amendment along with cultivation of salt-tolerant crop species/genotypes for Pb immobilization can be a good choice. Hence, in saline-sodic and non-saline/sodic Pb-factored soils, Pb immobilization was observed as influenced by exogeneously applied inorganic amendments. Salt-tolerant rice cultivar Shaheen basmati was grown in present study. The current pot study consists of two factors: three inorganic amendments (i.e., gypsum, rock phosphate and di-ammonium phosphate) each with their three increasing rates along with uncontaminated and contaminated controls, and two types of Pb-factored soils (non-saline/sodic and saline–sodic). At harvest maturity, crop was reaped and straw, paddy yields and height of plant were noted. The results showed that Pb induced decrease in rice growth and physiological attributes (i.e., transpiration rate, photosynthetic rate, stomatal conductance, chlorophyll a, b and carotenoids) were significantly (p ≤ 0.05) counteracted by exogeneously applied inorganic amendments. Among the tested amendments, the highest gypsum application rate of 9 me Ca 100 g−1 soil was proved the most effective to improve rice growth, yield, physiological functions, and to reduce Pb concentration in rice both in saline-sodic and non-saline/sodic Pb-factored soils. [ABSTRACT FROM AUTHOR]

Published

2020

8. Human health risk assessment of heavy metals in raw milk of buffalo feeding at wastewater-irrigated agricultural farms in Pakistan.

Author

Iqbal, Zafar, Abbas, Farhat, Ibrahim, Muhammad, Qureshi, Tahir Imran, Gul, Matin, and Mahmood, Abid

Subjects

HEALTH risk assessment, MILK contamination, RAW milk, HEAVY metals, MULTIVARIATE analysis, HEAVY metal toxicology, FOOD contamination, FODDER crops

Abstract

Wastewater irrigation to grow fodder for animals and cattle farming is common practice in Pakistan. Hence, this study was conducted in Multan, Pakistan, to assess heavy metal pollution, human health risk and the total target health quotient (TTHQ) of heavy metals in raw milk of buffalo feeding at different agricultural farms and to identify sources of toxicity in milk. Samples of raw milk (n = 60) were analyzed for Cd, Cr, Cu, Mn, Ni, and Pb by ICP-OES, Perkin Elmer, USA. The TTHQ values of heavy metals ranged from 6.92 to 42.44 in raw milk of buffalo, highest at wastewater-irrigated agricultural farms and lowest at tube well water site, indicating high carcinogenic health risk to exposed population. The multivariate statistical analysis revealed that contaminated fodder like Maize and Brassica plants grown with wastewater and contaminated soil are common sources contributing the heavy metal contamination in raw milk. It invites attention of government to remediate the situation to avoid the potential risks to public health from resulting food chain contamination. [ABSTRACT FROM AUTHOR]

Published

2020

9. Effective plant-endophyte interplay can improve the cadmium hyperaccumulation in Brachiaria mutica.

Author

Ahsan, Muhammad Tayyab, Tahseen, Razia, Ashraf, Abida, Mahmood, Abid, Najam-ul-haq, Muhammad, Arslan, Muhammad, and Afzal, Muhammad

Subjects

BRACHIARIA, CADMIUM, ENDOPHYTIC bacteria, BIOMASS production, SOIL pollution, HYPERACCUMULATOR plants, HEAVY metals, RHIZOSPHERE

