User:Md. Badrul Arefin: Difference between revisions
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I am a lab member of Ulrich Theopold group at Stockholm University. I am working on insect immunity, particularly ''Drosophila'' immunity towards entomopathogenic nematodes (EPN). Until now, our knowledge on Drosophila immunity mostly comes from studies of bacterial and fungal infections. However, nematode parasites are considered one the biggest threats to human health, causing diseases leading to death. Even when they are not killing, they could stay in the host and cause chronic diseases. Lymphatic filariasis is such an example which is caused by Wuchereria bancrofti (filarial nematode). These lymphatic-resident parasistes can cause severe damages to the lymphatic system, resulting in the development of lifelong disabilities. Recent studies estimate that around 3 billion people are infected by nematodes globally. Besides human health, nematodes have devastating consequences on livestock and in agriculture.In order to minimize or eradicate these effects, we need a model that is in use for host defense. Powerful genetics in ''Drosophila'' make it available to study human diseases as well. So take these into an account the whole scenario, we employ entomopathogenic nematodes to uncover the host immune response in Drosophila. Recently we performed a genome-wide transcriptional analysis of ''Drosophila'' response against EPN in order to get a complete picture upon nematode infection. Currently I am focusing on the role of the identified genes against EPN. | I am a lab member of Ulrich Theopold group at Stockholm University. I am working on insect immunity, particularly ''Drosophila'' immunity towards entomopathogenic nematodes (EPN). Until now, our knowledge on Drosophila immunity mostly comes from studies of bacterial and fungal infections. However, nematode parasites are considered one the biggest threats to human health, causing diseases leading to death. Even when they are not killing, they could stay in the host and cause chronic diseases. Lymphatic filariasis is such an example which is caused by Wuchereria bancrofti (filarial nematode). These lymphatic-resident parasistes can cause severe damages to the lymphatic system, resulting in the development of lifelong disabilities. Recent studies estimate that around 3 billion people are infected by nematodes globally. Besides human health, nematodes have devastating consequences on livestock and in agriculture.In order to minimize or eradicate these effects, we need a model that is in use for host defense. Powerful genetics in ''Drosophila'' make it available to study human diseases as well. So take these into an account the whole scenario, we employ entomopathogenic nematodes to uncover the host immune response in ''Drosophila''. Recently we performed a genome-wide transcriptional analysis of ''Drosophila'' response against EPN in order to get a complete picture upon nematode infection. Currently I am focusing on the role of the identified genes against EPN. | ||
==Education== | ==Education== |
Revision as of 12:19, 29 April 2014
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Contact Info
- Md. Badrul Arefin
- Stockholm University
- Department of Molecular Biosciences,
- The Wenner-Gren Institute
- Stockholm, Sweden
- email: badrul.arefin@su.se
I am a lab member of Ulrich Theopold group at Stockholm University. I am working on insect immunity, particularly Drosophila immunity towards entomopathogenic nematodes (EPN). Until now, our knowledge on Drosophila immunity mostly comes from studies of bacterial and fungal infections. However, nematode parasites are considered one the biggest threats to human health, causing diseases leading to death. Even when they are not killing, they could stay in the host and cause chronic diseases. Lymphatic filariasis is such an example which is caused by Wuchereria bancrofti (filarial nematode). These lymphatic-resident parasistes can cause severe damages to the lymphatic system, resulting in the development of lifelong disabilities. Recent studies estimate that around 3 billion people are infected by nematodes globally. Besides human health, nematodes have devastating consequences on livestock and in agriculture.In order to minimize or eradicate these effects, we need a model that is in use for host defense. Powerful genetics in Drosophila make it available to study human diseases as well. So take these into an account the whole scenario, we employ entomopathogenic nematodes to uncover the host immune response in Drosophila. Recently we performed a genome-wide transcriptional analysis of Drosophila response against EPN in order to get a complete picture upon nematode infection. Currently I am focusing on the role of the identified genes against EPN.
Education
- 2011- present, PhD student, Department of Molecular Biosciences, The Wenner-Gren Institute, Stockholm University
- 2010, M. Sc in Biotechnology, Lund University, Sweden
- 2006, B. Sc in Biotechnology & Genetic Engineering, Khulna University, Bangladesh
Research interests
- Interest 1
- Interest 2
- Interest 3
Publications
- Goldbeter A and Koshland DE Jr. An amplified sensitivity arising from covalent modification in biological systems. Proc Natl Acad Sci U S A. 1981 Nov;78(11):6840-4. DOI:10.1073/pnas.78.11.6840 |
- JACOB F and MONOD J. Genetic regulatory mechanisms in the synthesis of proteins. J Mol Biol. 1961 Jun;3:318-56. DOI:10.1016/s0022-2836(61)80072-7 |
leave a comment about a paper here
- ISBN:0879697164