Abdelfattah Badr scite author profile

Genes for glycolytic and Calvin-cycle glyceraldehyde-3-phosphate dehydrogenase (GAPDH) of higher eukaryotes derive from ancient gene duplications which occurred in eubacterial genomes; both were transferred to the nucleus during the course of endosymbiosis. We have cloned cDNAs encoding chloroplast and cytosolic GAPDH from the early-branching photosynthetic protist Euglena gracilis and have determined the structure of its nuclear gene for cytosolic GAPDH. The gene contains four introns which possess unusual secondary structures, do not obey the GT-AG rule, and are flanked by 2-to 3-bp direct repeats. A gene phylogeny for these sequences in the context of eubacterial homologues indicates that euglenozoa, like higher eukaryotes, have obtained their GAPDH genes from eubacteria via endosymbiotic (organelle-to-nucleus) gene transfer. The data further suggest that the early-branching protists Giardia lamblia and Entamoeba histolytica-which lack mitochondria-and portions of the trypanosome lineage have acquired GAPDH genes from eubacterial donors which did not ultimately give rise to contemporary membrane-bound organelles. Evidence that "cryptic" (possibly ephemeral) endosymbioses during evolution may have entailed successful gene transfer is preserved in protist nuclear gene sequences.

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Characterization of the extracellular γ‐glutamyl transpeptidases, GGT1 and GGT2, in Arabidopsis

Ohkama‐Ohtsu

et al. 2007

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gamma-Glutamyl transpeptidase (GGT) is the only enzyme known that can cleave the gamma-peptide bond between glutamate and cysteine in glutathione, and is therefore a key step in glutathione degradation. There are three functional GGT genes in Arabidopsis, two of which are considered here. GGT1 and GGT2 are apoplastic, associated with the plasma membrane and/or cell wall. RNA blots and analysis of enzyme activity in knockout mutants suggest that GGT1 is expressed most strongly in leaves but is found throughout the plant. A GGT1::GUS fusion construct showed expression only in vascular tissue, specifically the phloem of the mid-rib and minor veins of leaves, roots and flowers. This localization was confirmed in leaves by laser microdissection. GGT2 expression is limited to embryo, endosperm, outer integument, and a small portion of the funiculus in developing siliques. The ggt2 mutants had no detectable phenotype, while the ggt1 knockouts were smaller and flowered sooner than wild-type. In ggt1 plants, the cotyledons and older leaves yellowed early, and GSSG, the oxidized form of glutathione, accumulated in the apoplastic space. These observations suggest that GGT1 is important in preventing oxidative stress by metabolizing extracellular GSSG, while GGT2 might be important in transporting glutathione into developing seeds.

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Floristic composition and vegetation analysis in Hail region north of central Saudi Arabia

El-Ghanim¹,

Hassan

Galal

et al. 2010

Saudi Journal of Biological Sciences

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In this study, 19 sites representing different habitats in Hail region were regularly visited for two years, in each site 2-5 stands were selected for investigating floristic composition and vegetation types in the area. A total of 124 species representing 34 families were recorded. The family Asteraceae is represented by the highest number of species (21 species) followed by the Poaceae (17 species) and the Brassicaceae (10 species) whereas, 15 families including Acanthaceae, Convolvulaceae, Moraceae, Nyctaginaceae and Primulaceae, are represented by a single species each. Chronological analysis of the vegetation in the area revealed the domination of Saharo-Sindian elements in the wild vegetations and of weedy species in the cultivated plots. Therophytes and chamaephytes are the dominating life forms of the vegetation spectra; therophytes represent 49.20% and chamaephytes represent 29.00% of the total species in the study area. Application of TWINISPAN and DECORANA classification and ordination techniques to the data produced seven vegetation groups. Ruderal habitats comprised two small groups A and F dominated by Phragmites australis and Imperata cylindrical (A), Euphorbia peplus and Sisymbrium irio (F), respectively. Two vegetation groups (B and G) have been recognized in the mountains and slopes dominated by Launaea mucronata, Trigonella stellata (B) and Ficus palmate and Fagonia bruguieri (G). Other two groups (C and E) inhabit the desert and mountainous wadies; these are represented by Gymnocarpos decandrus and Ochradenus baccatus (C) and Senecio glaucus subsp. coronopifolius and Rumex equisetiforme (E). On the other hand, one group (D) inhabits the cultivated plots and is represented by Plantago albicans and Rumex vesicarius, the last group also includes species restricted to the sand dune habitat of the Al-Nafud desert north of Hail city and represented by Calligonum polygonoides and Halyxolon salicornicum. The vegetation analysis indicated the invasion of Hail Flora by some foreign weeds such as Solanum nigrum, Lactuca serriola and Amaranthus lividus. The presence of these weeds points out the need to monitor the vegetation change in Hail region, and also other regions of Saudi Arabia, in order to elucidate the human impact on the wild plants diversity as human activities change with the fast development in the kingdom.

