Dr. Phi Bang Cao
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Dr. Phi Bang Cao

Associate Professor
Hung Vuong University, Vietnam


Highest Degree
Ph.D. in Plant Development from Paul Sabatier University, France

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Area of Interest:

Biotechnology and Genetic
100%

Research Publications in Numbers

Books
0
Chapters
0
Articles
33
Abstracts
0

Selected Publications

  1. Thi, M.L., N.N. Quoc, H.T.T. Thanh, H.L. Viet and B.C. Phi, 2022. Identification and analysis of HSP90 genes in papaya (Carica papaya L.) by using bioinformatics method. J. Sci., 66: 196-204.
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  2. Pham, T.T.T., H.T.T. Tran, P.B. Cao, P.T. Ninh, N.H. Do and S.T. Dinh, 2022. High genetic diversity of 16 Indian lettuce (Lactuca indica L.) accessions from Vietnam. Pak. J. Biol. Sci., 25: 201-209.
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  3. Nguyen, T.P.D., N.T. Vu, Q.T. Nguyen, T.T.H. Tran, P.B. Cao, I.S. Kim and D.C. Jang, 2022. Growth and quality of hydroponic cultivated spinach (Spinacia oleracea L.) affected by the light intensity of red and blue LEDs. J. Sains Malaysiana, 51: 473-483.
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  4. Nguyen, T.B.Y., T.L.H. Phung, M.H. Nguyen, T.T.T. Nguyen and T.T.H. Pham, et al., 2022. Hydrodistillation essential oil of Michelia balansae and its characteristics from Xuan Son National Park, Vietnam. Asian J. Plant Sci., 21: 453-459.
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  5. Le, T.M., T.T.H. Tran, X.Q. Vu, H.D. Chu and T.C. Pham, et al., 2022. Genome-wide identification and analysis of genes encoding putative heat shock protein 70 in papaya (Carica papaya). Pak. J. Biol. Sci., 25: 468-475.
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  6. Le, C.T., T.B. Do, T.M.A. Pham, V.D. Nguyen, S.K. Nguyen, V.H. Nguyen, P.B. Cao and W.O. Omollo, 2022. Reconstruction of the evolutionary biogeography reveals the origins of Alpinia Roxb. (Zingiberaceae): A case of Acta Bot. Bras., Vol. 36. 10.1590/0102-33062021abb0255.
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  7. La, H.V., H.D. Chu, Q.T. Ha, T.T.H. Tran and H.V. Tong, et al., 2022. SWEET gene family in sugar beet (Beta vulgaris): Genome-wide survey, phylogeny and expression analysis. Pak. J. Biol. Sci., 25: 387-395.
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  8. La, H.V., H.D. Chu, C,D. Tran, K.H. Nguyen and Q.T.N. Le et al., 2022. Insights into the gene and protein structures of the CaSWEET family members in chickpea (Cicer arietinum), and their gene expression patterns in different organs under various stress and abscisic acid treatments. Gene, Vol. 819. 10.1016/j.gene.2022.146210.
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  9. Hong, L.V., C.P. Bang, O.X. Phong, N.T. Thuong and N.T.L. Thuy, 2022. Effects of water starch on growth, chlorophyll, foliar morphology and in vitro propagation of chrysanthemum. TNU J. Sci. Technol., 227: 146-153.
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  10. Ha, D.C., P.B. Cao, V.D. Nguyen and C.T. Le, 2022. Molecular phylogeny and deep origins of the hybrid Mokara dear heart (Orchidaceae). Jordan J. Biol. Sci., 15: 805-811.
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  11. Do, T.L.H., C.T. Le, T.L.H. Phun, Q.H. Duong and V.A. Chu, et al., 2022. Effect of NPK-SRFS on the growth, yield and essential oil composition of basil (Ocimum basilicum L.). Pak. J. of Biol. Sci., 25: 289-295.
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  12. Cao, P.B., 2022. In silico structural, evolutionary, and expression analysis of small heat shock protein (SHSP) encoding genes in cocoa (Theobroma cacao L.). J. Anim. Plant Sci., 10.36899/JAPS.2022.5.0546.
