Billker:Rita Tewari: Difference between revisions
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Publication | Publication | ||
1. Tewari R, Dorin D, Moon R, Doerig C and Billker O (2005) | 1. '''Tewari R''', Dorin D, Moon R, Doerig C and Billker O (2005) | ||
An atypical mitogen activated protein kinase controls cytokinesis and flagellar motility during male gamete formation in a malarial parasite. | An atypical mitogen activated protein kinase controls cytokinesis and flagellar motility during male gamete formation in a malarial parasite. | ||
Mol. Microbiol. 58(5), 1253-1263 | Mol. Microbiol. 58(5), 1253-1263 | ||
2. Reininger L, Billker O, Tewari R, A Mukhopadhyay A, Fennel C, Dorin-Semblat D, Doerig C, Goldring D, Ranford-Cartwright L, Packer J and C. Doerig (2005). | 2. Reininger L, Billker O, '''Tewari R''', A Mukhopadhyay A, Fennel C, Dorin-Semblat D, Doerig C, Goldring D, Ranford-Cartwright L, Packer J and C. Doerig (2005). | ||
A NIMA-related protein kinase is essential for completion of the sexual cycle of malaria parasites. | A NIMA-related protein kinase is essential for completion of the sexual cycle of malaria parasites. | ||
J. Biol. Chem. 280(36), 31957-64. | J. Biol. Chem. 280(36), 31957-64. | ||
3. Tewari R, Rathore D and Crisanti A (2005) | 3. '''Tewari R''', Rathore D and Crisanti A (2005) | ||
Motility and infectivity of rodent malaria Plasmodium berghei sporozoites expressing avian Plasmodium gallinaceum circumsporozoite protein. | Motility and infectivity of rodent malaria Plasmodium berghei sporozoites expressing avian Plasmodium gallinaceum circumsporozoite protein. | ||
Cell. Microbiol.7, 699-707. | Cell. Microbiol.7, 699-707. | ||
4. Tewari R, Ogun S, Gunaratne RS, Crisanti A and Holder AA (2005) | 4. '''Tewari R''', Ogun S, Gunaratne RS, Crisanti A and Holder AA (2005) | ||
Disruption of a Plasmodium berghei Merozoite Surface Protein -7 gene modulates parasite growth in vivo. | Disruption of a Plasmodium berghei Merozoite Surface Protein -7 gene modulates parasite growth in vivo. | ||
Blood. 105,394-6. Epub 2004 Aug 31. | Blood. 105,394-6. Epub 2004 Aug 31. | ||
5. Billker O, Dechamps S, Tewari R, Wenig G, Franke-Fayard B and Brinkmann V (2004) | 5. Billker O, Dechamps S, '''Tewari R''', Wenig G, Franke-Fayard B and Brinkmann V (2004) | ||
Calcium and a Calcium Dependent Protein Kinase Regulate Gamete Formation and Mosquito Transmission in a Malaria Parasite. | Calcium and a Calcium Dependent Protein Kinase Regulate Gamete Formation and Mosquito Transmission in a Malaria Parasite. | ||
Cell. 14,503-14. | Cell. 14,503-14. | ||
6. Edvardsen RB, Lerat E, Maeland AD, Fla t M, Tewari R, Jensen MF, Lehrach H, Reinhardt R, Seo HC, Chourrout D(2004) | 6. Edvardsen RB, Lerat E, Maeland AD, Fla t M, '''Tewari R''', Jensen MF, Lehrach H, Reinhardt R, Seo HC, Chourrout D(2004) | ||
Hypervariable and highly divergent intron-exon organizations in the chordate Oikopleura dioica. | Hypervariable and highly divergent intron-exon organizations in the chordate Oikopleura dioica. | ||
J. Mol. Evol. 59,448-57 | J. Mol. Evol. 59,448-57 | ||
7. Gillemans N, McMorrow T, Tewari R, Wai AW, Burgtorf C, Drabek D, Ventress N, Langeveld A, Higgs D, Tan-Un K, Grosveld F, and Philipsen S (2003) | 7. Gillemans N, McMorrow T, '''Tewari R''', Wai AW, Burgtorf C, Drabek D, Ventress N, Langeveld A, Higgs D, Tan-Un K, Grosveld F, and Philipsen S (2003) | ||
A functional and comparative analysis of globin loci in pufferfish and man. | A functional and comparative analysis of globin loci in pufferfish and man. | ||
Blood 101, 2842-2849. | Blood 101, 2842-2849. | ||
8. Tewari R, Spaccapelo R, Bistoni F, Holder AA and Crisanti A (2002) | 8. '''Tewari R''', Spaccapelo R, Bistoni F, Holder AA and Crisanti A (2002) | ||
