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Items: 1 to 20 of 91

1.

Understanding the transmission dynamics of Leishmania donovani to provide robust evidence for interventions to eliminate visceral leishmaniasis in Bihar, India.

Cameron MM, Acosta-Serrano A, Bern C, Boelaert M, den Boer M, Burza S, Chapman LA, Chaskopoulou A, Coleman M, Courtenay O, Croft S, Das P, Dilger E, Foster G, Garlapati R, Haines L, Harris A, Hemingway J, Hollingsworth TD, Jervis S, Medley G, Miles M, Paine M, Picado A, Poché R, Ready P, Rogers M, Rowland M, Sundar S, de Vlas SJ, Weetman D.

Parasit Vectors. 2016 Jan 27;9(1):25. doi: 10.1186/s13071-016-1309-8.

2.

Identification, Validation, and Application of Molecular Diagnostics for Insecticide Resistance in Malaria Vectors.

Donnelly MJ, Isaacs AT, Weetman D.

Trends Parasitol. 2015 Dec 29. pii: S1471-4922(15)00262-7. doi: 10.1016/j.pt.2015.12.001. [Epub ahead of print] Review.

PMID:
26750864
3.

Estimation of allele-specific Ace-1 duplication in insecticide-resistant Anopheles mosquitoes from West Africa.

Djogbénou LS, Assogba B, Essandoh J, Constant EA, Makoutodé M, Akogbéto M, Donnelly MJ, Weetman D.

Malar J. 2015 Dec 18;14(1):507. doi: 10.1186/s12936-015-1026-3.

4.

Insecticide resistance profile of Anopheles gambiae from a phase II field station in Cové, southern Benin: implications for the evaluation of novel vector control products.

Ngufor C, N'Guessan R, Fagbohoun J, Subramaniam K, Odjo A, Fongnikin A, Akogbeto M, Weetman D, Rowland M.

Malar J. 2015 Nov 18;14(1):464. doi: 10.1186/s12936-015-0981-z.

5.

Limited genomic divergence between intraspecific forms of Culex pipiens under different ecological pressures.

Gomes B, Wilding CS, Weetman D, Sousa CA, Novo MT, Savage HM, Almeida AP, Pinto J, Donnelly MJ.

BMC Evol Biol. 2015 Sep 16;15:197. doi: 10.1186/s12862-015-0477-z.

6.

Adaptive Potential of Hybridization among Malaria Vectors: Introgression at the Immune Locus TEP1 between Anopheles coluzzii and A. gambiae in 'Far-West' Africa.

Mancini E, Spinaci MI, Gordicho V, Caputo B, Pombi M, Vicente JL, Dinis J, Rodrigues A, Petrarca V, Weetman D, Pinto J, Della Torre A.

PLoS One. 2015 Jun 5;10(6):e0127804. doi: 10.1371/journal.pone.0127804. eCollection 2015.

7.

Contemporary evolution of resistance at the major insecticide target site gene Ace-1 by mutation and copy number variation in the malaria mosquito Anopheles gambiae.

Weetman D, Mitchell SN, Wilding CS, Birks DP, Yawson AE, Essandoh J, Mawejje HD, Djogbenou LS, Steen K, Rippon EJ, Clarkson CS, Field SG, Rigden DJ, Donnelly MJ.

Mol Ecol. 2015 Jun;24(11):2656-72. doi: 10.1111/mec.13197. Epub 2015 May 14.

8.

Evolution of insecticide resistance diagnostics in malaria vectors.

Weetman D, Donnelly MJ.

Trans R Soc Trop Med Hyg. 2015 May;109(5):291-3. doi: 10.1093/trstmh/trv017. Epub 2015 Mar 3.

PMID:
25740955
9.

Remarkable diversity of intron-1 of the para voltage-gated sodium channel gene in an Anopheles gambiae/Anopheles coluzzii hybrid zone.

Santolamazza F, Caputo B, Nwakanma DC, Fanello C, Petrarca V, Conway DJ, Weetman D, Pinto J, Mancini E, della Torre A.

Malar J. 2015 Jan 21;14:9. doi: 10.1186/s12936-014-0522-1.

10.

Evolving the world's most dangerous animal.

Weetman D, Clarkson CS.

Trends Parasitol. 2015 Feb;31(2):39-40. doi: 10.1016/j.pt.2015.01.001. Epub 2015 Jan 15.