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  13. Vu, X.D., C.T. Le, T.B. Do, P.B. Cao and Q.B. Nguye et al., 2021. Phylogeny of Alpinia coriandriodora D. fang and implications for character evolution and conservation. Pak. J. Bio. Sci., 24: 1-12.
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  14. Quach, N.T., H.T. Dam, D.M. Tran, T.H.N. Vu and Q.V. Nguyen et al., 2021. Diversity of microbial community and its metabolic potential for nitrogen and sulfur cycling in sediments of Phu Quoc island, gulf of Thailand. Braz. J. Microbiol., 52: 1385-1395.
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  15. Hong, L.V., L.H. Duc, C.D. Ha and C.P. Bang, 2021. Choose in vitro some sustainable chrysanthemummorifolium strains. TNU J. Sci. Technol., 226: 316-322.
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  16. Cao, P.B., V.H. Nguyen, T.M. Le, T.L.H. Phung, X.D. Vu and T.B.N. Chu, 2021. Influence of salicylic acid on some physiological responses of Chrysanthemum "mai vangu". Asian J. Plant Sci., 20: 44-51.
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  17. Cao, P.B., H.D. Chu, S. Azar, V.H. La and T.T. Huye et al., 2021. Genome-wide analysis of aldehyde dehydrogenase (ALDH) gene superfamily in Eucalyptus grandis by using bioinformatics methods. Asian J. Plant Sci., 20: 210-219.
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  18. Pham, T.L., V.H. Nguyen, T.L.T. Hoang, T.T.T. Ha and T.K. Tran et al., 2020. Micropropagation from root segments to improve seedling quality in Chinese foxglove crops. J. Plant Biotechnol., 47: 235-241.
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  19. Le, T.M., T.L.H. Phung and P.B. Cao, 2020. Effect of magnesium on growth, fruit yield and some biochemical indices of hydroponic black tomato. Asian J. Plant Sci., 19: 273-278.
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  20. Cao P.B., R. Ployet, C. Nguyen, A. Dupas, N. Ladouce, Y. Martinez, J. Grima-Pettenati, C. Marque, F. Mounet and C. TeuliÓres, 2020. Wood architecture and composition are deeply remodeled in frost sensitive eucalyptus overexpressing cbf/dreb1 transcription factors. International Journal of Molecular Sciences 21: 3019-3019.
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  21. Cao, P.B., R. Ployet, C. Nguyen, A. Dupas, N. Ladouce, Y. Martinez, J.G. Pettenati, C. Marque, F. Mounet and C. TeuliÓres, 2020. Wood architecture and composition are deeply remodeled in frost sensitive Eucalyptus overexpressing CBF/DREB1 transcription factors. Inter. J. Mol. Sci., DOI:10.3390/ijms21083019.
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  22. Bằng, C.P., 2020. Metal transporter encoding gene families in Fabaceae: III. The zinc-iron permease (ZIP) gene family. Sci. Tech. Dev. J. Nat. Sci. 4: 387-400.
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  23. Bằng, C.P., 2020. Metal transporter encoding gene families in Fabaceae: III. The zinc-iron permease (ZIP) gene family. Sci. Tech. Dev. J. Nat. Sci. 4: 387-400.
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  24. Cao, B.P., D.X. Vu, L.T. Dang, 2019. Effect of salicylic acid on some physiological parameters in micropropagated Bac Kan local alpinia (Alpinia coriandriodora D. Fang) under drought condition. Sci. Tech. Dev. J. Nat. Sci. 2: 44-49.
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  25. Bang Phi Cao 2019. Physiological and biochemical changes of micropropagated Dendrobium anosmum Lindl. in ex vitro acclimatization process Sci. Tech. Dev. J. - Nat. Sci. 2: 59-67.