Function of Region I and II adhesive motifs of Plasmodium falciparum circumsporozoite protein in sporozoite motility and infectivity. | Function of Region I and II adhesive motifs of Plasmodium falciparum circumsporozoite protein in sporozoite motility and infectivity. | ||
J. Biol. Chem. 49, 47613-47618. | J. Biol. Chem. 49, 47613-47618. | ||
9. Kropf P, Herath S, Tewari R, Syed N, Klemenz R, Müller I (2002) | 9. Kropf P, Herath S, '''Tewari R''', Syed N, Klemenz R, Müller I (2002) | ||
Identification of two distinct subpopulations of Leishmania major-specific T helper 2 cells. | Identification of two distinct subpopulations of Leishmania major-specific T helper 2 cells. | ||
Infect. Immun. 70, 5512-5520. | Infect. Immun. 70, 5512-5520. | ||
10. Gillemans N, Tewari R, Lindeboom F, Rottier R, de Wit T, Wijgerde M, Grosveld F and Philipsen S (1998) | 10. Gillemans N, '''Tewari R''', Lindeboom F, Rottier R, de Wit T, Wijgerde M, Grosveld F and Philipsen S (1998) | ||
Altered DNA -binding specificity mutants of EKLF and Sp1 show that EKLF is an activator of -globin locus control region in vivo. | Altered DNA -binding specificity mutants of EKLF and Sp1 show that EKLF is an activator of -globin locus control region in vivo. | ||
Gen. & Dev.15, 2863-2873. | Gen. & Dev.15, 2863-2873. | ||
11. Tewari R, Gillemans N, Wijgerde M , Von Lindern M , Grosveld F and Philipsen S (1998) | 11. '''Tewari R''', Gillemans N, Wijgerde M , Von Lindern M , Grosveld F and Philipsen S (1998) | ||
Erythroid Kruppel - like factor (EKLF) is active in primitive and definitive erythroid cells and is required for the function of 5’HS3 of -globin locus control region. | Erythroid Kruppel - like factor (EKLF) is active in primitive and definitive erythroid cells and is required for the function of 5’HS3 of -globin locus control region. | ||
EMBO 17, 2334-2341. | EMBO 17, 2334-2341. | ||
12. Tewari R, Gillemans N, Harper A, Wijgerde M , Zafarana G, Drabek , Grosveld F, and Philipsen S. (1996) | 12. '''Tewari R''', Gillemans N, Harper A, Wijgerde M , Zafarana G, Drabek , Grosveld F, and Philipsen S. (1996) | ||
The human -globin locus control region confers an early embryonic erythroid -specific expression pattern to a basic promoter driving the bacterial lacZ gene. | The human -globin locus control region confers an early embryonic erythroid -specific expression pattern to a basic promoter driving the bacterial lacZ gene. | ||
Development 122, 3991-3999. | Development 122, 3991-3999. | ||
13. Ellis J, Philipsen S, Strouboulis J, Pruzina S, Tewari R, Gillemans N, Drabek, D, Harper A, Grosveld F and Fraser P (1995). | 13. Ellis J, Philipsen S, Strouboulis J, Pruzina S, '''Tewari R''', Gillemans N, Drabek, D, Harper A, Grosveld F and Fraser P (1995). | ||
The regulation of human globin gene expression; the roles of 5’HS1-4. Proceedings of the Ninth Conference on Hemoglobin Switching held at Orcas Island, 10-14 June 1994, editor Dr. G. Stamatoyannopoulos, pg. 29-38 | The regulation of human globin gene expression; the roles of 5’HS1-4. Proceedings of the Ninth Conference on Hemoglobin Switching held at Orcas Island, 10-14 June 1994, editor Dr. G. Stamatoyannopoulos, pg. 29-38 | ||
14. Nakayama I, Foresti F, Tewari R, Schartl M and Chourrout D (1994) | 14. Nakayama I, Foresti F, '''Tewari R''', Schartl M and Chourrout D (1994) | ||
Sex chromosome polymorphism and heterogametic males revealed by two cloned DNA probes in ZW/ZZ fish Leporinus elongatus. | Sex chromosome polymorphism and heterogametic males revealed by two cloned DNA probes in ZW/ZZ fish Leporinus elongatus. | ||
Chromosoma 103, 31-39. | Chromosoma 103, 31-39. | ||
15. Tewari R , Michard-Vanhee C, Perrot E and Chourrout D (1992) | 15. '''Tewari R''' , Michard-Vanhee C, Perrot E and Chourrout D (1992) | ||
Mendelian transmission, structure and expression of transgenes following their injection into the cytoplasm of trout eggs. | Mendelian transmission, structure and expression of transgenes following their injection into the cytoplasm of trout eggs. | ||
