RT @w_s_gosset: @D1Kastell @ProfPCDoherty @DrReganG Here: >eg LINE-1 qv. https://t.co/ollLaOc5lW >124 LINE-1-mediated [RNA] insertions whi…
@D1Kastell @ProfPCDoherty @DrReganG Here: >eg LINE-1 qv. https://t.co/ollLaOc5lW >124 LINE-1-mediated [RNA] insertions which result in genetic diseases have been reported COVID egs: Pfizer vax: https://t.co/bgJZmi4q3Y https://t.co/YTjulxw5hF Old bu
RT @w_s_gosset: @cuboidalhug @ScienceMagazine 2 posts, 2 deceptions. Well-established mechanism: LINE-1 https://t.co/ollLaOcDbu e.g. Covi…
@cuboidalhug @ScienceMagazine 2 posts, 2 deceptions. Well-established mechanism: LINE-1 https://t.co/ollLaOcDbu e.g. Covid mRNA vaccine reverse-transcription: https://t.co/bgJZmi4XTw https://t.co/YTjulxwD7d https://t.co/ayqGHfNYCI "The results support t
@HopefulIdiot @Debunk_the_Funk The human genome is already 17% LINE-1 and over 45% TE. It is and always has been an appreciable phenomenon. https://t.co/OzUTviGsXu https://t.co/v3rqFtHDNz
@CoralBlob @YoloJenkins3 @ninjaAustin316 @RWMaloneMD I know it is throwing pearls in front of swine, but especially for you..https://t.co/yCRg3k3yuH
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
@J100NNV https://t.co/7CAPot20mJ He has many good threads and studies on this. The spike protein may be more dangerous without the virus...
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
RT @Parsifaler: 9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the…
9) more likely, has it been "taught" to know, like dear old Saint Nicholas, whose genes have been naughty or nice? Is the Spike Protein a genetic test? https://t.co/6BUvLAB6Do https://t.co/l9lYURDybS https://t.co/IVJlbUjiE9 https://t.co/KPQMTQYBUG
RT @MobDNAjournal: Roles for retrotransposon insertions in human disease https://t.co/DjfWOtDE5e #transposonday2019
Roles for retrotransposon insertions in human disease https://t.co/DjfWOtDE5e #transposonday2019
RT @MobDNAjournal: First discovered by Barbara McClintock in maize, transposable elements are now known to mediate over 124 genetic disease…
RT @MobDNAjournal: First discovered by Barbara McClintock in maize, transposable elements are now known to mediate over 124 genetic disease…
RT @MobDNAjournal: First discovered by Barbara McClintock in maize, transposable elements are now known to mediate over 124 genetic disease…
First discovered by Barbara McClintock in maize, transposable elements are now known to mediate over 124 genetic diseases in humans. Hancks & Kazazian (2016): Roles for retrotransposon insertions in human disease. https://t.co/DjfWOtDE5e #transposonday
Roles for retrotransposon insertions in human disease https://t.co/VPIURFA7cz
Roles for retrotransposon insertions in human disease https://t.co/umWcSaPCbm
There only 124 known disease causing active mobile element insertions: https://t.co/1WAecRvvLq #NSGC17
RT @CedricFeschotte: Another slide citing great review on TEs & disease by @dhancks81 & Kazazian in @MobDNAjournal https://t.co/Hj6bRn3q4…
RT @CedricFeschotte: Another slide citing great review on TEs & disease by @dhancks81 & Kazazian in @MobDNAjournal https://t.co/Hj6bRn3q4…
Another slide citing great review on TEs & disease by @dhancks81 & Kazazian in @MobDNAjournal https://t.co/Hj6bRn3q4g #MobDNA17 https://t.co/GZRNpmUNox
RT @KentsisResearch: Terrific review by Hancks and Kazazian: Roles for retrotransposon insertions in human disease. https://t.co/AYU2EvInoH
RT @HarmitMalik: Nice review on Line1 elements and human disease by @dhancks81 and Haig Kazazian: https://t.co/ahE934qNTx
Hancks & Kazazian discuss the roles for retrotransposon insertions in human disease: https://t.co/Ha9jbILqLw #MobileDNA
RT @TE_papers: Roles for retrotransposon insertions in human disease. https://t.co/nD3paOboDz
RT @TE_papers: Roles for retrotransposon insertions in human disease. https://t.co/nD3paOboDz
RT @KentsisResearch: Terrific review by Hancks and Kazazian: Roles for retrotransposon insertions in human disease. https://t.co/AYU2EvInoH
Terrific review by Hancks and Kazazian: Roles for retrotransposon insertions in human disease. https://t.co/AYU2EvInoH
RT @HarmitMalik: Nice review on Line1 elements and human disease by @dhancks81 and Haig Kazazian: https://t.co/ahE934qNTx
RT @HarmitMalik: Nice review on Line1 elements and human disease by @dhancks81 and Haig Kazazian: https://t.co/ahE934qNTx
Nice review on Line1 elements and human disease by @dhancks81 and Haig Kazazian: https://t.co/ahE934qNTx
Reading: Roles for retrotransposon insertions in human disease https://t.co/O63AoKqm9G
Copy-&-Paste: Roles for retrotransposons in human disease w/new table of 124 insertions..w/ Kazazian @BioMedCentral https://t.co/CTJC7bd7vP
Roles for retrotransposon insertions in human disease. https://t.co/nD3paOboDz