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M H Rodriguez

Showing results (61-70 of 72) with videos related to

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Experimental Parasitology|August 31, 2001
Plasmodium vivax: ookinete destruction and oocyst development arrest are responsible for Anopheles albimanus resistance to circumsporozoite phenotype VK247 parasitesL Gonzalez-Ceron, M H Rodriguez, F Santillan, et al.
Experimental Parasitology|November 10, 1998
Plasmodium vivax: a monoclonal antibody recognizes a circumsporozoite protein precursor on the sporozoite surfaceL Gonzalez-Ceron, M H Rodriguez, R A Wirtz, et al.
The American Journal of Tropical Medicine and Hygiene|January 1, 1997
Assessment of a remote sensing-based model for predicting malaria transmission risk in villages of Chiapas, MexicoL R Beck, M H Rodriguez, S W Dister, et al.
European Journal of Biochemistry|November 3, 1998
Structural information on a cecropin-like synthetic peptide, Shiva-3 toxic to the sporogonic development of Plasmodium bergheiJ Boisbouvier, A Prochnicka-Chalufour, A R Nieto, et al.
Photomedicine and Laser Surgery|July 5, 2013
Effects of photodynamic therapy on Gram-positive and Gram-negative bacterial biofilms by bioluminescence imaging and scanning electron microscopic analysisAguinaldo S Garcez, Silvia C Núñez, Nilton Azambuja, et al.
Parassitologia|July 1, 1993
Factors regulating natural transmission of Plasmodium berghei to the mosquito vector, and the cloning of a transmission-blocking immunogenR E Sinden, G C Barker, M J Paton, et al.
Journal of Clinical Microbiology|July 1, 1992
Circumsporozoite genotyping of global isolates of Plasmodium vivax from dried blood specimensK C Kain, A E Brown, H K Webster, et al.
The American Journal of Tropical Medicine and Hygiene|October 1, 1995
Biochemical systematics and population genetic structure of Anopheles pseudopunctipennis, vector of malaria in Central and South AmericaS Manguin, D R Roberts, E L Peyton, et al.
Insect Molecular Biology|April 2, 2004
Identification and characterization of gp65, a salivary-gland-specific molecule expressed in the malaria vector Anopheles albimanusC Montero-Solis, L Gonzalez-Ceron, M H Rodriguez, et al.
The American Journal of Tropical Medicine and Hygiene|September 1, 1994
Remote sensing as a landscape epidemiologic tool to identify villages at high risk for malaria transmissionL R Beck, M H Rodriguez, S W Dister, et al.
Pageof 8

Showing results (61-70 of 72) with videos related to

Sort By:
Pageof 8
Experimental Parasitology|August 31, 2001
Plasmodium vivax: ookinete destruction and oocyst development arrest are responsible for Anopheles albimanus resistance to circumsporozoite phenotype VK247 parasitesL Gonzalez-Ceron, M H Rodriguez, F Santillan, et al.
Experimental Parasitology|November 10, 1998
Plasmodium vivax: a monoclonal antibody recognizes a circumsporozoite protein precursor on the sporozoite surfaceL Gonzalez-Ceron, M H Rodriguez, R A Wirtz, et al.
The American Journal of Tropical Medicine and Hygiene|January 1, 1997
Assessment of a remote sensing-based model for predicting malaria transmission risk in villages of Chiapas, MexicoL R Beck, M H Rodriguez, S W Dister, et al.
European Journal of Biochemistry|November 3, 1998
Structural information on a cecropin-like synthetic peptide, Shiva-3 toxic to the sporogonic development of Plasmodium bergheiJ Boisbouvier, A Prochnicka-Chalufour, A R Nieto, et al.
Photomedicine and Laser Surgery|July 5, 2013
Effects of photodynamic therapy on Gram-positive and Gram-negative bacterial biofilms by bioluminescence imaging and scanning electron microscopic analysisAguinaldo S Garcez, Silvia C Núñez, Nilton Azambuja, et al.
Parassitologia|July 1, 1993
Factors regulating natural transmission of Plasmodium berghei to the mosquito vector, and the cloning of a transmission-blocking immunogenR E Sinden, G C Barker, M J Paton, et al.
Journal of Clinical Microbiology|July 1, 1992
Circumsporozoite genotyping of global isolates of Plasmodium vivax from dried blood specimensK C Kain, A E Brown, H K Webster, et al.
The American Journal of Tropical Medicine and Hygiene|October 1, 1995
Biochemical systematics and population genetic structure of Anopheles pseudopunctipennis, vector of malaria in Central and South AmericaS Manguin, D R Roberts, E L Peyton, et al.
Insect Molecular Biology|April 2, 2004
Identification and characterization of gp65, a salivary-gland-specific molecule expressed in the malaria vector Anopheles albimanusC Montero-Solis, L Gonzalez-Ceron, M H Rodriguez, et al.
The American Journal of Tropical Medicine and Hygiene|September 1, 1994
Remote sensing as a landscape epidemiologic tool to identify villages at high risk for malaria transmissionL R Beck, M H Rodriguez, S W Dister, et al.
Pageof 8