Area of Interest:

Biomedical Sciences

100%

Biochemistry

62%

Molecular Biology

90%

Biotechnology

75%

Chemical Biology

55%

Research Publications in Numbers

Books
0

Chapters
0

Articles
0

Abstracts
0

Selected Publications

Omar, M.N.A.M., N.A.A.A. Ibrahim, Y.A. El-Tahlawy, H.M.A.A. Elegami, S.Y.S. El-Sayed and M.M. Bishara, 2022. Wheat plant-Plant Growth Promoting Rhizobacteria (PGPR) interaction to alleviate the salt stress in vitro and in vivo. Int. J. Sci. Res. Updates, 4: 49-62.
CrossRef | Direct Link |
Gomaa, L., M.E. Loscar, H.S. Zein, N. Abdel‑Ghaffar, A.A. Abdelhadi, A.S. Abdelaal and N.A. Abdallah, 2017. Boosting isoprene production via heterologous expression of the Kudzu isoprene synthase gene (kIspS) into Bacillus spp. cell factory. AMB Express Vol. 7. 10.1186/s13568-017-0461-7.
CrossRef | Direct Link |
Gomaa, L., H.S. Zein, N.A. Ghaffar and N.A. Abdallah, 2017. Molecular studies on isoprene production from natural and recombinant bacteria. J. Agric. Chem. Biotechn. Mansoura Univ., 8: 65-69.
Motaal, A.A., I. Fahmy, A. El-Halawany and N. Ibrahim, 2015. Comparative fibrinolytic activities of nattokinases from Bacillus subtilis var. natto. J. Pharm. Sci. Res., 7: 63-66.
Ibrahim, N.A.G.A.A. and M.N.A. Omar, 2015. Thermophilic paenibacillus Nitrogen Fixation bacteria increases cereal crops productivity. J. Am. Sci., 11: 39-54.
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Labib, M.M., A.S. Hassan, M.K. Amin and N.A.A. Ibrahim, 2014. Identification and molecular characterization of genes involved in proline biosynthesis in Egyptian salt tolerant bacterial isolates. Zagazig J. Agric. Res., 41: 505-523.
Ibrahim, N.A.G.A., M. Yossef and M.N.A. Omar, 2014. Rapid detection of pathogenic bacteria in vegetables and fruits in Egyptian farms. J. Am. Sci., 10: 242-252.
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Ibrahim, N.A.G.A., A.I. Hussien, A. El-Sayed Hatem, H.K. Aldebis and E.V. Osuna, 2014. Persistence of the transformed Paenibacillus polymyxa expressing Cry1C in the plant leaves and its effect on chlorophyll and carotenoid. life sci. J., 11: 433-442.
Ibrahim, N., 2012. Production of a Potent Strain of Bacteria Bacillus Thuringiensis. LAP Lambert Academic Publishing, USA., ISBN-13: 978-3-659-19097-1, Pages: 180.
Ibrahiem, N.A., H.A. Ahmed, K.Z. El-Baghdady, H.M. Gebreel and D.E. Elhadedy, 2012. Cloning of PII –like gene and purification of PII protein from nitrogen–fixing Paenibacillus polymyxa. Blue Biotechnol. J., 1: 91-100.
Gebreel, H.M., N.A. Ibrahiem, K.Z. El-Baghdady, H.A. Ahmed and D.E. El-Hadedy, 2012. Enhancement of glutamine synthetase activity in Paenibacillus polymyxa by optimization of different growth conditions. Afr. J. Biotechnol., 11: 11815-11825.
CrossRef | Direct Link |
Hussien, A.I., N.I.A. El-Ghaffar, A. El-Sayed Hatem, H.K. Aldebis and Y.E. Vargas-Osuna, 2011. Insecticidal and nitrogen fixation activities of the transformed PaeniBacillus polymyxa expressing Cry1C. Rev. Colomb. Entomol., 37: 192-197.
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N.A.A., Ibrahim and M.N.A. Omar, 2009. Expression of the insecticidal protein gene cry1C of Bacillus thuringiensis in the plant-colonizing nitrogen fixing bacteria. Pest Technol., 3: 45-49.
Ibrahim, N.A.G.A., S.A. Osman, M.S. Salama and M.A. Madkour, 2008. Construction of a potent strain of Bacillus thuringiensis against the cotton leaf worm Spodoptera littoralis. Ger J. Agric. For. Res., 58: 111-123.
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Ibrahim, N.A.A., Y.A. El-Zawahry, G. Ahmed and S.H. El-Moslamy, 2007. Isolation, identification and molecular characterization of halo and thermo tolerant bacteria from costal ridge of mediterranean in Egypt. Egyp. J. Genet. Cytol., 36: 341-353.
Nahed, A.I., O.S. Hassan and M.N.A. Omar, 2006. Protection of cotton plant (Gossypium barbadense) against lepidopteran insects due to colonization with nitrogen fixing bacteria expressing the Bacillus thuringiensis toxin gene cry1c. Egypt. J. Genet. Cytol., 35: 305-319.
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