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Speciation and Species Separation in Hordeum L. (Poaceae) Resolved by Discontinuous Molecular Markers¹

et al. 2002

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Amplified fragment length polymorphisms (AFLPs) were used to evaluate the capacity of discontinuous markers to reveal genetic structure within Hordeum, a challenging higher plant genus from the standpoint of natural systematics. Phylogenies of 63 accessions encompassing nine species from four Hordeum sections were inferred from polymorphisms scored at 600 loci. Phylogenies based on sequences from the nuclear internal transcribed spacer (ITS) region were constructed for comparison, but revealed severe sampling errors inherent to single genes. Although superior by virtue of providing genome‐wide estimates of genetic similarity, the adoption of AFLPs in infrageneric studies requires caution. Comigrating AFLP bands studied here could be divided on the basis of band intensity variation into two types that are □ 100 % identical and < 40 % identical in DNA sequence, respectively, in infrageneric comparisons. Thus, the careful selection of AFLP bands to be analyzed bears heavily upon their phylogenetic utility. Within the H. murinum complex, which encompasses three morphologically distinct subspecies, AFLP data from 37 accessions reveal unexpected genetic differentiation between H. murinum, glaucumpopulations to the east and west of Alexandria (Egypt), suggesting the presence of allopatric speciation in the wake of human settlement.

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Screening for Drought Tolerance in Maize (Zea mays L.) Germplasm Using Germination and Seedling Traits under Simulated Drought Conditions

Badr

El-Shazly

Tarawneh

et al. 2020

Plants

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Maize is known to be susceptible to drought stress, which negatively affects vegetative growth and biomass production, as well as the formation of reproductive organs and yield parameters. In this study, 27 responsive traits of germination (G) and seedlings growth were evaluated for 40 accessions of the Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) germplasm collection, under no stress and simulated drought stress treatments by 10%, 15%, and 20% of polyethylene glycol (PEG). The three treatments significantly reduced G% and retarded seedlings growth, particularly the 15% and 20% PEG treatments; these two treatments also resulted in a significant increase of abnormal seedlings (AS). The heritability (H2) and correlations of the traits were estimated, and drought tolerance indices (DTIs) were calculated for traits and accessions. The H2 of G% values were reduced, and H2 for AS% increased as the PEG stress increased. Positive correlations were found between most trait pairs, particularly shoot and root traits, with 48 highly significant correlations under no stress and 25 highly significant correlations under the 10% PEG treatments, particularly for shoot and root traits. The medium to high heritability of shoot and root seedling traits provides a sound basis for further genetic analyses. PCA analysis clearly grouped accessions with high DTIs together and the accessions with low DTIs together, indicating that the DTI indicates the stress tolerance level of maize germplasm. However, the resemblance in DTI values does not clearly reflect the origin or taxonomic assignments to subspecies and varieties of the examined accessions.

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Effect of herbicide glean on mitosis, chromosomes and nucleic acids in Allium cepa and Vicia faba root meristems.

Badr

Ibrahim

1987

CYTOLOGIA

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Nanobiotechnological advancements in agriculture and food industry: Applications, nanotoxicity, and future perspectives

Ali

Al-Tohamy

Koutra

et al. 2021

Science of The Total Environment

100

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Mitodepressive and chromotoxic activities of two herbicides in Allium cepa.

Badr

1983

CYTOLOGIA

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It is now evident that several chemicals used in the control of unwanted weeds have the ability to inhibit cell division and induce chromosomal abnormalities. Chromosomal aberrations have been considered as reliable indicators of mutagenic activity (Mohandas and Grant 1972) and there have been evidence for a correlation between chromosomal damage and toxic effects of a number of herbicides (Gichner et al. 1968, Tomkins and Grant 1972, Delcourt and Deysson 1976. Because many chromotoxic chemicals can also cause point mutation (Grant 1978Zimmerman 1976, the value of mitotoxic and chromotoxic data are increasingly being ap preciated.The present investigation was undertaken to examine the mitodepressive and chromotoxic activities of two carbetamide containing herbicides on mitosis in Album cepa. These are carbetamex and paradone plus. Carbetamex is a 70% w/w active ingredient of carbetamide which is R-(-)-1 (ethylcarbamoyl) ethylphenyl carbamate, while paradone plus is a mixture of dimefuron and carbetamide with a total 70% w/w acitve ingredient. Dimefuron is 2-tert butyl-4-(chloro-4-(3, 3-di methylureido)phenyl)-1, 3, 4-oxadiaxolin-5-one. Both herbidices are applied as preemergence herbicides for control of weeds in cereals, beans, peas and brassicas. Material and methodsActively growing root meristems of Allium cepa (Rijnsburger type) were treated with 4 different concentrations of each herbicide for 2, 5 and 24 hours. The concen trations applied were 50, 100, 500 and 5000 ppm. The highest concentration ap proximately equal the dose of application.After all treatments root tips were washed in distilled water and fixed in a fresh solution of 3:1 (v/v) ethanol and acetic acid. Cytological preparations were carried out using the Feulgen's squash technique and made permanent in euparol. A total of 6000 cells from six different slides for every treatment were examined for effects on mitotic index (MI) and the frequency of mitotic phases. Dividing cells were analysed for chromosomal abnormalities and aberrations in interphase cells were recorded. ResultsThe effects on MI and the frequency of mitotic phases are given in Table 1. MI was severely reduced as the concentration increased and the period of treatment

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