Abstract

Soil contamination due to cadmium (Cd) is a ubiquitous environmental problem for which inexpensive remediation alternatives are required. Phytoaccumulation, the use of plants to extract and accumulate heavy metals from the contaminated environment, is such an alternative. In this study, we aimed at establishing effective plant-bacteria interplay between Brachiaria mutica and Cd-resistant endophytic bacteria eventually leading to improved phytoremediation. B. mutica was grown in a Cd-contaminated soil and inoculated with three Cd-tolerant endophytic bacteria individually as well as in combination. Plant physiological parameters, biomass production, bacterial colonization, and Cd-accumulation were observed at four different Cd exposures, i.e., 100, 200, 400 and 1000 mg kg−1 of soil. The combined application of endophytic bacteria was more effective as compared to their individual applications at all concentrations. Nevertheless, highest performance of consortium was seen at 100 mg Cd kg−1 of soil, i.e., root length was enhanced by 46%, shoot length by 62%, chlorophyll content by 40%, and dry biomass by 64%; which was reduced with the increase in Cd concentration. The bacterial population was highest in the root interior followed by rhizosphere and shoot interior. Concomitantly, plants inoculated with bacterial consortium displayed more Cd-accumulation in the roots (95%), shoots (55%), and leaves (44%). Higher values of BCFroot (> 1), and lower values for BCFshoot and TF (< 1) indicates capability of B. mutica to accumulate high amounts of Cd in the roots as compared to the aerial parts. The present study concludes that plant-endophyte interplay could be a sustainable and effective strategy for Cd removal from the contaminated soils. [ABSTRACT FROM AUTHOR]

Published

2019

10. Foliar application of aspartic acid lowers cadmium uptake and Cd-induced oxidative stress in rice under Cd stress.

Author

Rizwan, Muhammad, Ali, Shafaqat, Akbar, Muhammad, Shakoor, Muhammad, Mahmood, Abid, Ishaque, Wajid, and Hussain, Afzal

Subjects

CADMIUM, FOLIAR feeding, ASPARTIC acid, SOIL pollution, OXIDATIVE stress, PHOTOSYNTHESIS

Abstract

Cadmium (Cd) contamination of farmland soils is a widespread problem around the globe, and rice ( Oryza sativa L.) tends to accumulate more Cd and is considered as one of the major sources of Cd intake in humans, especially consuming rice-derived products. The current study investigated the effects of foliar applied aspartic acid (Asp) on growth parameters, biomass, chlorophyll concentration, gas exchange characteristics, Cd uptake, and antioxidative capacity in the shoots and roots of rice seedlings exposed to Cd stress. For this, 30-day-old rice nursery was transferred in the soil with aged Cd contamination (2.86 mg kg). After 2 weeks of growth, different concentrations (0, 10, 15, and 20 mg L) of Asp were foliar applied four times with a 7-day interval, and the crop was harvested after 10 weeks of transplanting. Foliar applied Asp increased the plant height, shoot and root dry weight, chlorophyll concentration, and gas exchange parameters, while it reduced the Cd concentrations in both shoots and roots as well as shoot to root Cd translocation factor compared to the control. Foliar application of Asp reduced the malondialdehyde content and electrolyte leakage in rice parts compared to the control in a dose-additive manner. The activities of key antioxidant enzymes increased while peroxidase activity decreased by exogenous Asp. The increase in plant weight and photosynthesis might be due to lower Cd concentrations in plants which may reduce the oxidative stress and also help the plants to minimize direct damage caused by Cd to the photosynthetic organs. [ABSTRACT FROM AUTHOR]

Published

2017

11. Impact of Dysdercus koenigii Fabricius (Hemiptera: Pyrrhcoridae) density-dependent population on agronomic and qualitative characteristics of different transgenic cotton varieties.

Author

Shahid, Muhammad, Farooq, Muhammad, Shakeel, Muhammad, Mahmood, Abid, and Gogi, Muhammad

Subjects

HEMIPTERA, COTTON diseases & pests, TRANSGENIC plants, COTTON varieties, INSECT populations

