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1. Full Text Tsetse flies: Genetics, evolution, and role as vectors
by Krafsur, E.S
Infection, Genetics and Evolution, ISSN 1567-1348, 2009, Volume 9, Issue 1, pp. 124 - 141
Tsetse flies (Diptera: Glossinidae) are an ancient taxon of one genus, Glossina, and limited species diversity. All are exclusively haematophagous and confined... 
Gene flow | Glossina | Trypanosoma | Tsetse | African trypanosomiasis | INFECTIOUS DISEASES | GLOSSINA-PALLIDIPES DIPTERA | SENSU-LATO DIPTERA | TRYPANOSOMA-BRUCEI | NATURAL-POPULATION | PALPALIS-GAMBIENSIS | COMMON FLY BELT | MORSITANS-SUBMORSITANS NEWSTEAD | EFFECTIVE POPULATION-SIZE | BREEDING STRUCTURE | FUSCIPES-FUSCIPES NEWSTEAD | Africa - epidemiology | Tsetse Flies - parasitology | Humans | Male | Trypanosoma brucei brucei - physiology | Genetic Variation | Trypanosomiasis, African - transmission | Tsetse Flies - physiology | Insect Vectors - classification | Trypanosomiasis, African - epidemiology | Female | Host-Parasite Interactions | Microsatellite Repeats | Gene Flow | Tsetse Flies - genetics | Trypanosomiasis, African - economics | Trypanosoma brucei brucei - genetics | Tsetse Flies - classification | Biological Evolution | Trypanosomiasis, African - parasitology | Animals | Insect Vectors - genetics | Insect Vectors - physiology | Insect Vectors - parasitology | Population Dynamics | gene flow | tsetse
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2. Full Text Genome sequence of the tsetse fly (Glossina morsitans ): Vector of African trypanosomiasis
by Watanabe, Junichi and Hattori, Masahira and Berriman, Matthew and Lehane, Michael J and Hall, Neil and Solano, Philippe and Aksoy, Serap and Hide, Winston and Touré, Yeya and Attardo, Geoffrey M and Darby, Alistair C and Toyoda, Atsushi and Hertz-Fowler, Christiane and Larkin, Denis M and Cotton, James A and Sanders, Mandy J and Swain, Martin T and Quail, Michael A and Inoue, Noboru and Ravel, Sophie and Taylor, Todd D and Srivastava, Tulika P and Sharma, Vineet and Warren, Wesley and Wilson, Richard K and Suzuki, Yutaka and Lawson, Daniel and Hughes, Daniel S. T and Megy, Karyn and Masiga, Daniel K and Mireji, Paul O and Hansen, Immo A and Van Den Abbeele, Jan and Benoit, Joshua B and Bourtzis, Kostas and Obiero, George F. O and Robertson, Hugh M and Jones, Jeffery W and Zhou, Jing-Jiang and Field, Linda M and Friedrich, Markus and Nyanjom, Steven R. G and Telleria, Erich L and Caljon, Guy and Ribeiro, José M. C and Acosta-Serrano, Alvaro and Ooi, Cher-Pheng and Rose, Clair and Price, David P and Haines, Lee R and Christoffels, Alan and Sim, Cheolho and Pham, Daphne Q. D and Denlinger, David L and Geiser, Dawn L and Omedo, Irene A and Winzerling, Joy J and Peyton, Justin T and Marucha, Kevin K and Jonas, Mario and Meuti, Megan E and Rawlings, Neil D and Zhang, Qirui and Macharia, Rosaline W and Michalkova, Veronika and Dashti, Zahra Jalali Sefid and Baumann, Aaron A and Gäde, Gerd and Marco, Heather G and Caers, Jelle and Schoofs, Liliane and Riehle, Michael A and Hu, Wanqi and Tu, Zhijian and Tarone, Aaron M and Malacrida, Anna R and Kibet, Caleb K and Scolari, Francesca and Koekemoer, Jacobus J. O and Willis, Judith and Gomulski, Ludvik M and Falchetto, Marco and Scott, Maxwell J and Fu, Shuhua and Sze, Sing-Hoi and Luiz, Thiago and Weiss, Brian and Walshe, Deirdre P and Wang, Jingwen and Wamalwa, Mark and Mwangi, Sarah and Ramphul, Urvashi N and Snyder, Anna K and Brelsfoard, Corey L and Thomas, Gavin H and Tsiamis, George and Arensburger, Peter and Rio, Rita V. M and Macdonald, Sandy J and Panji, Sumir and ... and IGGI and International Glossina Genome Initiative
Science, ISSN 0036-8075, 2014, Volume 344, Issue 6182, pp. 380 - 386
Tsetse flies are the sole vectors of human African trypanosomiasis throughout sub-Saharan Africa. Both sexes of adult tsetse feed exclusively on blood and... 
