Hydrodynamic gene delivery of baboon trypanosome lytic factor eliminates both animal and human-infective African trypanosomes
about
Differences between Trypanosoma brucei gambiense groups 1 and 2 in their resistance to killing by trypanolytic factor 1Use of Genomic Tools to Improve Cattle Health in the Context of Infectious DiseasesImage-Guided Hydrodynamic Gene Delivery: Current Status and Future DirectionsTrypanosome resistance to human innate immunity: targeting Achilles' heelMouse models for pathogenic African trypanosomes: unravelling the immunology of host-parasite-vector interactions.APOL1 toxin, innate immunity, and kidney injuryDevelopment of transgenic fungi that kill human malaria parasites in mosquitoesCathepsin-L can resist lysis by human serum in Trypanosoma brucei bruceiGenetic recombination between human and animal parasites creates novel strains of human pathogen.Evolution of the primate trypanolytic factor APOL1Immunobiology of African trypanosomes: need of alternative interventionsTargeting cattle-borne zoonoses and cattle pathogens using a novel trypanosomatid-based delivery systemTransient expression of proteins by hydrodynamic gene delivery in mice.Human trypanolytic factor APOL1 forms pH-gated cation-selective channels in planar lipid bilayers: relevance to trypanosome lysis.25 years of African trypanosome research: From description to molecular dissection and new drug discoveryStructural characterization of the C-terminal coiled-coil domains of wild-type and kidney disease-associated mutants of apolipoprotein L1.A Primate APOL1 Variant That Kills Trypanosoma brucei gambiense.A Receptor's Tale: An Eon in the Life of a Trypanosome ReceptorMolecular epidemiological studies on animal trypanosomiases in GhanaCloning of the African indigenous cattle breed Kenyan Boran.How the African trypanosomes evade host immune killing.Contribution of innate immune responses towards resistance to African trypanosome infections.The molecular arms race between African trypanosomes and humans.A co-evolutionary arms race: trypanosomes shaping the human genome, humans shaping the trypanosome genome.Localization of serum resistance-associated protein in Trypanosoma brucei rhodesiense and transgenic Trypanosoma brucei brucei.Prophylactic antiparasitic transgenesis for human parasitic disease?Parasitology: Molecular one-upmanship.APOLs with low pH dependence can kill all African trypanosomes.Adaptation of Trypanosoma rhodesiense to hypohaptoglobinaemic serum requires transcription of the APOL1 resistance gene in a RNA polymerase I locus.Animal agriculture and the importance of agnostic governance of biotechnologySalivarian Trypanosomosis: A Review of Parasites Involved, Their Global Distribution and Their Interaction With the Innate and Adaptive Mammalian Host Immune SystemKinetoplastids: Trypanosomes
P2860
Q21092282-D764BB83-9B9B-48D8-B143-7DFD388327D8Q26750962-D010ED95-165E-47E5-AA15-02107DF7E5E7Q26797323-82F2EB6B-BF79-4F02-9DBF-09E42163787DQ27006982-543DF95D-68D4-4ABD-808C-70327726C110Q27686928-D56CBBF1-6562-4439-B198-C38DAB245BD0Q28085667-F2D53F67-8A77-49D1-B3D8-6A647447B50EQ28306060-0F157E6D-085F-41C0-B55A-FC1E2726A9C3Q28538908-5AE1514A-7C4C-42B3-A82F-F935A7187262Q30373132-87849517-0A67-46C5-8F90-C73DDD676867Q33665446-D4E36C38-4F15-4167-9490-2418DA8BCB53Q33680317-3D6BC45F-5562-44B6-9272-9227B8389030Q34064231-F8BB42F5-39EA-4B2B-B9E8-4959F409AF4DQ34237207-3E1526BF-3D68-461E-BEF7-9BDBFCBDF308Q35157040-5C5C6104-6881-46B9-AE64-C3BD000FA860Q35875131-1D5820B7-E505-49EE-8209-7DC48140703FQ35946562-ABCDA367-3BA9-4FCA-BC3A-FF042C77AB16Q36095886-2F07A366-82FB-428F-B10C-2D42C34C149FQ36261513-9C660017-8230-4680-9144-5657FC10C1BDQ36346255-909A35BF-AA25-47B8-BAB7-1CC4F20F4219Q37357421-322731C8-A297-46EC-AD52-5202D6537C5CQ37831950-1C65DAE5-6591-48D7-B917-1EDA33CFEE61Q37932024-FAA1796C-66E8-469F-A94A-83D1BDE2D06CQ38224214-27FE0A12-195D-4A93-9D0E-99A4FB4C1B17Q38345868-F7A91B2F-BC22-4C19-9E76-01FC670AEAE6Q38894984-D238EAEC-8124-4686-B8FD-D1B42AA22440Q41817809-9BB494A0-7091-4BCE-A200-A25A889F26DBQ44457442-F0A795E9-488B-49F6-BA25-6539EEE65DF2Q47781656-1FA63D8C-B648-4F13-8BFB-30EAA840B8EDQ53802451-6478F47D-4DA7-4937-B237-B42DF06707FDQ56812812-9C64B0A9-8808-43D4-9454-319180C8B65AQ58586441-D5021C8F-DC95-4BAD-B11F-AD28CB51F13CQ58848713-818D4D0D-AB90-4698-B57A-22EB7ED10ADB
P2860
Hydrodynamic gene delivery of baboon trypanosome lytic factor eliminates both animal and human-infective African trypanosomes
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Hydrodynamic gene delivery of ...... infective African trypanosomes
@ast
Hydrodynamic gene delivery of ...... infective African trypanosomes
@en
Hydrodynamic gene delivery of ...... infective African trypanosomes
@nl
type
label
Hydrodynamic gene delivery of ...... infective African trypanosomes
@ast
Hydrodynamic gene delivery of ...... infective African trypanosomes
@en
Hydrodynamic gene delivery of ...... infective African trypanosomes
@nl
prefLabel
Hydrodynamic gene delivery of ...... infective African trypanosomes
@ast
Hydrodynamic gene delivery of ...... infective African trypanosomes
@en
Hydrodynamic gene delivery of ...... infective African trypanosomes
@nl
P2093
P2860
P3181
P356
P1476
Hydrodynamic gene delivery of ...... infective African trypanosomes
@en
P2093
Jayne Raper
Mark Carrington
Pilar Molina-Portela
Russell Thomson
P2860
P304
19509-19514
P3181
P356
10.1073/PNAS.0905669106
P407
P577
2009-10-26T00:00:00Z