Abstract

The cotton stainer, Dysdercus koenigii Fabricius (Hemiptera: Pyrrhcoridae), has become a major threat to transgenic cotton as it causes warts on the internal carpel wall of cotton boll, severe lint staining, lint locks, and lint lesions. Thus, keeping in view the importance of this pest on cotton, in the present study, screening of 13 transgenic cotton genotypes was performed and the population of D. koenigii was determined on these genotypes during 2012-13. Furthermore, among these genotypes, a high yielding advanced cultivar (FH-114) was selected for further experiments. A number of five different densities of D. koenigii (5, 10, 15, 20, and 25) at adult stage with well-developed proboscis were released in the cages along with a control treatment. Cotton genotypes FH-312, FH-2073, FH-Lalazar, FH-142, and MNH-886 possessed minimum population (1.33 D. koenigii per plant) compared to FH-324 and FH-444 (6.0 D. koenigii per plant). The number of bolls per plant and boll weight decreased as a result of increased densities. The increased density of D. koenigii resulted in fewer bolls per plant (12.1 bolls), reduced boll weight (2.1 g), germination (39.1%), ginning out turn (38.3%), staple length (27.8 mm), and staple fineness (4.0 μg/in.) when compared with un-infested plants (30.6, 3.2 g, 77.3%, 41.5%, 28.8 mm, and 4.4 μg/in.), respectively. Correlation analysis revealed that bolls per plant, boll weight, germination, ginning out turn, and staple fineness resulted in negative and significant correlation with density of D. koenigii with r-values of −0.95, −0.98, −0.98, −0.8, and −0.85, respectively. Coefficient of determination (R) demonstrated that bolls per plant, boll weight, germination, ginning out turn, staple length, and staple fineness contributed with 91, 96, 96, 79, 43 and 73%, respectively, to the total variability at different densities of D. koenigii. Our findings demonstrated that D. koenigii has become potential major pest and causes quantitative and qualitative losses to transgenic cotton, hence, there is a need to develop appropriate control measures for controlling its population to avoid further losses. [ABSTRACT FROM AUTHOR]

Published

2017

12. The impact of enhanced atmospheric carbon dioxide on yield, proximate composition, elemental concentration, fatty acid and vitamin C contents of tomato ( Lycopersicon esculentum).

Author

Khan, Ikhtiar, Azam, Andaleeb, and Mahmood, Abid

Subjects

TEMPERATURE, CARBON dioxide, GLOBAL warming, CHEMICAL composition of plants, TOMATOES -- Nutrition, VITAMIN C

Abstract

The global average temperature has witnessed a steady increase during the second half of the twentieth century and the trend is continuing. Carbon dioxide, a major green house gas is piling up in the atmosphere and besides causing global warming, is expected to alter the physico-chemical composition of plants. The objective of this work was to evaluate the hypothesis that increased CO in the air is causing undesirable changes in the nutritional composition of tomato fruits. Two varieties of tomato ( Lycopersicon esculentum) were grown in ambient (400 μmol mol) and elevated (1,000 μmol mol) concentration of CO under controlled conditions. The fruits were harvested at premature and fully matured stages and analyzed for yield, proximate composition, elemental concentration, fatty acid, and vitamin C contents. The amount of carbohydrates increased significantly under the enhanced CO conditions. The amount of crude protein and vitamin C, two important nutritional parameters, decreased substantially. Fatty acid content showed a mild decrease with a slight increase in crude fiber. Understandably, the effect of enhanced atmospheric CO was more pronounced at the fully matured stage. Mineral contents of the fruit samples changed in an irregular fashion. Tomato fruit has been traditionally a source of vitamin C, under the experimental conditions, a negative impact of enhanced CO on this source of vitamin C was observed. The nutritional quality of both varieties of tomato has altered under the CO enriched atmosphere. [ABSTRACT FROM AUTHOR]

Published

2013

13. Molecular characterization of cDNA encoding resistance gene-like sequences in Buchloe dactyloides.

Author

Budak, Hikmet, Kasap, Zeynep, Shearman, Robert, Dweikat, Ismail, Sezerman, Ugur, and Mahmood, Abid

Abstract

Current knowledge of resistance ( R) genes and their use for genetic improvement in buffalograss ( Buchloe dactyloides [Nutt.] Engelm.) lag behind most crop plants. This study was conducted to clone and characterize cDNA encoding R gene-like (RGL) sequences in buffalograss. This report is the first to clone and characterize of buffalograss RGLs. Degenerate primers designed from the conserved motifs of known R genes were used to amplify RGLs and fragments of expected size were isolated and cloned. Sequence analysis of cDNA clones and analysis of putative translation products revealed that most encoded amino acid sequences shared the similar conserved motifs found in the cloned plant disease resistance genes PRS2, MLA6, L6, RPMI, and Xa1. These results indicated diversity of the R gene candidate sequences in buffalograss. Analysis of 5′ rapid amplification of cDNA ends (RACE), applied to investigate upstream of RGLs, indicated that regulatory sequences such as TATA box were conserved among the RGLs identified. The cloned RGL in this study will further enhance our knowledge on organization, function, and evolution of R gene family in buffalo grass. With the sequences of the primers and sizes of the markers provided, these RGL markers are readily available for use in a genomics-assisted selection in buffalograss. [ABSTRACT FROM AUTHOR]

Published

2006

14. Chemical composition, antioxidant and antimicrobial potential of essential oils from different parts of Daphne mucronata Royle.