DIPTERA | IMMUNE-RESPONSES | MULTIDISCIPLINARY SCIENCES | PROTEINS | PERITROPHIC MATRIX | AQUAPORINS | FLIES | Tsetse Flies - parasitology | Molecular Sequence Data | Salivary Glands - physiology | Salivary Glands - parasitology | Wolbachia - physiology | Blood | Trypanosomiasis, African - transmission | Microbiota | Wolbachia - genetics | Tsetse Flies - physiology | Female | Genome, Insect | Tsetse Flies - microbiology | Genes, Insect | Symbiosis | Insect Proteins - physiology | Insect Vectors - microbiology | Molecular Sequence Annotation | Tsetse Flies - genetics | Insect Proteins - genetics | Reproduction - genetics | Feeding Behavior | Sequence Analysis, DNA | Animals | Insect Vectors - genetics | Insect Vectors - physiology | Insect Vectors - parasitology | Sensation - genetics | Trypanosoma - physiology | Zoological research | Genetic vectors | Genetic research | Genetic aspects | Research | Nucleotide sequencing | Tsetse-flies | Trypanosomiasis | DNA sequencing | Proteins | Insects | Parasitic diseases | Genomics | Wolbachia/genetics | Tsetse Flies/parasitology | Insect Proteins/genetics | Tsetse Flies/physiology | Insect Proteins/physiology | Sensation/genetics | Life Sciences | Tsetse Flies/microbiology | Insect Vectors/parasitology | Salivary Glands/parasitology | Wolbachia/physiology | Trypanosoma/physiology | Tsetse Flies/genetics | Reproduction/genetics | Trypanosomiasis, African/transmission | Microbiology and Parasitology | Insect Vectors/microbiology | Insect Vectors/physiology | Insect Vectors/genetics | Salivary Glands/physiology
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3. Full Text Tsetse fly evolution, genetics and the trypanosomiases - A review
by Krafsur, E.S and Maudlin, Ian
Infection, Genetics and Evolution, ISSN 1567-1348, 10/2018, Volume 64, pp. 185 - 206
This reviews work published since 2007. Relative efforts devoted to the agents of African trypanosomiasis and their tsetse fly vectors are given by the numbers... 
EFFECTIVE POPULATION-SIZE | SLEEPING SICKNESS FOCUS | INFECTIOUS DISEASES | PALLIDIPES DIPTERA | POLYTENE CHROMOSOME MAPS | HUMAN AFRICAN TRYPANOSOMIASIS | BRUCEI-GAMBIENSE | SODALIS-GLOSSINIDIUS | MORSITANS-SUBMORSITANS DIPTERA | GLOSSINA-PALPALIS-GAMBIENSIS | FLIES DIPTERA | Symbiosis | Genetics, Population | Trypanosomiasis - parasitology | Trypanosomiasis - epidemiology | Disease Susceptibility | Tsetse Flies - parasitology | Trypanosoma - genetics | Humans | Tsetse Flies - genetics | Phylogeny | Trypanosomiasis - transmission | Tsetse Flies - classification | Animals | Insect Vectors - genetics | Insect Vectors - parasitology | Karyotype | Evolution, Molecular | Genetic vectors | Analysis | Genomics | Genes | Genetic research | Single nucleotide polymorphisms | Nucleotide sequencing | Chromosomes | Population genetics | DNA sequencing
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4. Full Text A Novel Highly Divergent Protein Family Identified from a Viviparous Insect by RNA-seq Analysis: A Potential Target for Tsetse Fly-Specific Abortifacients
by Benoit, Joshua B and Attardo, Geoffrey M and Michalkova, Veronika and Krause, Tyler B and Bohova, Jana and Zhang, Qirui and Baumann, Aaron A and Mireji, Paul O and Takáč, Peter and Denlinger, David L and Ribeiro, Jose M and Aksoy, Serap
PLoS Genetics, ISSN 1553-7390, 2014, Volume 10, Issue 4, p. e1003874
In tsetse flies, nutrients for intrauterine larval development are synthesized by the modified accessory gland (milk gland) and provided in mother's milk... 
