Spumaretroviruses

Spumaretroviruses

Foamy viruses, currently referred to as spumaretroviruses, are the most ancient retroviruses as evidenced by traces of viral sequences dispersed in all vertebrate classes from fish to mammals. Additionally, infectious foamy viruses circulate in a variety of mammalian species including simian, bovine...

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HerausgeberIn:
Löchelt, Martin
Lindemann, Dirk
Sonstige:
Khan, Arifa
Löchelt, Martin
Lindemann, Dirk
Year of Publication:2021
Language:English
Physical Description:1 electronic resource (352 p.)
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100 1 |a Khan, Arifa  |4 edt 
245 1 0 |a Spumaretroviruses 
260 |a Basel, Switzerland  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2021 
300 |a 1 electronic resource (352 p.) 
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520 |a Foamy viruses, currently referred to as spumaretroviruses, are the most ancient retroviruses as evidenced by traces of viral sequences dispersed in all vertebrate classes from fish to mammals. Additionally, infectious foamy viruses circulate in a variety of mammalian species including simian, bovine, equine, caprine, and feline. Foamy viruses have many unique features which led to the division of the retrovirus family into two subfamilies, the Orthoretrovirinae and Spumaretrovirinae. In vitro, foamy viruses have a broad host range and in vivo, human infections have been described due to cross-species transmission from infected nonhuman primates. Thus far, there are no reports of virus-induced disease in humans or in the natural host species. These unique properties of foamy viruses have led researchers to develop foamy viruses as gene therapy vectors to study virus–virus and virus–host interactions for identifying factors involved in virus replication, transmission, and immune regulation that could influence potential clinical outcomes in humans as well as for using endogenous foamy virus sequences in the analysis of host species evolution. 
546 |a English 
650 7 |a Medicine  |2 bicssc 
650 7 |a Neurosciences  |2 bicssc 
653 |a spumavirus 
653 |a feline illness 
653 |a proviral load 
653 |a neglected virus 
653 |a bovine foamy virus 
653 |a infectious clone 
653 |a particle release 
653 |a cell-free transmission 
653 |a foamy virus 
653 |a spumaretrovirus 
653 |a cross-species virus transmission 
653 |a zoonosis 
653 |a restriction factors 
653 |a immune responses 
653 |a FV vectors 
653 |a virus replication 
653 |a latent infection 
653 |a feline foamy virus 
653 |a epidemiology 
653 |a retrovirus 
653 |a Spumaretrovirus 
653 |a mountain lion 
653 |a Puma concolor 
653 |a ELISA 
653 |a protease 
653 |a reverse transcriptase 
653 |a RNase H 
653 |a reverse transcription 
653 |a antiviral drugs 
653 |a resistance 
653 |a simian foamy virus 
653 |a gibbon 
653 |a lesser apes 
653 |a co-evolution 
653 |a complete viral genome 
653 |a equine foamy virus 
653 |a isolation 
653 |a Japan 
653 |a sero-epidemiology 
653 |a reptile foamy virus 
653 |a endogenous foamy virus 
653 |a endogenous retrovirus 
653 |a ancient retroviruses 
653 |a co-speciation 
653 |a foamy virus-host interactions 
653 |a viral tropism 
653 |a infection 
653 |a kidney 
653 |a cats 
653 |a chronic kidney disease 
653 |a chronic renal disease 
653 |a integrase 
653 |a integration 
653 |a co-infections 
653 |a NHP 
653 |a pathogenesis 
653 |a zoonoses 
653 |a viral prevalence 
653 |a Neotropical primates 
653 |a free-living primates 
653 |a Brazil 
653 |a new world primates 
653 |a simian retrovirus 
653 |a BFV 
653 |a spuma virus 
653 |a model system 
653 |a animal model 
653 |a animal experiment 
653 |a miRNA function 
653 |a gene expression 
653 |a antiviral host restriction 
653 |a gene therapy 
653 |a in-vivo gene therapy 
653 |a hematopoietic stem and progenitor cells 
653 |a foamy virus vector 
653 |a pre-clinical canine model 
653 |a SCID-X1 
653 |a innate sensing 
653 |a cGAS 
653 |a STING 
653 |a foamy viruses 
653 |a wild ruminants 
653 |a European bison 
653 |a red deer 
653 |a roe deer 
653 |a fallow deer 
653 |a seroreactivity 
653 |a inter-species transmission 
653 |a HSC 
653 |a gene marking 
653 |a FV gene transfer to HSCs 
653 |a gene therapy alternatives 
653 |a serotype 
653 |a high-throughput sequencing 
653 |a replication kinetics 
653 |a cytopathic effect 
653 |a reverse transcriptase activity 
653 |a miRNA expression 
653 |a virus-host-interaction 
653 |a miRNA target gene identification 
653 |a innate immunity 
653 |a ANKRD17 
653 |a Bif1 (SH3GLB1) 
653 |a replication in vitro 
776 |z 3-0365-0594-6 
776 |z 3-0365-0595-4 
700 1 |a Löchelt, Martin  |4 edt 
700 1 |a Lindemann, Dirk  |4 edt 
700 1 |a Khan, Arifa  |4 oth 
700 1 |a Löchelt, Martin  |4 oth 
700 1 |a Lindemann, Dirk  |4 oth 
906 |a BOOK 
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