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  26. Cao. B.P., 2018. Genome-wide analysis of NIN-like protein (NLP) family in maize (Zea mays L.) by using bioinformatic methods. Sci. Tech. Dev. J. Nat. Sci., 1: 39-47.
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  27. Nguyen H.C., P.B. Cao, H.S. Clemente, R. Ployet, F. Mounet, N. Ladouce, L. Harvengt, C. Marque and C. Teulieres, 2017. Special trends in cbf and dreb2 groups ineucalyptus gunniivseucalyptus grandissuggest that cbf are master players in the trade-off between growth and stress resistance. Physiologia Plantarum 159: 445-467.
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  28. Huyen, T.T.T., D.T. Tuyen, L.T. Thuy and C.P. Bang, 2017. Influence of three nutrient solutions: Hoagland, TC mobi and knop on the growth, fruit yield and quality of hydroponic tomato chanoka F1. Hue Uni. J. Sci.: Nat. Sci., 126: 165-174.
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  29. Cao, B.P. and A. T.V. Le., 2017. Metal transporter encoding gene families in Fabaceae: II. Cation/H+ exchanger (CAX) encoding genes. Sci. Tech. Dev. J. -Nat. Sci. 1: 27-36.
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  30. Bang, C.P., 2017. PhÍn tØch in Silico họ gen Glutamate dehydrogenase ở cÍy đậu tương (Glycine max L.). Nat. Sci. Technol., 33: 1-8.
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  31. Li,Q., H. Yu, P.B. Cao, N. Fawal, C. Mathe, S. Azar, H.C. Wang, A.A. Myburg, J.G. Pettenati, C. Marque, C. TeuliÓres, C. Dunand, 2015. Explosive tandem and segmental duplications of multigenic families in Eucalyptus grandis. Genome Bio. Evol., 7: 1068-1081.
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  32. Li, Q., H. Yu, P.B. Cao, N. Fawal and C. Mathe et al., 2015. Explosive tandem and segmental duplications of multigenic families in eucalyptus grandis. Gen. Biol. Evol., 7: 1068-1081.
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  33. Cao, P.B., S. Azar, H. SanClemente, F. Mounet, C. Dunand, G. Marque, C. Marque, C. TeuliÓres, 2015. Genome-wide analysis of the AP2/ERF family in Eucalyptus grandis: An Intriguing Over-representation of stress-responsive DREB1/CBF genes PLoS ONE, DOI:10.1371/journal.pone.0121041.
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  34. Cao P.B., S. Azar, H. SanClemente, F. Mounet, C. Dunand, G. Marque, C. Marque and C. TeuliÓres, 2015. Genome-wide analysis of the ap2/erf family in eucalyptus grandis: an intriguing over-representation of stress-responsive dreb1/cbf genes. PLOS ONE 10: e0121041-e0121041.
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  35. Wisniewski, M., A. Nassuth, C. TeuliÓres, C. Marque, J. Rowland, P.C. Cao and A. Brown, 2014. Genomics of cold hardiness in woody plants. Cri. Rev. Plant Sci., 33: 92-124.
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  36. Wisniewski M., A. Nassuth, C. TeuliÓres, C. Marque, J. Rowland, P.B. Cao and A. Brown, 2014. Genomics of cold hardiness in woody plants. Critical Reviews in Plant Sciences 33: 92-124.
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  37. Keller, G., P.B. Cao, H.S. Clemente, W.El. Kayal, C. Marque and C. TeuliÓres, 2013. Transcript profiling combined with functional annotation of 2,662 ESTs provides a molecular picture of Eucalyptus gunnii cold acclimation. Trees doi:10.1007/s00468-013-0918-5.
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  38. Keller G., P.B. Cao, H.S. Clemente, W.E. Kayal, C. Marque and C. TeuliÓres, 2013. Transcript profiling combined with functional annotation of 2,662 ests provides a molecular picture of eucalyptus gunnii cold acclimation. Trees 27: 1713-1735.
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