Transgenic Research 1, 250-260. | Transgenic Research 1, 250-260. | ||
16. Tewari R and Rao SRV (1991) | 16. '''Tewari R''' and Rao SRV (1991) | ||
Replication status of the fragile X chromosome and its implications for reproductive performance in the Indian mole rat (Nesokia indica). | Replication status of the fragile X chromosome and its implications for reproductive performance in the Indian mole rat (Nesokia indica). | ||
J.Reprod. Fert. 91, 203-206. | J.Reprod. Fert. 91, 203-206. | ||
17. Thelma BK, Tewari R, Juyal RC and Rao SRV (1991). | 17. Thelma BK, '''Tewari R''', Juyal RC and Rao SRV (1991). | ||
Random/non random X-inactivation in Nesokia indica: possible influence of heterochromatin. | Random/non random X-inactivation in Nesokia indica: possible influence of heterochromatin. | ||
Cytogen. Cell Gen. 56, 87-90. | Cytogen. Cell Gen. 56, 87-90. | ||
18. Tewari R, Juyal RC, Rao SRV and Thelma BK (1989). | 18. '''Tewari R''', Juyal RC, Rao SRV and Thelma BK (1989). | ||
Significance of fragile sites on the sex chromosome of Nesokia indica. | Significance of fragile sites on the sex chromosome of Nesokia indica. | ||
Nucleus 32, 93-102. | Nucleus 32, 93-102. | ||
Line 81: | Line 81: | ||
19. Thelma BK, Juyal RC, Tewari R and Rao SRV (1988). | 19. Thelma BK, Juyal RC, '''Tewari R''' and Rao SRV (1988). | ||
Does heterochromatin potentiate speciation? A study in Nesokia. | Does heterochromatin potentiate speciation? A study in Nesokia. | ||
Cytogen. Cell Gen. 47, 204-208. | Cytogen. Cell Gen. 47, 204-208. | ||
20. Tewari R, Juyal RC, Thelma BK, Das BC and Rao SRV (1987). | 20. '''Tewari R''', Juyal RC, Thelma BK, Das BC and Rao SRV (1987). | ||
Folate sensitive fragile sites on the X-chromosome heterochromation of the Indian mole rat, Nesokia indica, | Folate sensitive fragile sites on the X-chromosome heterochromation of the Indian mole rat, Nesokia indica, | ||
Cytogen. Cell Gen. 44, 11-17. | Cytogen. Cell Gen. 44, 11-17. | ||
21. Simon MM, Ali S, Tewari R, Simon HG, Muller-Hermelink HK and EpplenJT (1986) | 21. Simon MM, Ali S, '''Tewari R''', Simon HG, Muller-Hermelink HK and EpplenJT (1986) | ||
Leukemic cells arise from cloned cytotoxic lymphocytes during cell culture. | Leukemic cells arise from cloned cytotoxic lymphocytes during cell culture. | ||
Eur. J. Immun. 16, 1269-1276. | Eur. J. Immun. 16, 1269-1276. |
Revision as of 14:29, 6 September 2006
I am a Research Lecturer asociated to BillkerLab
Major reserach interest on "Functional analysis of malaria parasite-host cell interactions in vivo using gene targeting". Presentally working on a genome-wide systematic deletion analysis of Plasmodium berghei protein kinases to reveal molecular mechanisms of life cycle regulation.
my email: r.tewari[AT]imperial.ac.uk
Publication
1. Tewari R, Dorin D, Moon R, Doerig C and Billker O (2005) An atypical mitogen activated protein kinase controls cytokinesis and flagellar motility during male gamete formation in a malarial parasite. Mol. Microbiol. 58(5), 1253-1263
2. Reininger L, Billker O, Tewari R, A Mukhopadhyay A, Fennel C, Dorin-Semblat D, Doerig C, Goldring D, Ranford-Cartwright L, Packer J and C. Doerig (2005). A NIMA-related protein kinase is essential for completion of the sexual cycle of malaria parasites. J. Biol. Chem. 280(36), 31957-64.
3. Tewari R, Rathore D and Crisanti A (2005) Motility and infectivity of rodent malaria Plasmodium berghei sporozoites expressing avian Plasmodium gallinaceum circumsporozoite protein. Cell. Microbiol.7, 699-707.
4. Tewari R, Ogun S, Gunaratne RS, Crisanti A and Holder AA (2005) Disruption of a Plasmodium berghei Merozoite Surface Protein -7 gene modulates parasite growth in vivo. Blood. 105,394-6. Epub 2004 Aug 31.
