International Journal of Plant Research

International Journal of Plant Research publishes the best original research papers in all key areas of modern plant biology from the world's leading laboratories, International Journal of Plant Research provides a dynamic forum for this ever growing international research community. It is an international publication that gathers and disseminates fundamental knowledge in all areas of plant sciences.

Abu Hena Mostafa Kamal

Editorial Board Member of International Journal of Plant Research

Post-doctoral Fellow, Dept. of Chemistry and Biochemistry, University of Texas at Arlington, USA

Research Areas

Proteomics (Plant and stem Cells)

Education

2011Ph.DChungbuk National University,South Korea
2007M.ScBangladesh Agricultural University, Bangladesh
2004B.ScPatuakhali Science & Technology University, Bangladesh

Experience

2015-presentPost-Doctoral Researcher. Dept. of Chemistry and Biochemistry, University of Texas at Arlington, Texas, USA.
2013-2015JSPS Post-Doc. Fellow. National Agriculture and Food Research Organization, Institute of Crop Science (NICS), Tsukuba, Japan.
2011-2013Post-Doc. Fellow. Korea Research Institute of Bioscience and Biotechnology (KRIBB), Research Center of Integrative Cellulomics, Daejeon, South Korea.

Academic Achievement

2014. Best Poster Award, The 6th International Symposium on Frontiers in Agricultural Proteome Research, the 1st AOAPO conference & the 5th Plant Proteomics Conference, Harbin, China.
2010. Best Oral Presentation, Korean Society of Crop Science, Novotel Ambassador Hotel, Busan, Korea.
2010. Best Oral Presentation, Korean Society of Breeding Science, Chungnam National University, Daejeon, Korea.
2009. Best Oral Presentation, Korean Society of Plant Resources, Kyung Hee University, Suwon, Korea.

Membership

Journal of Proteoeme Research
Journal of Proteomics
Phytochemistry
Molecular Biology Reports
Journal of Crop Science and Biotechnology
Brazilian Journal of Botany
Frontier in Plant Science (Plant Proteomics)
Frontier in Plant Science (Crop Science and Horticulture)
International Journal of Plant Research
Journal of Plant Science