MOLECULAR CHARACTERIZATION | KAPPA-CASEIN | MILK-FAT-GLOBULE | EVOLUTIONARY GENETICS ANALYSIS | DROSOPHILA-MELANOGASTER | GENETICS & HEREDITY | ODORANT-BINDING PROTEINS | PSI-BLAST | GLOSSINA-MORSITANS-MORSITANS | PROTEOMIC ANALYSIS | GLAND PROTEIN | Proteome - genetics | Genes, Insect - genetics | Lactation - drug effects | Male | Phylogeny | Gene Knockdown Techniques - methods | Introns - drug effects | RNA - genetics | Abortifacient Agents - pharmacology | Fertility - genetics | Fertility - drug effects | Female | Lipid Metabolism - genetics | Lactation - genetics | Amino Acid Sequence | Exons - drug effects | Introns - genetics | Tsetse Flies - genetics | Insect Proteins - genetics | Reproduction - genetics | Exons - genetics | Gene Expression Profiling - methods | Milk Proteins - genetics | Transcriptome - genetics | Reproduction - drug effects | Sequence Analysis, RNA - methods | Animals | Lipid Metabolism - drug effects | Tsetse Flies - drug effects | RNA sequencing | Genetic research | Genetic aspects | Zoological research | Research | Tsetse-flies | Proteins | Breastfeeding & lactation | Genes | Homeostasis | Amino acids | Females | Milk
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5. Full Text Genetic Differentiation of Glossina pallidipes Tsetse Flies in Southern Kenya
by Okeyo, Winnie A and Okeyo, Winnie A and Saarman, Norah P and Saarman, Norah P and Bateta, Rosemary and Bateta, Rosemary and Dion, Kirstin and Dion, Kirstin and Mengual, Michael and Mengual, Michael and Mireji, Paul O and Mireji, Paul O and Ouma, Collins and Ouma, Collins and Okoth, Sylvance and Okoth, Sylvance and Murilla, Grace and Murilla, Grace and Aksoy, Serap and Aksoy, Serap and Caccone, Adalgisa and Caccone, Adalgisa
The American journal of tropical medicine and hygiene, ISSN 0002-9637, 10/2018, Volume 99, Issue 4, pp. 945 - 953
The tsetse fly Glossina pallidipes, the major vector of the parasite that causes animal African trypanosomiasis in Kenya, has been subject to intense control... 