5. Billker O, Dechamps S, Tewari R, Wenig G, Franke-Fayard B and Brinkmann V (2004) Calcium and a Calcium Dependent Protein Kinase Regulate Gamete Formation and Mosquito Transmission in a Malaria Parasite. Cell. 14,503-14.
6. Edvardsen RB, Lerat E, Maeland AD, Fla t M, Tewari R, Jensen MF, Lehrach H, Reinhardt R, Seo HC, Chourrout D(2004) Hypervariable and highly divergent intron-exon organizations in the chordate Oikopleura dioica. J. Mol. Evol. 59,448-57
7. Gillemans N, McMorrow T, Tewari R, Wai AW, Burgtorf C, Drabek D, Ventress N, Langeveld A, Higgs D, Tan-Un K, Grosveld F, and Philipsen S (2003) A functional and comparative analysis of globin loci in pufferfish and man. Blood 101, 2842-2849.
8. Tewari R, Spaccapelo R, Bistoni F, Holder AA and Crisanti A (2002) Function of Region I and II adhesive motifs of Plasmodium falciparum circumsporozoite protein in sporozoite motility and infectivity. J. Biol. Chem. 49, 47613-47618.
9. Kropf P, Herath S, Tewari R, Syed N, Klemenz R, Müller I (2002) Identification of two distinct subpopulations of Leishmania major-specific T helper 2 cells. Infect. Immun. 70, 5512-5520.
10. Gillemans N, Tewari R, Lindeboom F, Rottier R, de Wit T, Wijgerde M, Grosveld F and Philipsen S (1998) Altered DNA -binding specificity mutants of EKLF and Sp1 show that EKLF is an activator of -globin locus control region in vivo. Gen. & Dev.15, 2863-2873.
11. Tewari R, Gillemans N, Wijgerde M , Von Lindern M , Grosveld F and Philipsen S (1998) Erythroid Kruppel - like factor (EKLF) is active in primitive and definitive erythroid cells and is required for the function of 5’HS3 of -globin locus control region. EMBO 17, 2334-2341.
12. Tewari R, Gillemans N, Harper A, Wijgerde M , Zafarana G, Drabek , Grosveld F, and Philipsen S. (1996) The human -globin locus control region confers an early embryonic erythroid -specific expression pattern to a basic promoter driving the bacterial lacZ gene. Development 122, 3991-3999.
13. Ellis J, Philipsen S, Strouboulis J, Pruzina S, Tewari R, Gillemans N, Drabek, D, Harper A, Grosveld F and Fraser P (1995). The regulation of human globin gene expression; the roles of 5’HS1-4. Proceedings of the Ninth Conference on Hemoglobin Switching held at Orcas Island, 10-14 June 1994, editor Dr. G. Stamatoyannopoulos, pg. 29-38
14. Nakayama I, Foresti F, Tewari R, Schartl M and Chourrout D (1994) Sex chromosome polymorphism and heterogametic males revealed by two cloned DNA probes in ZW/ZZ fish Leporinus elongatus. Chromosoma 103, 31-39.
15. Tewari R , Michard-Vanhee C, Perrot E and Chourrout D (1992) Mendelian transmission, structure and expression of transgenes following their injection into the cytoplasm of trout eggs. Transgenic Research 1, 250-260.
16. Tewari R and Rao SRV (1991) Replication status of the fragile X chromosome and its implications for reproductive performance in the Indian mole rat (Nesokia indica). J.Reprod. Fert. 91, 203-206.
17. Thelma BK, Tewari R, Juyal RC and Rao SRV (1991). Random/non random X-inactivation in Nesokia indica: possible influence of heterochromatin. Cytogen. Cell Gen. 56, 87-90.
18. Tewari R, Juyal RC, Rao SRV and Thelma BK (1989). Significance of fragile sites on the sex chromosome of Nesokia indica. Nucleus 32, 93-102.
19. Thelma BK, Juyal RC, Tewari R and Rao SRV (1988). Does heterochromatin potentiate speciation? A study in Nesokia. Cytogen. Cell Gen. 47, 204-208.
20. Tewari R, Juyal RC, Thelma BK, Das BC and Rao SRV (1987). Folate sensitive fragile sites on the X-chromosome heterochromation of the Indian mole rat, Nesokia indica, Cytogen. Cell Gen. 44, 11-17.
21. Simon MM, Ali S, Tewari R, Simon HG, Muller-Hermelink HK and EpplenJT (1986) Leukemic cells arise from cloned cytotoxic lymphocytes during cell culture. Eur. J. Immun. 16, 1269-1276.