Publications: Journals

[1]  Roy SK, Cho SW, Kwon SJ, Kamal AH, Kim SW, Oh MW, Lee MS, Chung KY, Xin Z, Woo SH.Morpho-Physiological and Proteome Level Responses to Cadmium Stress in Sorghum.PLoS One.2016;11(2):e0150431.
[2]  Kamal, A. H. M., Komatsu, S. (2016) Jasmonic acid induced protein response to biophoton emissions and flooding stress in soybean. Journal of Proteomics, 133: 33-47.
[3]  Kamal, A. H. M., Komatsu, S. (2016) Proteins involved in biophoton emission and flooding-stress responses in soybean under light and dark conditions. Molecular Biology Reports, 43: 73-89.
[4]  Kamal, A. H. M., Komatsu, S. (2015) Involvement of reactive oxygen species and mitochondrial proteins in biophoton emission in the roots of soybean plants under flooding stress. Journal of Proteome Research, 14: 2219-2236.
[5]  Komatsu, S., Kamal, A. H. M., Hossain, Z. (2014) Wheat Proteomics: Modulation of the wheat proteome and abiotic stress acclimation. Frontier in Plant Science, 5:684.
[6]  Kamal, A. H. M., Rashid, H., Sakata, S., Komatsu, S. (2015): Gel-free quantitative proteomics approach to identify cotyledon proteins in soybean under flooding stress. Journal of Proteomics, 1 1 2: 1-1 3.
[7]  Yu, J., Roy, S. K., Kamal, A. H. M., Cho, K., Kwon, S. J., Cho, S. W., So, Y. S., Holland, J. B., Woo, S. H. (2014): Protein profiling reveals novel proteins in pollen and pistil of W22 (ga1; Ga1) in maize. Proteomes, 2: 258-271.
[8]  Kamal, A. H. M., Pervez, Z. (2014) Current aspects of plant biology based on agriculture. International Journal of Plant Research, 4(4A):0-0. DOI:10.5923/s.plant.201401.
[9]  Roy, S. K., Kamal, A. H. M., Kim, H. R., Kwon, S. J., Jang, H. Y., Ko, J. H., Kim, J. I., Ko, T. S., Xin, Z., Woo, S. H. (2014): Proteome profiling of seed from inbred and mutant line of Sorghum (Sorghum bicolor). Australian Journal of Crop Science, 8: 606-611.
[10]  Komatsu, S., Kamal, A. H. M., Makino, T., Zahed Hossain, Z. (2014): Ultraweak photon emission and proteomics analyses in plants under abiotic stress. BBA-protein and proteomics, 1844:  1208-1218.
[11]  Kim, D. E., Roy, S. K., Kamal, A. H. M., Cho, K., Kwon, S. J., Cho, S. W., Park, C. S., Choi, J. S., Komatsu, S., Lee, M. S, Woo, S. H. (2014): Profiling of mitochondrial proteome in wheat roots. Molecular Biology Reports, 41:5359-66.
[12]  Kamal, A. H. M., Han, B. S., Choi, J. S., Cho, K., Kim, S. Y., Kim, W. K., Lee, S. C., Bae, K. H. (2014): Proteomic analysis of the effect of retinoic acids on the human breast cancer cell line MCF-7. Molecular Biology Reports, 41: 3499-3507.
[13]  Oh, M. W., Roy, S. K., Kamal, A. H. M., Cho, K., Cho, S. W., Park, C. S., Choi, J. S., Komatsu, S., Woo, S. H. (2014): Proteome analysis of roots of wheat seedlings under aluminum stress. Molecular Biology Reports, 41: 671-681.
[14]  Kamal, A. H. M., Cho, K., Choi, J. S., Bae, K. H., Komatsu, S., Nobuyuki Uozumi. N., Woo, S. H. (2013): The wheat chloroplastic proteome. Journal of Proteomics, 93: 326-342.
[15]  Kamal, A. H. M., Kim, W. K., Cho, K., Park, A., Min, J. K., Han, B. S., Park, S. G., Lee, S. C., Bae, K. H. (2013): Investigation of adipocyte proteome during the differentiation of brown preadipocytes. Journal of Proteomics, 94:  327-336.
[16]  Woo, S. H., Kamal, A. H. M., Park, S. M., Kwon, S. O., Park, S. U., Roy, S. K., Lee, J. Y., Choi, J. S. (2013): Relative distribution of free amino acids in buckwheat. Food science and biotechnology, 22: 665-669.
[17]  Kamal, A. H. M., Cho, K., Choi, J. S., Yu-Jin, Chul-Soo Park, Jun Sang Lee, Woo, S. H. (2012): Patterns of protein expression in water-stressed wheat chloroplasts. Biologia Plantarum, 57: 305-312.
[18]  Kamal, A. H. M., Cho, K., Kim, D. E., Uozumi, N., Chung, K. Y., Lee, S. Y., Choi, J. S., Cho, S. W., Shin, C. S., Woo, S. H. (2012): Changes in physiology and protein abundance in salt-stressed wheat chloroplasts. Molecular Biology Reports, 39:  9059-9074.
[19]  Kamal, A. H. M., Jang, I. D., Kim, D. E., Suzuki, T., Chung, K. Y., Choi, J. S., Lee, M. S., Park, C. H., Park, S. U., Lee, S. H, Jeong, H. S., Woo, S. H. (2012): Proteomics Analysis of embryo and endosperm from mature common buckwheat seeds. Journal of Plant Biology, 54: 81-91.
[20]  Kamal, A. H. M., Cho, K., Komatsu, S., Uozumi, N., Choi, J. S., Woo, S. H. (2011): Towards an understanding of wheat chloroplasts: a methodical investigation of thylakoid proteome. Molecular Biology Reports, 39: 5069-5083.
[21]  Lee, M. J., Choi, J. S., Cha, S. W., Lee, K. S., Lee, Z. W., Hwang, G. S., Lee, S. H., Kamal, A. H. M., Jung, Y. A., Seung, N. K., Woo, S. H. (2011): Variation in the ginsenoside profiles of cultivated ginseng (Panax ginseng C.A. Meyer) landraces in Korea. Process Biochemistry, 46:  258-264.