Author

Ashraf, Iqra, Zubair, Muhammad, Rasool, Nasir, Jamil, Muhammad, Rizwan, Komal, Khan, Shakeel Ahmad, Tareen, Rasool Bakhsh, Ahmad, Viqar Uddin, Mahmood, Abid, Riaz, Muhammad, Zia-Ul-Haq, M., and Jaafar, Hawa ZE

Subjects

ESSENTIAL oils, DAPHNES, ANTIOXIDANT analysis, ANTI-infective agents, CHEMICAL composition of plants, CAMPHOR

Abstract

This research work was executed to determine chemical composition, anti-oxidant and anti-microbial potential of the essential oils extracted from the leaves and stem of Daphne mucronata Royle. From leaves and stem oils fifty-one different constituents were identified through GC/MS examination. The antioxidant potential evaluated through DPPH free radical scavenging activity and %-inhibition of peroxidation in linoleic acid system. The stem's essential oil showed the good antioxidant activity as compared to leaves essential oil. Results of Antimicrobial activity revealed that both stem and leaves oils showed strong activity against Candida albicans with large inhibition zone (22.2 ± 0.01, 18.9 ± 0.20 mm) and lowest MIC values (0.98 ± 0.005, 2.44 ± 0.002 mg/mL) respectively. Leaves essential was also active against Escherichia coli with inhibition zone of 8.88 ± 0.01 mm and MIC values of 11.2 ± 0.40 mg/mL. These results suggested that the plant's essential oils would be a potential cradle for the natural product based antimicrobial as well as antioxidant agents. [ABSTRACT FROM AUTHOR]

Published

2018

15. Need for growing non-Bt cotton refugia to overcome Bt resistance problem in targeted larvae of the cotton bollworms, Helicoverpa armigera and Pectinophora gossypiella.

Author

Shahid, Muhammad Rafiq, Farooq, Muhammad, Shakeel, Muhammad, Ashraf, Misbah, Zia, Zia Ullah, Ahmad, Saghir, and Mahmood, Abid

Subjects

*PINK bollworm, *HELICOVERPA armigera, *INSECT larvae, *LARVAE, *BT cotton, *COTTON, *COTTON growing

Abstract

Background: The effectiveness of Bacillus thuringiensis (Bt) cotton against target arthropod larvae is decreasing day by day. The comparative effect of Bt expression among Bt cotton varieties and different plant parts was observed against the cotton bollworms: Helicoverpa armigera and Pectinophora gossypiella larvae. Results: In the present study, larval mortality of H. armigera was higher than P. gossypiella among selected Bt cultivars. Median lethal concentration (LC50) values were 8.91, 13.4, 14.0, and 36.4 for P. gossypiella, while 5.91, 4.04, 2.37, and 8.26 for H. armigera of FH-142, MNH-886, IR-3701, and FH-Lalazar, respectively. These values depicted that P. gossypiella had more Bt resistance problem than H. armigera larvae. The host range of both targeted insect larvae was different from each other due to the polyphagous feeding nature of the larvae of H. armigera that feed on different host plants, but P. gossypiella attacked only cotton with monophagous feeding habit. It was also notable from results that Bt expression in reproductive parts where the attacked pink bollworm was lower than the American bollworm, so the former had the maximum chance of resistance due to repeated exposure to Bt. Conclusions: It was concluded that farmers be advised to follow the practice of growing non-Bt as a refuge crop to reduce the problem of Bt resistance in the target arthropod species. [ABSTRACT FROM AUTHOR]

Published

2021