BREEDING STRUCTURE | FLY | PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH | DIPTERA | POPULATION-STRUCTURE | ANOPHELES-GAMBIAE | AFRICAN TRYPANOSOMIASIS | DRUG-RESISTANCE | LAMBWE VALLEY | RIFT-VALLEY | SOFTWARE | TROPICAL MEDICINE | Kenya - epidemiology | Tsetse Flies - parasitology | Animal Distribution - physiology | Humans | Tsetse Flies - genetics | Trypanosomiasis, African - prevention & control | Genotype | Male | Genotyping Techniques | Tsetse Flies - classification | Genetic Variation | Reproductive Isolation | Trypanosomiasis, African - transmission | Animals | Insect Vectors - genetics | Insect Vectors - classification | Insect Vectors - parasitology | Trypanosomiasis, African - epidemiology | Alleles | Female | Insect Control - methods | Microsatellite Repeats | Cluster Analysis | Population Dynamics
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6. Full Text VectorBase: improvements to a bioinformatics resource for invertebrate vector genomics
by Megy, Karine and Emrich, Scott J and Lawson, Daniel and Campbell, David and Dialynas, Emmanuel and Hughes, Daniel S.T and Koscielny, Gautier and Louis, Christos and MacCallum, Robert M and Redmond, Seth N and Sheehan, Andrew and Topalis, Pantelis and Wilson, Derek and VectorBase Consortium and the VectorBase Consortium
Nucleic Acids Research, ISSN 0305-1048, 1/2012, Volume 40, Issue D1, pp. D729 - D734
VectorBase (http://www.vectorbase.org) is a NIAID-supported bioinformatics resource for invertebrate vectors of human pathogens. It hosts data for nine... 
ONTOLOGIES | SEQUENCES | MOSQUITOS | DATABASE | RNA-SEQ | FORMAT | ANNOTATION | BIOCHEMISTRY & MOLECULAR BIOLOGY | MALARIA | Genetic Variation | Ixodes - genetics | Animals | Insect Vectors - genetics | Rhodnius - genetics | Insecticide Resistance | Pediculus - genetics | Genomics | Culicidae - genetics | Tsetse Flies - genetics | Databases, Genetic | Genome, Insect
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7. Full Text Wolbachia symbiont infections induce strong cytoplasmic incompatibility in the Tsetse fly glossina morsitans
by Alam, Uzma and Medlock, Jan and Brelsfoard, Corey and Pais, Roshan and Lohs, Claudia and Balmand, Séverine and Carnogursky, Jozef and Heddi, Abdelaziz and Takac, Peter and Galvani, Alison and Aksoy, Serap
PLoS Pathogens, ISSN 1553-7366, 12/2011, Volume 7, Issue 12, p. e1002415
Tsetse flies are vectors of the protozoan parasite African trypanosomes, which cause sleeping sickness disease in humans and nagana in livestock. Although... 
TRYPANOSOMIASIS | ENDOSYMBIONTS | FLIES GLOSSINA | HOST | MICROBIOLOGY | AEDES-AEGYPTI | PREVALENCE | LIFE-SHORTENING WOLBACHIA | VIROLOGY | SPERM | REPRODUCTION | PARASITOLOGY | INTERSPECIFIC TRANSFER | Models, Theoretical | Pest Control, Biological - methods | Tsetse Flies - genetics | In Situ Hybridization, Fluorescence | Male | Symbiosis - genetics | Fertility - genetics | Phenotype | Animals | Insect Vectors - genetics | Disease Resistance - physiology | Wolbachia | Female | Cytoplasm | Tsetse Flies - microbiology | Genetic aspects | Research | Tsetse-flies | Health aspects | Trypanosomiasis | Genetically modified organisms | Sensitivity analysis | Insects | Antibiotics | Population | Infections | Mathematical models | Parasites | Vaccines | Females | Experiments | Methods
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8. Full Text Genetic diversity and population structure of the tsetse fly Glossina fuscipes fuscipes (Diptera: Glossinidae) in Northern Uganda: Implications for vector control
by Opiro, Robert and Saarman, Norah P and Echodu, Richard and Opiyo, Elizabeth A and Dion, Kirstin and Halyard, Alexis and Dunn, Augustine W and Aksoy, Serap and Caccone, Adalgisa
PLoS Neglected Tropical Diseases, ISSN 1935-2727, 04/2017, Volume 11, Issue 4, p. e0005485
Uganda is the only country where the chronic and acute forms of human African Trypanosomiasis (HAT) or sleeping sickness both occur and are separated by < 100... 
RHODESIENSE SLEEPING SICKNESS | TRANSMISSION | LINKAGE DISEQUILIBRIUM | PHYLOGEOGRAPHY | HUMAN AFRICAN TRYPANOSOMIASIS | COMPUTER-PROGRAM | PALPALIS-PALPALIS | SIZE | DIFFERENTIATION |