[22]  Han, M. H., Kamal, A. H. M., Huh, Y. S., Young, J. A., Bae, J. S., Chung, K. Y., Lee, M. S., Park, S. U., Jeong, H. S., Woo, S. H. (2011): Regeneration of plantlet via somatic embryogenesis from hypocotyls of tartary buckwheat (Fagopyrum tataricum). Australian Journal of Crop Science, 5: 865-869.
[23]  Kim, A. R., Kamal, A. H. M., Seo, Y. W., Park, C. S., Nam, J. H., Kim, S. I., Choi, J. S., Woo, S. H. (2011): Leaf proteome analysis of wheat-rye translocation lines. Australian Journal of Crop Science, 5: 1670-1677.
[24]  Shin, K. H., Kamal, A. H. M., Cho, K., Choi, J. S., Yu, J., Paek. N. C., Lee, Y. W., Lee, J. K., Park, J. C., Kim, H. T., Woo, S. H. (2011): Defense proteins are induced in wheat spikes exposed to Fusarium graminearum. Plant Omics, 4: 270-277.
[25]  Kim, K. H., Kamal, A. H. M., Shin, K. H., Choi, J. S., Heo, H. Y., Woo, S. H. (2010): Large-Scale Proteomics investigation in wild relatives (A, B, D genome) in wheat. Acta Biochimica et Biophysica Sinica, 42: 709-716.
[26]  Kim, K. H., Kamal, A. H. M., Shin, K. H., Choi, J. S., Park, C. S., Heo, H. Y., Woo, S. H. (2010): Wild relatives of the wheat grain proteome. Journal of Plant Biology, 53: 344-357.
[27]  Kamal, A. H. M., Kim, K. H., Shin, K. H., Kim, D. E., Oh, M. W., Choi, J. S., Hirano, H., Heo, H. Y., Woo, S. H. (2010): Proteomics-based dissection of biotic stress-responsive proteins in bread wheat (Triticum aestivum L.). African Journal of Biotechnology, 9: 7239-7255.
[28]  Woo, S. H., Kamal, A. H. M., Tatsuro, S., Campbell, C. G., Adachi, T., Yun, Y. H., Chung, K. Y., Choi, J. S. (2010): Buckwheat (Fagopyrum esculentum Moench.): concepts, prospects and potential. The European Journal of Plant Science and Biotechnology, 4 (SI 1): 1-16.
[29]  Shin, D. H., Kamal, A. H. M., Suzuki, T, Yun, T. H., Lee, M. S., Chung, K. Y., Jeong, H. S., Park, C. H., Choi, J. S., Woo, S. H. (2010): Reference proteome map of buckwheat (Fagopyrum esculentum and Fagopyrum tataricum) leaf and stem cultured under light or dark. Australian Journal of Crop Science, 4: 633-641.
[30]  Kamal, A. H. M., Kim, K. H., Shin, K. H., Choi, J. S., Baik, B. K., Tsujimoto, H., Heo, H. Y., Park, C. S., Woo, S. H. (2010): Abiotic stress responsive proteins of wheat grain determined using proteomics technique. Australian Journal of Crop Science, 4: 196-208.
[31]  Kamal, A. H. M., Choi, J. S., Cho, Y. G., Kim, H. S., Song, B. H., Lee, C. W., Woo, S. H. (2010): Comprehensive proteome analysis using quantitative proteomic technologies. Korean Journal of Plant Biotechnology, 37: 197-205.
[32]  Shin, D. H., Kamal, A. H. M., Yun, Y. H., Bae, J. S., Lee, Y. S., Lee, M. S., Chung, K. Y., Woo, S. H. (2009): Enhanced seed development in the progeny from the interspecific backcross (Fagopyrum esculentum × F. homotropicum) × F. esculentum). Korean Journal of Plant Resource, 22: 209-214.
[33]  Kamal, A. H. M., Kim, K. H., Shin, K. H., Seo, H. S., Tsujimoto, H., Heo, H. Y., Choi, J. S., Park, C. S., Woo, S. H. (2009): Diversity of novel glutenin subunits in bread wheat (Triticum aestivum L.). Journal of Plant Biology, 52: 533-542.
[34]  Kamal, A. H. M., Kim, K. H., Shin, D. H., Seo, H. S., Shin, K. H., Park, C. S., Heo, H. Y., Woo, S. H. (2009): Proteomics profile of pre-harvest sprouting wheat by using MALDI-TOF Mass Spectrometry. Plant Omics, 2: 110-119.
[35]  Kamal, A. H. M., Park, C. S., Heo, H. Y., Chung, K. Y., Cho, Y. G., Kim, H. S., Song, B. H., Lee, C. W., Woo, S. H. (2009): Proteomics approach on puroindoline gene of pre-harvest sprouting wheat. Korean Journal of Breeding Science, 41: 205-212.
[36]  Alam, M. A., Kamal, A. H. M., Pervin, N., Khatun, S., Prodhan, M. A. (2008): In vitro plantlet regeneration through anther and filament culture in oilseed Brassica. International Journal of Bioresearch, 4: 12-18.
[37]  Pervin, N., Alam, M. A., Kamal, A. H. M., Haque, G. K. M. N., Mia, A. (2008): Optimization of in vitro regeneration potentiality of existing genotypes of jute (Corchorus Capsularis). Bangladesh Journal of Agrofrestry and Environment, 2:  83-86.
[38]  Kamal, A. H. M., Alam, M. A., Pervin, N., Prodhan, M. A., Patwary, A. K. (2008): Varietal responses in different concentration of plant growth regulators for callus induction and regeneration of wheat. International Journal of Bioresearch, 4: 26-32.

Publications: Books/Book Chapters

[1]  Kamal, A. H. M., Woo, S. H. (2012): Wheat Chloroplast and Stress Physiology. First edited by Yasmine Watson; LAP LAMBERT Academic Publishing GmbH & Co. KG, Germany., ISBN: 978-3-659-20385-5.
[2]  Kamal, A. H. M. (2011): Effect of Plant Growth Regulators for Regeneration of Wheat. First edited by Hannah Olsen; LAP LAMBERT Academic Publishing GmbH & Co. KG, Germany., ISBN: 978-3-8465-1989-9.