PMID:
25599586
11.

Long-term trends in Anopheles gambiae insecticide resistance in Côte d'Ivoire.

Edi CA, Koudou BG, Bellai L, Adja AM, Chouaibou M, Bonfoh B, Barry SJ, Johnson PC, Müller P, Dongus S, N'Goran EK, Ranson H, Weetman D.

Parasit Vectors. 2014 Nov 28;7:500. doi: 10.1186/s13071-014-0500-z. Review.

12.

First report of an exophilic Anopheles arabiensis population in Bissau City, Guinea-Bissau: recent introduction or sampling bias?

Gordicho V, Vicente JL, Sousa CA, Caputo B, Pombi M, Dinis J, Seixas G, Palsson K, Weetman D, Rodrigues A, della Torre A, Pinto J.

Malar J. 2014 Nov 4;13:423. doi: 10.1186/1475-2875-13-423.

13.

Islands and stepping-stones: comparative population structure of Anopheles gambiae sensu stricto and Anopheles arabiensis in Tanzania and implications for the spread of insecticide resistance.

Maliti D, Ranson H, Magesa S, Kisinza W, Mcha J, Haji K, Killeen G, Weetman D.

PLoS One. 2014 Oct 29;9(10):e110910. doi: 10.1371/journal.pone.0110910. eCollection 2014.

14.

Effect of a care transition intervention by pharmacists: an RCT.

Farris KB, Carter BL, Xu Y, Dawson JD, Shelsky C, Weetman DB, Kaboli PJ, James PA, Christensen AJ, Brooks JM.

BMC Health Serv Res. 2014 Sep 18;14:406. doi: 10.1186/1472-6963-14-406.

15.

Parallel evolution or purifying selection, not introgression, explains similarity in the pyrethroid detoxification linked GSTE4 of Anopheles gambiae and An. arabiensis.

Wilding CS, Weetman D, Rippon EJ, Steen K, Mawejje HD, Barsukov I, Donnelly MJ.

Mol Genet Genomics. 2015 Feb;290(1):201-15. doi: 10.1007/s00438-014-0910-9. Epub 2014 Sep 12.

16.

Contemporary gene flow between wild An. gambiae s.s. and An. arabiensis.

Weetman D, Steen K, Rippon EJ, Mawejje HD, Donnelly MJ, Wilding CS.

Parasit Vectors. 2014 Jul 24;7:345. doi: 10.1186/1756-3305-7-345.

17.

Adaptive introgression between Anopheles sibling species eliminates a major genomic island but not reproductive isolation.

Clarkson CS, Weetman D, Essandoh J, Yawson AE, Maslen G, Manske M, Field SG, Webster M, Antão T, MacInnis B, Kwiatkowski D, Donnelly MJ.

Nat Commun. 2014 Jun 25;5:4248. doi: 10.1038/ncomms5248.

18.

Genetic basis of pyrethroid resistance in a population of Anopheles arabiensis, the primary malaria vector in Lower Moshi, north-eastern Tanzania.

Matowo J, Jones CM, Kabula B, Ranson H, Steen K, Mosha F, Rowland M, Weetman D.

Parasit Vectors. 2014 Jun 19;7:274. doi: 10.1186/1756-3305-7-274.

19.

Metabolic and target-site mechanisms combine to confer strong DDT resistance in Anopheles gambiae.

Mitchell SN, Rigden DJ, Dowd AJ, Lu F, Wilding CS, Weetman D, Dadzie S, Jenkins AM, Regna K, Boko P, Djogbenou L, Muskavitch MA, Ranson H, Paine MJ, Mayans O, Donnelly MJ.

PLoS One. 2014 Mar 27;9(3):e92662. doi: 10.1371/journal.pone.0092662. eCollection 2014.

20.

CYP6 P450 enzymes and ACE-1 duplication produce extreme and multiple insecticide resistance in the malaria mosquito Anopheles gambiae.

Edi CV, Djogbénou L, Jenkins AM, Regna K, Muskavitch MA, Poupardin R, Jones CM, Essandoh J, Kétoh GK, Paine MJ, Koudou BG, Donnelly MJ, Ranson H, Weetman D.

PLoS Genet. 2014 Mar 20;10(3):e1004236. doi: 10.1371/journal.pgen.1004236. eCollection 2014 Mar.

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